In Confab : Paul Elsner

Dr Paul Elsner of Birkbeck College at the University of London gave up some of his valuable time for me today at his little bijou garret-style office in Bloomsbury in Central London, with an excellent, redeeming view of the British Telecom Tower. Leader of the Energy and Climate Change module on Birkbeck’s Climate Change Management programme, he offered me tea and topical information on Renewable Energy, and some advice on discipline in authorship.

He unpacked the recent whirlwind of optimism surrounding the exploitation of Shale Gas and Shale Oil, and how Climate Change policy is perhaps taking a step back. He said that we have to accept that this is the way the world is at the moment.

I indicated that I don’t have much confidence in the “Shale Bubble”. I consider it mostly as a public relations exercise – and that there are special conditions in the United States of America where all this propaganda comes from. I said that there are several factors that mean the progress with low carbon fuels continues to be essential, and that Renewable Gas is likely to be key.

1. First of all, the major energy companies, the oil and gas companies, are not in a healthy financial state to make huge investment. For example, BP has just had the legal ruling that there will be no limit to the amount of compensation claims they will have to face over the Deepwater Horizon disaster. Royal Dutch Shell meanwhile has just had a serious quarterly profit warning – and if that is mostly due to constrained sales (“Peak Oil Demand”) because of economic collapse, that doesn’t help them with the kind of aggressive “discovery” they need to continue with to keep up their Reserves to Production ratio (the amount of proven resources they have on their books). These are not the only problems being faced in the industry. This problem with future anticipated capitalisation means that Big Oil and Gas cannot possibly look at major transitions into Renewable Electricity, so it would be pointless to ask, or try to construct a Carbon Market to force it to happen.

2. Secondly, despite claims of large reserves of Shale Gas and Shale Oil, ripe for the exploitation of, even major bodies are not anticipating that Peak Oil and Peak Natural Gas will be delayed by many years by the “Shale Gale”. The reservoir characteristics of unconventional fossil fuel fields do not mature in the same way as conventional ones. This means that depletion scenarios for fossil fuels are still as relevant to consider as the decades prior to horizontal drilling and hydraulic fracturing (“fracking”).

3. Thirdly, the reservoir characteristics of conventional fossil fuel fields yet to exploit, especially in terms of chemical composition, are drifting towards increasingly “sour” conditions – with sigificant levels of hydrogen sulfide and carbon dioxide in them. The sulphur must be removed for a variety of reasons, but the carbon dioxide remains an issue. The answer until recently from policy people would have been Carbon Capture and Storage or CCS. Carbon dioxide should be washed from acid Natural Gas and sequestered under the ocean in salt caverns that previously held fossil hydrocarbons. It was hoped that Carbon Markets and other forms of carbon pricing would have assisted with the payment for CCS. However, recently there has been reduced confidence that this will be significant.

Renewable Gas is an answer to all three of these issues. It can easily be pursued by the big players in the current energy provision system, with far less investment than wholesale change would demand. It can address concerns of gas resource depletion at a global scale, the onset of which could occur within 20 to 25 years. And it can be deployed to bring poor conventional fossil fuels into consideration for exploitation in the current time – answering regional gas resource depletion.

Outside, daffodils were blooming in Tavistock Square. In January, yes. The “freaky” weather continues…

But Uh-Oh – Those Summer Nights

A normal, everyday Monday morning at Energy Geek Central. Yes, this is a normal conversation for me to take part in on a Monday morning. Energy geekery at breakfast. Perfect.

Nuclear Flower Power

This whole UK Government nuclear power programme plan is ridiculous ! 75 gigawatts (GW) of Generation III nuclear fission reactors ? What are they thinking ? Britain would need to rapidly ramp up its construction capabilities, and that’s not going to happen, even with the help of the Chinese. (And the Americans are not going to take too kindly to the idea of China getting strongly involved with British energy). And then, we’d need to secure almost a quarter of the world’s remaining reserves of uranium, which hasn’t actually been dug up yet. And to cap it all, we’d need to have 10 more geological disposal repositories for the resulting radioactive spent fuel, and we haven’t even managed to negotiate one yet. That is, unless we can burn a good part of that spent fuel in Generation IV nuclear fission reactors – which haven’t even been properly demonstrated yet ! Talk about unconscionable risk !

Baseload Should Be History By Now, But…

Whatever the technological capability for nuclear power plants to “load follow” and reduce their output in response to a chance in electricity demand, Generation III reactors would not be run as anything except “baseload” – constantly on, and constantly producing a constant amount of power – although they might turn them off in summer for maintenance. You see, the cost of a Generation III reactor and generation kit is in the initial build – so their investors are not going to permit them to run them at low load factors – even if they could.

There are risks to running a nuclear power plant at partial load – mostly to do with potential damage to the actual electricity generation equipment. But what are the technology risks that Hinkley Point C gets built, and all that capital is committed, and then it only runs for a couple of years until all that high burn up fuel crumbles and the reactors start leaking plutonium and they have to shut it down permanently ? Who can guarantee it’s a sound bet ?

If they actually work, running Generation III reactors at constant output as “baseload” will also completely mess with the power market. In all of the scenarios, high nuclear, high non-nuclear, or high fossil fuels with Carbon Capture and Storage (CCS), there will always need to be some renewables in the mix. In all probability this will be rapidly deployed, highly technologically advanced solar power photovoltaics (PV). The amount of solar power that will be generated will be high in summer, but since you have a significant change in energy demand between summer and winter, you’re going to have a massive excess of electricity generation in summer if you add nuclear baseload to solar. Relative to the demand for energy, you’re going to get more Renewable Energy excess in summer and under-supply in winter (even though you get more offshore wind in winter), so it’s critical how you mix those two into your scenario.

The UK Government’s maximum 75 GW nuclear scenario comprises 55 GW Generation III and 20 GW Generation IV. They could have said 40 GW Gen III to feed Gen IV – the spent fuel from Gen III is needed to kick off Gen IV. Although, if LFTR took off, if they had enough fluoride materials there could be a Thorium way into Gen IV… but this is all so technical, no MP [ Member of Parliament ] is going to get their head round this before 2050.

The UK Government are saying that 16 GW of nuclear by 2030 should be seen as a first tranche, and that it could double or triple by 2040 – that’s one heck of a deployment rate ! If they think they can get 16 GW by 2030 – then triple that by 10 years later ? It’s not going to happen. And even 30 GW would be horrific. But it’s probably more plausible – if they can get 16 GW by 2030, they can arguably get double that by 2040.

As a rule of thumb, you would need around 10 tonnes of fissionable fuel to kickstart a Gen IV reactor. They’ve got 106 tonnes of Plutonium, plus 3 or 4 tonnes they recently acquired – from France or Germany (I forget which). So they could start 11 GW of Gen IV – possibly the PRISM – the Hitachi thing – sodium-cooled. They’ve been trying them since the Year Dot – these Fast Reactors – the Breeders – Dounreay. People are expressing more confidence in them now – “Pandora’s Promise” hangs around the narrative that the Clinton administration stopped research into Fast Reactors – Oak Ridge couldn’t be commercial. Throwing sodium around a core 80 times hotter than current core heats – you can’t throw water at it easily. You need something that can carry more heat out. It’s a high technological risk. But then get some French notable nuclear person saying Gen IV technologies – “they’re on the way and they can be done”.

Radioactive Waste Disposal Woes

The point being is – if you’re commissioning 30 GW of Gen III in the belief that Gen IV will be developed – then you are setting yourself up to be a hostage to technological fortune. That is a real ethical consideration. Because if you can’t burn the waste fuel from Gen III, you’re left with up to 10 radioactive waste repositories required when you can’t even get one at the moment. The default position is that radioactive spent nuclear fuel will be left at the power stations where they’re created. Typically, nuclear power plants are built on the coast as they need a lot of cooling water. If you are going for 30 GW you will need a load of new sites – possibly somewhere round the South East of England. This is where climate change comes in – rising sea levels, increased storm surge, dissolving, sinking, washed-away beaches, more extreme storms […] The default spent fuel scenario with numerous coastal decommissioned sites with radioactive interim stores which contain nearly half the current legacy radioactive waste […]

Based on the figures from the new Greenpeace report, I calculate that the added radioactive waste and radioactive spent fuel arisings from a programme of 16 GW of nuclear new build would be 244 million Terabequerel (TBq), compared to the legacy level of 87 million TBq.

The Nuclear Decommissioning Authority (NDA) are due to publish their Radioactive Waste Inventory and their Report on Radioactive Materials not in the Waste Inventory at the end of January 2014. We need to keep a watch out for that, because they may have adapted their anticipated Minimum and Maxmium Derived Inventory.

Politics Is Living In The Past

What you hear from politicians is they’re still talking about “baseload”, as if they’ve just found the Holy Grail of Energy Policy. And failed nuclear power. Then tidal. And barrages. This is all in the past. Stuff they’ve either read – in an article in a magazine at the dentist’s surgery waiting room, and they think, alright I’ll use that in a TV programme I’ve been invited to speak on, like Question Time. I think that perhaps, to change the direction of the argument, we might need to rubbish their contribution. A technological society needs to be talking about gasification, catalysis. If you regard yourselves as educated, and have a technological society – your way of living in the future is not only in manufacturing but also ideas – you need to be talking about this not that : low carbon gas fuels, not nuclear power. Ministers and senior civil servants probably suffer from poor briefing – or no briefing. They are relying on what is literally hearsay – informal discussions, or journalists effectively representing industrial interests. Newspapers are full of rubbish and it circulates, like gyres in the oceans. Just circulates around and around – full of rubbish.

I think part of the problem is that the politicians and chief civil servants and ministers are briefed by the “Old Guard” – very often the ex-nuclear power industry guard. They still believe in big construction projects, with long lead times and massive capital investment, whereas Renewable Electricity is racing ahead, piecemeal, and private investors are desperate to get their money into wind power and solar power because the returns are almost immediate and risk-free.

Together in Electric Dreams

Question : Why are the UK Government ploughing on with plans for so much nuclear power ?

1. They believe that a lot of transport and heat can be made to go electric.
2. They think they can use spent nuclear fuel in new reactors.
3. They think it will be cheaper than everything else.
4. They say it’s vital for UK Energy Security – for emissions reductions, for cost, and for baseload. The big three – always the stated aim of energy policy, and they think nuclear ticks all those three boxes. But it doesn’t.

What they’ll say is, yes, you have to import uranium, but you’ve got a 4 year stock. Any war you’re going to get yourselves involved in you can probably resolve in 4 days, or 4 weeks. If you go for a very high nuclear scenario, you would be taking quite a big share of the global resource of uranium. There’s 2,600 TWh of nuclear being produced globally. And global final energy demand is around 100,000 TWh – so nuclear power currently produces around 2.6% of global energy supply. At current rates of nuclear generation, according to the World Nuclear Association, you’ve got around 80 years of proven reserves and probably a bit more. Let’s say you double nuclear output by 2050 or 2040 – but in the same time you might just have enough uranium – and then find a bit more. But global energy demand rises significantly as well – so nuclear will still only provide around 3% of global energy demand. That’s not a climate solution – it’s just an energy distraction. All this guff about fusion. Well.

Cornering The Market In Undug Uranium

A 75 GW programme would produce at baseload 590 TWh a year – divide by 2,600 – is about 23% of proven global uranium reserves. You’re having to import, regardless of what other countries are doing, you’re trying to corner the market – roughly a quarter. Not even a quarter of the market – a quarter of all known reserves – it’s not all been produced yet. It’s still in the ground. So could you be sure that you could actually run these power stations if you build them ? Without global domination of the New British Empire […]. The security issues alone – defending coastal targets from a tweeb with a desire to blow them up. 50 years down the line they’re full of radioactive spent fuel that won’t have a repository to go to – we don’t want one here – and how much is it going to cost ?

My view is that offshore wind will be a major contributor in a high or 100% Renewable Electricity scenario by 2050 or 2060. Maybe 180 GW, that will also be around 600 TWh a year – comparable to that maximum nuclear programme. DECC’s final energy demand 2050 – several scenarios – final energy demand from 6 scenarios came out as between roughly 1,500 TWh a year and the maximum 2,500 TWh. Broadly speaking, if you’re trying to do that just with Renewable Electricity, you begin to struggle quite honestly, unless you’re doing over 600 TWh of offshore wind, and even then you need a fair amount of heat pump stuff which I’m not sure will come through. The good news is that solar might – because of the cost and technology breakthroughs. That brings with it a problem – because you’re delivering a lot of that energy in summer. The other point – David MacKay would say – in his book his estimate was 150 TWh from solar by 2050, on the grounds that that’s where you south-facing roofs are – you need to use higher efficiency triple junction cells with more than 40% efficiency and this would be too expensive for a rollout which would double or triple that 150 TWh – that would be too costly – because those cells are too costly. But with this new stuff, you might get that. Not only the cost goes down, but the coverage goes down. Not doing solar across swathes of countryside. There have always been two issues with solar power – cost and where it’s being deployed.

Uh-Oh, Summer Days. Uh-Oh, Summer Nights

With the solar-wind headline, summer days and summer nights are an issue.

With the nuclear headline, 2040 – they would have up to 50 GW, and that would need to run at somewhere between 75% and 95% capacity – to protect the investment and electric generation turbines.

It will be interesting to provide some figures – this is how much over-capacity you’re likely to get with this amount of offshore wind. But if you have this amount of nuclear power, you’ll get this amount […]

Energy demand is strongly variable with season. We have to consider not just power, but heat – you need to get that energy out in winter – up to 4 times as much during peak in winter evenings. How are you going to do that ? You need gas – or you need extensive Combined Heat and Power (CHP) (which needs gas). Or you need an unimaginable deployment of domestic heat pumps. Air source heat pumps won’t work at the time you need them most. Ground source heat pumps would require the digging up of Britain – and you can’t do that in most urban settings.

District Heat Fields

The other way to get heat out to everyone in a low carbon world – apart from low carbon gas – is having a field-based ground source heat pump scheme – just dig up a field next to a city – and just put in pipes and boreholes in a field. You’re not disturbing anybody. You could even grow crops on it next season. Low cost and large scale – but would need a District Heating (DH) network. There are one or two heat pump schemes around the world. Not sure if they are used for cooling in summer or heat extraction in the winter. The other thing is hot water underground. Put in an extra pipe in the normal channels to domestic dwellings. Any excess heat from power generation or electrolysis or whatever is put down this loop and heats the sub-ground. Because heat travels about 1 metre a month in soil, that heat should be retained for winter. A ground source heat sink. Geothermal energy could come through – they’re doing a scheme in Manchester. If there’s a nearby heat district network – it makes it easier. Just want to tee it into the nearest DH system. The urban heat demand is 150 TWh a year. You might be able to put DH out to suburban areas as well. There are 9 million gas-connected suburban homes – another about 150 TWh there as well – or a bit more maybe. Might get to dispose of 300 TWh in heat through DH. The Green Deal insulation gains might not be what is claimed – and condensing gas boiler efficiencies are not that great – which feeds into the argument that in terms of energy efficiency, you not only want to do insulation, but also DH – or low carbon gas. Which is the most cost-effective ? Could argue reasonable energy efficiency measures are cheapest – but DH might be a better bet. That involves a lot of digging.

Gas Is The Logical Answer

But everything’s already laid for gas. (…but from the greatest efficiency first perspective, if you’re not doing DH, you’re not using a lot of Renewable Heat you could otherwise use […] )

The best package would be the use of low carbon gases and sufficient DH to use Renewable Heat where it is available – such as desalination, electrolysis or other energy plant. It depends where the electrolysis is being done.

The Age of Your Carbon

It also depends on which carbon atoms you’re using. If you are recycling carbon from the combustion of fossil fuels into Renewable Gas, that’s OK. But you can’t easily recapture carbon emissions from the built environment (although you could effectively do that with heat storage). You can’t do carbon capture from transport either. So your low carbon gas has to come from biogenic molecules. Your Renewable Gas has to be synthesised using biogenic carbon molecules rather than fossil ones.

[…] I’m using the phrase “Young Carbon”. Young Carbon doesn’t have to be from plants – biological things that grow.

Well, there’s Direct Air Capture (DAC). It’s simple. David Sevier, London-based, is working on this. He’s using heat to capture carbon dioxide. You could do it from exhaust in a chimney or a gasification process – or force a load of air through a space. He would use heat and cooling to create an updraft. It would enable the “beyond capture” problem to be circumvented. Cost is non-competitive. Can be done technically. Using reject heat from power stations for the energy to do it. People don’t realise you can use a lot of heat to capture carbon, not electricity.

Young Carbon from Seawater

If you’re playing around with large amounts of seawater anyway – that is, for desalination for irrigation, why not also do Renewable Hydrogen, and pluck the Carbon Dioxide out of there too to react with the Renewable Hydrogen to make Renewable Methane ? I’m talking about very large amounts of seawater. Not “Seawater Greenhouses” – condensation designs mainly for growing exotic food. If you want large amounts of desalinated water – and you’re using Concentrated Solar Power – for irrigating deserts – you would want to grow things like cacti for biological carbon.

Say you had 40 GW of wind power on Dogger Bank, spinning at 40% load factor a year. You’ve also got electrolysers there. Any time you’re not powering the grid, you’re making gas – so capturing carbon dioxide from seawater, splitting water for hydrogen, making methane gas. Wouldn’t you want to use flash desalination first to get cleaner water for electrolysis ? Straight seawater electrolysis is also being done.

It depends on the relative quantities of gas concentrated in the seawater. If you’ve got oxygen, hydrogen and carbon dioxide, that would be nice. You might get loads of oxygen and hydrogen, and only poor quantities of carbon dioxide ?

But if you could get hydrogen production going from spare wind power. And even if you had to pipe the carbon dioxide from conventional thermal power plants, you’re starting to look at a sea-based solution for gas production. Using seawater, though, chlorine is the problem […]

Look at the relative density of molecules – that sort of calculation that will show if this is going to fly. Carbon dioxide is a very fixed, stable molecule – it’s at about the bottom of the energy potential well – you have to get that reaction energy from somewhere.

How Much Spare Power Will There Be ?

If you’ve got an offshore wind and solar system. At night, obviously, the solar’s not working (unless new cells are built that can run on infrared night-time Earthshine). But you could still have 100 GWh of wind power at night not used for the power grid. The anticipated new nuclear 40 GW nuclear by 2030 will produce about 140 GWh – this would just complicate problems – adding baseload nuclear to a renewables-inclusive scenario. 40 GW is arguably a reasonable deployment of wind power by 2030 – low if anything.

You get less wind in a nuclear-inclusive scenario, but the upshot is you’ve definitely got a lot of power to deal with on a summer night with nuclear power. You do have with Renewable Electricity as well, but it varies more. Whichever route we take we’re likely to end up with excess electricity generation on summer nights.

In a 70 GW wind power deployment (50 GW offshore, 20 GW onshore – 160 TWh a year), you might have something like 50 to 100 GWh per night of excess (might get up to 150 GWh to store on a windy night). But if you have a 16 GW nuclear deployment by 2030 (125 TWh a year), you are definitely going to have 140 GWh of excess per night (that’s 16 GW for 10 hours less a bit). Night time by the way is roughly between 9pm and 7am between peak demands.

We could be making a lot of Renewable Gas !

Can you build enough Renewable Gas or whatever to soak up this excess nuclear or wind power ?

The energy mix is likely to be in reality somewhere in between these two extremes of high nuclear or high wind.

But if you develop a lot of solar – so that it knocks out nuclear power – it will be the summer day excess that’s most significant. And that’s what Germany is experiencing now.

Choices, choices, choices

There is a big choice in fossil fuels which isn’t really talked about very often – whether the oil and gas industry should go for unconventional fossil fuels, or attempt to make use of the remaining conventional resources that have a lower quality. The unconventionals narrative – shale gas, coalbed methane, methane hydrates, deepwater gas, Arctic oil and gas, heavy oil, is running out of steam as it becomes clear that some of these choices are expensive, and environmentally damaging (besides their climate change impact). So the option will be making use of gas with high acid gas composition. And the technological solutions for this will be the same as needed to start major production of Renewable Gas.

Capacity Payments

But you still need to answer the balancing question. If you have a high nuclear power scenario, you need maybe 50 TWh a year of gas-fired power generation. If high Renewable Electricity, you will need something like 100 TWh of gas, so you need Carbon Capture and Storage – or low carbon gas.

Even then, the gas power plants could be running only 30% of the year, and so you will need capacity payments to make sure new flexible plants get built and stay available for use.

If you have a high nuclear scenario, coupled with gas, you can meet the carbon budget – but it will squeeze out Renewable Electricity. If high in renewables, you need Carbon Capture and Storage (CCS) or Carbon Capture and Recycling into Renewable Gas, but this would rule out nuclear power. It depends which sector joins up with which.

Carbon Capture, Carbon Budget

Can the Drax power plant – with maybe one pipeline 24 inches in diameter, carrying away 20 megatonnes of carbon dioxide per year – can it meet the UK’s Carbon Budget target ?

Gain in Transmission

It constantly amazes and intrigues me how human individuals operate in networks to formulate, clarify and standardise ideas, tools, machines, procedures and systems. Several decades ago, Renewable Electricity from sources such as wind power was considered idealistic vapourware, esoteric, unworkable and uncertain, and now it’s a mainstream generator of reliable electricity in the UK’s National Grid. Who would have thought that invisible, odourless, tasteless gas phase chemicals would heat our homes ? It’s now just so normal, it’s impossible to imagine that Natural Gas was once considered to be so insignificant that it was vented – not even flared – from oil wells.

Judging by the sheer number of people working on aspects of Renewable Gas, I expect this too to be mainstream in the energy sector within a decade. What do others think ? I have begun the process of asking, for example, see below.

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from: Jo Abbess
to: Richard A. Sears
date: Mon, May 2, 2011 at 11:59 PM
subject: Question from your TED talk

Dear [Professor] Sears,

I was intrigued by your TED talk that I recently viewed :-

http://www.ted.com/talks/richard_sears_planning_for_the_end_of_oil.html

Yes, I am interested in the idea of “printing” solar cells, which is what I think you might be alluding to with your reference to abalone shells.

But I am more interested in what you base your estimate of “Peak Gas” on. I recently did some very basic modelling of hydrocarbon resources and electricity, which look somewhat different from the IEA and EIA work and reports from BP and Royal Dutch Shell. My conclusion was that Peak Oil is roughly now, Peak Natural Gas will be around 2030, and Peak Electricity around 2060 :-

http://www.joabbess.com/2011/02/11/future-energy-tipping-points/

I am going to try to improve these charts before I submit my MSc Masters Thesis, so I am trying to find out what other people base their projections on. Could you help me by pointing me at the basis of your assessment of Peak Natural Gas ?

Thank you,

jo.

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from: Richard A. Sears
to: Jo Abbess
date: Thu, Oct 24, 2013 at 5:30 PM

Jo,

I am just now finding a number of old emails that got archived (and ignored) when I moved from MIT to Stanford a few years ago. A quick answer is that I did about what Hubbert did in 1956. No detailed statistical modeling, just look at the trends, think about what’s happening in the industry, and make what seem like reasonable statements about it.

A number of interesting things have happened just in the last two years since you wrote to me. Significantly, US oil production is on the rise. When you count all hydrocarbon liquids, the US is or will soon be, the world largest producer. This just goes to one of my points from TED. Don’t expect oil and gas to go away any time soon. There are plenty of molecules out there. I first said this internally at Shell in the mid 1980’s when I was Manager of Exploration Economics and since then I’ve felt that I got it about right.

I did just look at your website and would caution you about extrapolating very recent trends into the future. The rate of growth in shale gas production has slowed, but there’s an important economic factor driving that. Gas prices in the US are very low compared to oil. With the development of fraccing technology to enable oil and liquids production from shale formations, the industry has shifted their effort to the liquids-rich plays. A few statistics. Gas is currently around $3.50/mcf. On an energy equivalent basis, this equates to an oil price of about $20/barrel. Brent currently sells for $110/barrel and the light oils produced from the shale plays in the US are getting between $90 and $100/barrel, depending on where they can be delivered. As a consequence, in the 3rd quarter of 2013, compared to one year ago, oil well completions are up 18% while natural gas well completions declined 30%.

Yes, you are right. Printing solar cells is an example of what I was talking about with Abalone shells. Similarly, what if you had paint that as it dried would self assemble into linked solar cells and your entire house is now generating electricity. I was totally amazed at the number of people that didn’t actually think about what I was saying and called me an !d!*t for imagining that I was going to transform coal itself into some magical new molecule. […]

In any case, I think it’s good that you’re thinking about these problems, and importantly it appears from your website that you’re thinking about the system and its complexity.

Best regards,
Rich Sears

Richard A. Sears
Visiting Scientist
MIT Energy Initiative
Massachusetts Institute of Technology

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from: Jo Abbess
to: Richard A Sears
sent: Monday, May 02, 2011 3:59 PM

Dear [Professor] Sears,

Many thanks for your reply.

I had kinda given up of ever hearing back from you, so it’s lovely to
read your thoughts.

May I blog them ?

Regards,

jo.

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from: Richard A Sears
date: Fri, Oct 25, 2013 at 5:03 PM
to: Jo Abbess

Jo,

I have personally avoided blogging because I don’t want to put up with people writing mean comments about me. But the data is worth sharing. You should also know the sources of that data otherwise you open yourself to more criticism.

The data on production comes from the International Energy Agency and a research firm PIRA. All of it was in recent press releases. The Energy Information Administration makes similar projections about future production. The data on well completions was recently released by API.

No need to reference me. The data is out there for all to see. But if you do, fair warning. You will get stupid comments about how I used to be a VP at Shell so of course these are the things I’m going to say. […]

By the way, there’s something else that’s very interesting in the world of peak oil and various peaks. I have long believed, as hinted in my TED talk that the most important aspect of peak oil is the demand driven phenomena, not the supply side. It’s worth noting in this context that US oil consumption peaked in 2005 and has declined about 10% since then. This data can be found easily in the BP Statistical Report on World Energy. This is real and is a result of economic shifts, greater efficiency, and the penetration of renewables. Future energy projections (references above) show that this trend continues. A big component of US energy consumption is gasoline, and US gasoline consumption peaked in 2007. I think that data can be found at http://www.eia.gov, although I haven’t looked for it lately. It’s a little factoid that I think I remember.

Rich

Richard A. Sears
Consulting Professor
Department of Energy Resources Engineering
Stanford University

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from: Jo Abbess
to: Richard A Sears
date: Sun, Jan 12, 2014 at 11:47 AM

Dear Professor Sears,

HNY 2014 !

This year I am hoping to attempt the climb on my own personal K2 by writing an academic book on Renewable Gas – sustainable, low-to-zero carbon emissions gas phase fuels.

I am not a chemist, nor a chemical engineer, and so I would value any suggestions on who I should approach in the gas (and oil) industry to interview about projects that lean in this direction.

Examples would be :-

* Power-to-Gas : Using “spare” wind power to make Renewable Hydrogen – for example by electrolysis of water. Part of the German Power-to-Gas policy. Some hydrogen can be added to gas grids safely without changing regulations, pipework or end appliances.

* Methanation : Using Renewable Hydrogen and young or recycled carbon gas to make methane (using the energy from “spare” wind power, for example). Also part of the German Power-to-Gas policy.

NB “Young” carbon would be either carbon monoxide or carbon dioxide, and be sourced from biomass, Direct Air Capture, or from the ocean. “Old” carbon would come from the “deeper” geological carbon cycle, such as from fossil fuel, or industrial processes such as the manufacture of chemicals from minerals and/or rocks.

Precursors to Renewable Gas also interest me, as transitions are important – transitions from a totally fossil fuel-based gas system to a sustainable gas system. I have recently looked at some basic analysis on the chemistry of Natural Gas, and its refinery. It seems that methanation could be useful in making sour gas available as sweetened, as long as Renewable Hydrogen is developed for this purpose. It seems that there is a lot of sour gas in remaining reserves, and the kind of CCS (Carbon Capture and Storage) that would be required under emissions controls could make sour gas too expensive to use if it was just washed of acids.

I don’t think the future of energy will be completely electrified – it will take a very long time to roll out 100% Renewable Electricity and there will always be problems transitioning out of liquid fuels to electricity in vehicular transportation.

If you could suggest any names, organisations, university departments, companies, governance bodies that I should contact, or research papers that I should read, I would be highly grateful.

Many thanks,

jo.

Curmudgeons Happen

I was talking with people at my friend’s big birthday bash yesterday. I mentioned I’m writing about Renewable Gas, and this led to a variety of conversations. Here is a kind of summary of one of the threads, involving several people.

Why do people continue to insist that the wind turbine at Reading uses more energy than it generates ?

Would it still be there if it wasn’t producing power ? Does David Cameron still have a wind turbine on his roof ? No. It wasn’t working, so it was taken down. I would ask – what are their sources of information ? What newspapers and websites do they read ?

They say that the wind turbine at Reading is just there for show.

Ah. The “Potemkin Village” meme – an idyllic-looking setting, but everything’s faked. The Chinese painting the desert green, etc.

And then there are people that say that the only reason wind farms continue to make money is because they run the turbines inefficiently to get the subsidies.

Ah. The “De-rating Machine” meme. You want to compare and contrast. Look at the amount of money, resources, time and tax breaks being poured into the UK Continental Shelf, and Shale Gas, by the current Government.

Every new technology needs a kick start, a leg up. You need to read some of the reports on wind power as an asset – for example, the Offshore Valuation – showing a Net Present Value. After it’s all deployed, even with the costs of re-powering at the end of turbine life, offshore North Sea wind power will be a genuine asset.

What I don’t understand is, why do people continue to complain that wind turbines spoil the view ? Look at the arguments about the Jurassic Coast in Dorset.

I have contacts there who forward me emails about the disputes. The yachtsmen of Poole are in open rebellion because the wind turbines will be set in in their channels ! The tourists will still come though, and that’s what really counts. People in Dorset just appear to love arguing, and you’ve got some people doing good impressions of curmudgeons at the head of the branches of the Campaign for the Protection of Rural England (CPRE) and English Heritage.

There are so many people who resist renewable energy, and refuse to accept we need to act on climate change. Why do they need to be so contrarian ? I meet them all the time.

People don’t like change, but change happens. The majority of people accept that climate change is significant enough to act on, and the majority of people want renewable energy. It may not seem like that though. It depends on who you talk with. There’s a small number of people who vocalise scepticism and who have a disproportionate effect. I expect you are talking about people who are aged 55 and above ?

Example : “Climate Change ? Haw haw haw !” and “Wind turbines ? They don’t work !” This is a cohort problem. All the nasty white racists are dying and being buried with respect by black undertakers. All the rabid xenophobes are in nursing homes being cared for in dignity by “foreigners”. Pretty soon Nigel Lawson could suffer from vascular dementia and be unable to appear on television.

The media have been insisting that they need a balance of views, but ignoring the fact that the climate change “sceptics” are very small in number and not backed up by the science.

Why does Nigel Lawson, with all his access and privilege, continue to insist that global warming is not a problem ?

Fortunately, even though he’s “establishment” and has more influence than he really should have, the people that are really in charge know better. He should talk to the climate change scientists – the Met Office continue to invite sceptics to come and talk with them. He should talk to people in the energy sector – engineers and project managers. He should talk to people in the cross-party Parliamentary groups who have access to the information from the expert Select Committees.

And what about Owen Paterson ? I cannot understand why they put a climate change sceptic in charge of the Department of the Environment.

Well, we’ve always done that, haven’t we ? Put Ministers in Departments they know nothing about, so that they can learn their briefs. We keep putting smokers in charge of health policy. Why do you think he was put in there ?

To pacify the Conservative Party.

But I know Conservative Party activists who are very much in favour of renewable energy and understand the problems of climate change. It’s not the whole Party.

We need to convince so many people.

We only need to convince the people who matter. And anyway, we don’t need to do any convincing. Leaders in the energy industry, in engineering, in science, in Government (the real government is the Civil Service), the Parliament, they already understand the risks of climate change and the need for a major energy transition.

People should continue to express their views, but people only vote on economic values. That’s why Ed Miliband has pushed the issue of the cost of energy – to try to bring energy to the forefront of political debate.

What about nuclear fusion ?

Nuclear fusion has been 35 years away for the last 35 years. It would be nice to have, because it could really solve the problem. Plus, it keeps smart people busy.

What about conventional nuclear fission power ?

I say, “Let them try !” The Hinkley Point C deal has so many holes in it, it’s nearly collapsed several times. I’m sure they will continue to try to build it, but I’m not confident they will finish it. Nuclear power as an industry is basically washed up in my view, despite the lengths that it goes to to influence society and lobby the Government.

It’s going to be too late to answer serious and urgent problems – there is an energy crunch approaching fast, and the only things that can answer it are quick-to-build options such as new gas-fired power plants, wind farms, solar farms, demand reduction systems such as shutting down industry and smart fridges.

How can the energy companies turn your fridge off ?

If the appliances have the right software, simple frequency modulation of the power supply should be sufficient to trip fridges and freezers off. Or you could connect them to the Internet via a gateway. The problem is peak power demand periods, twice a day, the evening peak worse than the morning. There has been some progress in managing this due to switching light bulbs and efficient appliances, but it’s still critical. Alistair Buchanan, ex of Ofgem, went out on a limb to say that we could lose all our power production margins within a couple of years, in winter.

But the refrigerators are being opened and closed in the early evening, so it would be the wrong time of day to switch them off. And anyway, don’t the fridges stop using power when they’re down to temperature ?

Some of these things will need to be imposed regardless of concerns, because control of peak power demand is critical. Smart fridges may be some years away, but the National Grid already have contracts with major energy users to shed their load under certain circumstances. Certain key elements of the energy infrastructure will be pushed through. They will need to be pushed through, because the energy crunch is imminent.

The time for democracy was ten years ago. To get better democracy you need much more education. Fortunately, young people (which includes young journalists) are getting that education. If you don’t want to be irritated by the views of climate change and energy sceptics, don’t bother to read the Daily Telegraph, the Daily Express, the Daily Mail, the online Register or the Spectator. The old school journalists love to keep scandal alive, even though any reason to doubt climate change science and renewable energy died in the 1980s.

Although I’ve long since stopped trusting what a journalist writes, I’m one of those people who think that you should read those sources.

I must admit I do myself from time to time, but just for entertainment.

Making The Sour Sweet

In the long view, some things are inevitable, and I don’t just mean death and taxes. Within the lifetime of children born today, there must be a complete transformation in energy. The future is renewable, and carefully deployed renewable energy systems can be reliable, sustainable and low cost, besides being low in carbon dioxide emissions to air. This climate safety response is also the answer to a degradation and decline in high quality mineral hydrocarbons – the so-called “fossil” fuels. Over the course of 2014 I shall be writing about Renewable Gas – sustainable, low emissions gas fuels made on the surface of the earth without recourse to mining for energy. Renewable Gas can store the energy from currently underused Renewable Electricity from major producers such as wind and solar farms, and help to balance out power we capture from the variable wind and sun. Key chemical players in these fuels : hydrogen, methane, carbon monoxide and carbon dioxide. Key chemistry : how to use hydrogen to recycle the carbon oxides to methane. How we get from here to there is incredibly important, and interestingly, methods and techniques for increasing the production volumes of Renewable Gas will be useful for the gradually fading fossil fuel industry. Much of the world’s remaining easily accessible Natural Gas is “sour” – laced with high concentrations of hydrogen sulfide and carbon dioxide. Hydrogen sulfide needs to be removed from the gas, but carbon dioxide can be recycled into methane, raising the quality of the gas. We can preserve the Arctic from fossil gas exploitation, and save ourselves from this economic burden and ecological risk, by employing relatively cheap ways to upgrade sour Natural Gas, from Iran, for example, while we are on the decades-long road of transitioning to Renewable Gas. The new burn is coming.

Champagne with Michael Caine

It was like a very bad sitcom from 1983 at the House of Commons this afternoon. “You saw Ed Balls running around in full Santa outfit ?” “Yeah ! The proper job.” “You know what we should do ? Put a piece of misteltoe above that door that everyone has to go through.” “You do it. I’ve heard you’re very good with sticky-backed plastic…”

Once again Alan Whitehead MP has put on a marvellous Christmas reception of the All Party Parliamentary Renewable And Sustainable Energy Group, or PRASEG. The one flute of champagne in the desert-like heat of the Terrace Pavilion at the Houses of Parliament was enough to turn me the colour of beetroot and tomato soup, so when Alan despaired of getting anything altered, I took on the role of asking the lovely Pavilion staff to turn the heating down, what with Climate Change and everything, which they nobly obliged to do.

In the meantime, I was invited onto the terrace overlooking the Thames by Christopher Maltin of Organic Power, to refresh myself. The winter night had fallen like a grey duvet, and what with the lingering fog and the lighting schemes for famous buildings, and the purple-blue sky behind it all, it was quite romantic out there. But very, very cold, so we didn’t discuss biogas and biosyngas for long.

Back in the Pavilion, we were addressed by the fabulously debonair Lord Deben, John Gummer, sporting a cheery red pocket kerchief in his dark suit. During his talk, announcing the Committee on Climate Change confirmation of the Fourth Carbon Budget, and urging us to be “missionary” in influencing others over Climate Change mitigation, across the room I espied a younger gentleman who had, shall I say, a rather keen appearance. Was he a journalist, I asked myself, paying so much attention ? In fact, wasn’t he Leo Hickman, formerly of The Guardian ? No, he was not, but it was a bit shadowed at that end of the room, so I can’t blame myself for this mistake.

When he had finally worked the room and ended up talking with me, he turned out to be Jack Tinley, Relationship Manager for Utilities at Lloyds Bank, in other words, in Big Finance, and currently seconded to the UK Government Department of Energy and Climate Change (DECC), so that was what explained his preppiness. I explained my continuing research into Renewable Gas, and he recommended Climate Change Capital for all questions of financing renewable energy, should I encounter any project that needed investment. Very helpful. Although he didn’t know who Leo Hickman is. Talking with him, and the guy from TEQs (Tradable Energy Quotas) was so interesting, I absentmindedly ate some…no… loads of party snacks. I need to make a strong mental note not to eat too many party snacks in future.

After the illuminating and encouraging speeches from Lord Deben and Alan Whitehead MP, we were delightfully surprised by the attendance of, and an address by, Greg Barker MP, a “drive by speech” according to Alan. I was struck, that with his new specs, “Curly” Greg looks astonishingly like a young Michael Caine. During his speech he said that we ought to put the damaging controversy about energy behind us and move on into a year of great opportunity, now that the House of Lords had approved the Energy Bill. And then he pushed his glasses back up his nose in a way that was so Michael Caine, I nearly laughed out loud. Greg expressed the wish that the energy industry would become a “sexy sector”, at which point I corpsed and had to turn away silently laughing with a hand clamped over my mouth.

Afterwards, I shook Greg by the hand, and asked if he would please unblock me on Twitter. He asked if I had been posting streams and streams of Tweets, and I said I don’t do that these days. When I suggested that he reminded me of Michael Caine, he was rather amused, but he did check I meant the Michael Caine of the 1960s, not the actor of today.

Other people I spent time talking to at the PRASEG reception were Professor Dave Elliott of the Open University, and author on renewable energy; Steven English who installs ground source heat pumps; and Steve Browning, formerly of the National Grid; all in the Claverton Energy Research Group forum.

I explained the foundations of my research into Renewable Gas to a number of people, and used the rhetorical question, “Germany’s doing it, so why can’t we ?” several times. I bet the Chinese are doing it too. I mean they’re doing everything else in renewable energy. In copious quantities, now they’ve seen the light about air pollution.

I ended the event by having a serious chat with a guy from AMEC, the international engineering firm. He commented that the “Big Six” energy production and supply companies are being joined by smaller companies with new sources of investment capital in delivering new energy infrastructure.

I said it was clear that “the flight of international capital” had become so bad, it had gone into geostationary orbit, not coming down to land very often, and that funding real projects could be hard.

I suggested to him that the “Big Six” might need to be broken up, in the light of their edge-of-break-even, being locked into the use of fossil fuels, and the emergence of some of these smaller, more liquid players, such as Infinis.

I also suggested that large companies such as AMEC should really concentrate on investing in new energy infrastructure projects, as some things, like the wind power development of the North Sea are creating genuine energy assets, easily shown if you consider the price of Natural Gas, which the UK is having to increasingly import.

Mind the Gap : BBC Costing the Earth

I listened to an interesting mix of myth, mystery and magic on BBC Radio 4.

Myths included the notion that long-term, nuclear power would be cheap; that “alternative” energy technologies are expensive (well, nuclear power is, but true renewables are most certainly not); and the idea that burning biomass to create heat to create steam to turn turbines to generate electricity is an acceptably efficient use of biomass (it is not).

Biofuelwatch are hosting a public meeting on this very subject :-
http://www.biofuelwatch.org.uk/2013/burning_issue_public_event/
“A Burning Issue – biomass and its impacts on forests and communities”
Tuesday, 29th October 2013, 7-9pm
Lumen Centre, London (close to St Pancras train station)
http://www.lumenurc.org.uk/lumencontact.htm
Lumen Centre, 88 Tavistock Place, London WC1H 9RS

Interesting hints in the interviews I thought pointed to the idea that maybe, just maybe, some electricity generation capacity should be wholly owned by the Government – since the country is paying for it one way or another. A socialist model for gas-fired generation capacity that’s used as backup to wind and solar power ? Now there’s an interesting idea…




http://www.bbc.co.uk/programmes/b03cn0rb

“Mind the Gap”
Channel: BBC Radio 4
Series: Costing the Earth
Presenter: Tom Heap
First broadcast: Tuesday 15th October 2013

Programme Notes :

“Our energy needs are growing as our energy supply dwindles.
Renewables have not come online quickly enough and we are increasingly
reliant on expensive imported gas or cheap but dirty coal. Last year
the UK burnt 50% more coal than in previous years but this helped
reverse years of steadily declining carbon dioxide emissions. By 2015
6 coal fired power stations will close and the cost of burning coal
will increase hugely due to the introduction of the carbon price
floor. Shale gas and biomass have been suggested as quick and easy
solutions but are they really sustainable, or cheap?”

“Carbon Capture and Storage could make coal or gas cleaner and a new
study suggests that with CCS bio energy could even decrease global
warming. Yet CCS has stalled in the UK and the rest of Europe and the
debate about the green credentials of biomass is intensifying. So what
is really the best answer to Britain’s energy needs? Tom Heap
investigates.”

00:44 – 00:48
[ Channel anchor ]
Britain’s energy needs are top of the agenda in “Costing the Earth”…

01:17
[ Channel anchor ]
…this week on “Costing the Earth”, Tom Heap is asking if our
ambitions to go green are being lost to the more immediate fear of
blackouts and brownouts.

01:27
[ Music : Arcade Fire – “Neighbourhood 3 (Power Out)” ]

[ Tom Heap ]

Energy is suddenly big news – central to politics and the economy. The
countdown has started towards the imminent shutdown of many coal-fired
power stations, but the timetable to build their replacements has
barely begun.

It’ll cost a lot, we’ll have to pay, and the politicians are reluctant
to lay out the bill. But both the official regulator and industry are
warning that a crunch is coming.

So in this week’s “Costing the Earth”, we ask if the goal of clean,
green and affordable energy is being lost to a much darker reality.

02:14
[ Historical recordings ]

“The lights have started going out in the West Country : Bristol,
Exeter and Plymouth have all had their first power cuts this
afternoon.”

“One of the biggest effects of the cuts was on traffic, because with
the traffic lights out of commission, major jams have built up,
particularly in the town centres. One of the oddest sights I saw is a
couple of ladies coming out of a hairdressers with towels around their
heads because the dryers weren’t working.”

“Television closes down at 10.30 [ pm ], and although the cinemas are
carrying on more or less normally, some London theatres have had to
close.”

“The various [ gas ] boards on both sides of the Pennines admit to
being taken by surprise with today’s cold spell which brought about
the cuts.”

“And now the major scandal sweeping the front pages of the papers this
morning, the advertisement by the South Eastern Gas Board recommending
that to save fuel, couples should share their bath.”

[ Caller ]
“I shall write to my local gas board and say don’t do it in
Birmingham. It might be alright for the trendy South, but we don’t
want it in Birmingham.”

03:13
[ Tom Heap ]

That was 1974.

Some things have changed today – maybe a more liberal attitude to
sharing the tub. But some things remain the same – an absence of
coal-fired electricity – threatening a blackout.

Back then it was strikes by miners. Now it’s old age of the power
plants, combined with an EU Directive obliging them to cut their
sulphur dioxide and nitrous oxide emissions by 2016, or close.

Some coal burners are avoiding the switch off by substituting wood;
and mothballed gas stations are also on standby.

But Dieter Helm, Professor of Energy Policy at the University of
Oxford, now believes power cuts are likely.

03:57
[ Dieter Helm ]

Well, if we take the numbers produced by the key responsible bodies,
they predict that there’s a chance that by the winter of 2-15 [sic,
meaning 2015] 2-16 [sic, meaning 2016], the gap between the demand for
electricity and the supply could be as low as 2%.

And it turns out that those forecasts are based on extremely
optimistic assumptions about how far demand will fall in that period
(that the “Green Deal” will work, and so on) and that we won’t have
much economic growth.

So basically we are on course for a very serious energy crunch by the
winter of 2-15 [sic, meaning 2015] 2-16 [sic, meaning 2016], almost
regardless of what happens now, because nobody can build any power
stations between now and then.

It’s sort of one of those slow motion car crashes – you see the whole
symptoms of it, and people have been messing around reforming markets
and so on, without addressing what’s immediately in front of them.

[ Tom Heap ]

And that’s where you think we are now ?

[ Dieter Helm ]

I think there’s every risk of doing so.

Fortunately, the [ General ] Election is a year and a half away, and
there’s many opportunities for all the political parties to get real
about two things : get real about the energy crunch in 2-15 [sic,
meaning 2015] 2-16 [sic, meaning 2016] and how they’re going to handle
it; and get real about creating the incentives to decarbonise our
electricity system, and deal with the serious environmental and
security and competitive issues which our electricity system faces.

And this is a massive investment requirement [ in ] electricity : all
those old stations retiring [ originally built ] back from the 1970s –
they’re all going to be gone.

Most of the nuclear power stations are coming to the end of their lives.

We need a really big investment programme. And if you really want an
investment programme, you have to sit down and work out how you’re
going to incentivise people to do that building.

[ Tom Heap ]

If we want a new energy infrastructure based on renewables and
carbon-free alternatives, then now is the time to put those incentives
on the table.

The problem is that no-one seems to want to make the necessary
investment, least of all the “Big Six” energy companies, who are
already under pressure about high bills.

[ “Big Six” are : British Gas / Centrica, EdF Energy (Electricite
de France), E.On UK, RWE npower, Scottish Power and SSE ]

Sam Peacock of the energy company SSE [ Scottish and Southern Energy ]
gives the commercial proof of Dieter’s prediction.

If energy generators can’t make money out of generating energy,
they’ll be reluctant to do it.

[ Sam Peacock ]

Ofgem, the energy regulator, has looked at this in a lot of detail,
and said that around 2015, 2016, things start to get tighter. The
reason for this is European Directives, [ is [ a ] ] closing down some
of the old coal plants. And also the current poor economics around [
or surround [ -ing ] ] both existing plant and potential new plant.

So, at the moment it’s very, very difficult to make money out of a gas
plant, or invest in a new one. So this leads to there being, you know,
something of a crunch point around 2015, 2016, and Ofgem’s analysis
looks pretty sensible to us.

[ Tom Heap ]

And Sam Peacock lays the blame for this crisis firmly at the Government’s door.

[ Sam Peacock ]

The trilemma, as they call it – of decarbonisation, security of supply
and affordability – is being stretched, because the Government’s
moving us more towards cleaner technologies, which…which are more
expensive.

However, if you were to take the costs of, you know, the extra costs
of developing these technologies off government [ sic, meaning
customer ] bills and into general taxation, you could knock about over
£100 off customer bills today, it’ll be bigger in the future, and you
can still get that much-needed investment going.

So, we think you can square the circle, but it’s going to take a
little bit of policy movement [ and ] it’s going to take shifting some
of those costs off customers and actually back where the policymakers
should be controlling them.

[ KLAXON ! Does he mean controlled energy prices ? That sounds a bit
centrally managed economy to me… ]

[ Tom Heap ]

No surprise that a power company would want to shift the pain of
rising energy costs from their bills to the tax bill.

But neither the Government nor the Opposition are actually proposing this.

Who pays the premium for expensve new energy sources is becoming like
a game of pass the toxic parcel.

[ Reference : http://en.wikipedia.org/wiki/Hot_potato_%28game%29 ]

I asked the [ UK Government Department of ] Energy and Climate Change
Secretary, Ed Davey, how much new money is required between now and
2020.

08:06

[ Ed Davey ]

About £110 billion – er, that’s critical to replace a lot of the coal
power stations that are closing, the nuclear power stations that are [
at the ] end of their lives, and replace a lot of the network which
has come to the end of its life, too.

So it’s a huge, massive investment task.

[ Tom Heap ]

So in the end we’re going to have to foot the bill for the £110 billion ?

[ Ed Davey ]

Yeah. Of course. That’s what happens now. People, in their bills that
they pay now, are paying for the network costs of investments made
several years, even several decades ago.

[ Yes – we’re still paying through our national nose to dispose of
radioactive waste and decommission old nuclear reactors. The liability
of it all weighs heavily on the country’s neck… ]

And there’s no escaping that – we’ve got to keep the lights on – we’ve
got to keep the country powered.

You have to look at both sides of the equation. If we’re helping
people make their homes more inefficient [ sic, meaning energy
efficient ], their product appliances more efficient, we’re doing
everything we possibly can to try to help the bills be kept down,

while we’re having to make these big investments to keep the lights
on, and to make sure that we don’t cook the planet, as you say.

[ Tom Heap ]

You mention the lights going out. There are predictions that we’re
headed towards just 2% of spare capacity in the system in a few years’
time.

Are you worried about the dangers of, I don’t know, maybe not lights
going out for some people, but perhaps big energy users being told
when and when [ sic, meaning where ] they can’t use power in the
winter ?

[ Ed Davey ]

Well, there’s no doubt that as the coal power stations come offline,
and the nuclear power plants, er, close, we’re going to have make sure
that new power plants are coming on to replace them.

And if we don’t, there will be a problem with energy security.

Now we’ve been working very hard over a long time now to make sure we
attract that investment. We’ve been working with Ofgem, the regulator;
with National Grid, and we’re…

[ Tom Heap ]

…Being [ or it’s being ] tough. I don’t see companies racing to come
and fill in the gap here and those coal power plants are going off
soon.

[ Ed Davey ]

…we’re actually having record levels of energy investment in the country.

The problem was for 13 years under the last Government
[ same old, same old Coalition argument ] we saw low levels of investment
in energy, and we’re having to race to catch up, but fortunately we’re
winning that race. And we’re seeing, you know, billions of pounds
invested but we’ve still got to do more. We’re not there. I’m not
pretending we’re there yet. [ Are we there, yet ? ] But we do have the
policies in place.

So, Ofgem is currently consulting on a set of proposals which will
enable it to have reserve power to switch on at the peak if it’s
needed.

We’re, we’ve, bringing forward proposals in the Energy Bill for what’s
called a Capacity Market, so we can auction to get that extra capacity
we need.

So we’ve got the policies in place.

[ Tom Heap ]

Some of Ed Davey’s policies, not least the LibDem [ Liberal Democrat
Party ] U-turn on nuclear, have been guided by DECC [ Department of
Energy and Climate Change ] Chief Scientist David MacKay, author of
the influential book “Renewable Energy without the Hot Air” [ sic,
actually “Sustainable Energy without the Hot Air” ].

Does he think the lights will dim in the second half of this decade ?

[ David MacKay ]

I don’t think there’s going to be any problem maintaining the capacity
that we need. We just need to make clear where Electricity Market
Reform [ EMR, part of the Energy Bill ] is going, and the way in which
we will be maintaining capacity.

[ Tom Heap ]

But I don’t quite understand that, because it seems to me, you know,
some of those big coal-fired power stations are going to be going off.
What’s going to be coming in their place ?

[ David MacKay ]

Well, the biggest number of power stations that’s been built in the
last few years are gas power stations, and we just need a few more gas
power stations like that, to replace the coal
, and hopefully some
nuclear power stations will be coming on the bars, as well as the wind
farms that are being built at the moment.

[ Tom Heap ]

And you’re happy with that increase in gas-fired power stations, are
you ? I mean, you do care deeply, personally, about reducing our
greenhouse gases, and yet you’re saying we’re going to have to build
more gas-fired power stations.

[ David MacKay ]

I do. Even in many of the pathways that reach the 2050 target, there’s
still a role for gas in the long-term, because some power sources like
wind and solar power are intermittent, so if you want to be keeping
the lights on in 2050 when there’s no wind and there’s no sun, you’re
going to need some gas power stations there
. Maybe not operating so
much of the time as they do today, but there’ll still be a role in
keeping the lights on.

[ KLAXON ! If gas plants are used only for peak periods or for backup to
renewables, then the carbon emissions will be much less than if they are
running all the time. ]

[ Tom Heap ]

Many energy experts though doubt that enough new wind power or nuclear
capacity could be built fast enough to affect the sums in a big way by
2020.

But that isn’t the only critical date looming over our energy system.
Even more challenging, though more distant, is the legally binding
objective of cutting greenhouse gas emissions in 2050.

David MacKay wants that certainty to provide the foundation for energy
decisions, and he showed me the effect of different choices with the
“Ultimate Future Energy App”. I was in his office, but anyone can try it online.

[ David MacKay ]

It’s a 2050 calculator. It computes energy demand and supply in
response to your choices, and it computes multiple consequences of
your choices. It computes carbon consequences. It also computes for
you estimates of air quality, consequences of different choices;
security of supply, consequences; and the costs of your choices.

So with this 2050 calculator, it’s an open source tool, and anyone can
go on the web and use the levers to imagine different futures in 2050
of how much action we’ve taken in different demand sectors and in
different supply sectors.

The calculator has many visualisations of the pathway that you’re choosing
and helps people understand all the trade-offs… There’s no silver
bullet for any of this. If I dial up a pathway someone made earlier,
we can visualise the implications in terms of the area occupied for
the onshore wind farms, and the area in the sea for the offshore wind
farms, and the length of the wave farms that you’ve built, and the
land area required for energy crops.

And many organisations have used this tool and some of them have given
us their preferred pathway. So you can see here the Friends of the
Earth have got their chosen pathway, the Campaign to Protect Rural
England, and various engineers like National Grid and Atkins have got
their pathways.

So you can see alternative ways of achieving our targets, of keeping
the lights on and taking climate change action. All of those pathways
all meet the 2050 target, but they do so with different mixes.

[ Tom Heap ]

And your view of this is you sort of can’t escape from the scientific
logic and rigour of it. You might wish things were different or you
could do it differently, but you’re sort of saying “Look, it’s either
one thing or the other”. That’s the point of this.

[ David MacKay ]

That’s true. You can’t be anti-everything. You can’t be anti-wind and
anti-nuclear and anti-home insulation. You won’t end up with a plan
that adds up.

[ KLAXON ! But you can be rationally against one or two things, like
expensive new nuclear power, and carbon and particulate emissions-heavy
biomass for the generation of electricity. ]

[ Tom Heap ]

But isn’t that exactly kind of the problem that we’ve had, without
pointing political fingers, that people rather have been
anti-everything, and that’s why we’re sort of not producing enough new
energy sources ?

[ David MacKay ]

Yeah. The majority of the British public I think are in favour of many
of these sources, but there are strong minorities who are vocally
opposed to every one of the major levers in this calculator. So one
aspiration I have for this tool is it may help those people come to a
position where they have a view that’s actually consistent with the
goal of keeping the lights on.

[ Tom Heap ]

Professor MacKay’s calculator also computes pounds and pence,
suggesting that both high and low carbon electricity work out pricey
in the end.

[ David MacKay ]

The total costs of all the pathways are pretty much the same.
“Business as Usual” is cheaper in the early years, and then pays more,
because on the “Business as Usual”, you carry on using fossil fuels,
and the prices of those fossil fuels are probably going to go up.

All of the pathways that take climate change action have a similar
total cost, but they pay more in the early years, ’cause you have to
pay for things like building insulation and power stations, like
nuclear power stations, or wind power, which cost up-front, but then
they’re very cheap to run in the future.

[ KLAXON ! Will the cost of decommissioning nuclear reactors and the
costs of the waste disposal be cheap ? I think not… ]

So the totals over the 40 or 50 year period here, are much the same for these.

[ Tom Heap ]

The cheapest immediate option of all is to keep shovelling the coal.
And last year coal overtook gas to be our biggest electricity
generation source, pushing up overall carbon emissions along the way
by 4.5%

[ KLAXON ! This is not very good for energy security – look where the
coal comes from… ]

As we heard earlier, most coal-fired power stations are scheduled for
termination, but some have won a reprieve, and trees are their
unlikely saviour.

Burning plenty of wood chip [ actually, Tom, it’s not wood “chip”, it’s
wood “pellets” – which often have other things mixed in with the wood,
like coal… ] allows coal furnaces to cut the sulphur dioxide and nitrous
oxide belching from their chimneys to below the level that requires their
closure under European law.

But some enthusiasts see wood being good for even more.

16:19

[ Outside ]

It’s one of those Autumn days that promises to be warm, but currently
is rather moist. I’m in a field surrounded by those dew-laden cobwebs
you get at this time of year.

But in the middle of this field is a plantation of willow. And I’m at
Rothamsted Research with Angela Karp who’s one of the directors here.

Angela, tell me about this willow I’m standing in front of here. I
mean, it’s about ten foot high or so, but what are you seeing ?

[ Angela Karp ]

Well, I’m seeing one of our better varieties that’s on display here.
We have a demonstration trial of about ten different varieties. This
is a good one, because it produces a lot of biomass, quite easily,
without a lot of additional fertilisers or anything. And as you can
see it’s got lovely straight stems. It’s got many stems, and at the
end of three years, we would harvest all those stems to get the
biomass from it. It’s nice and straight – it’s a lovely-looking, it’s
got no disease, no insects on it, very nice, clean willow.

[ Tom Heap ]

So, what you’ve been working on here as I understand it is trying to
create is the perfect willow – the most fuel for the least input – and
the easiest to harvest.

[ Angela Karp ]

That’s absolutely correct, because the whole reason for growing these
crops is to get the carbon from the atmosphere into the wood, and to
use that wood as a replacement for fossil fuels. Without putting a lot
of inputs in, because as soon as you add fertilisers you’re using
energy and carbon to make them, and that kind of defeats the whole
purpose of doing this.

[ KLAXON ! You don’t need to use fossil fuel energy or petrochemicals or
anything with carbon emissions to make fertiliser ! … Hang on, these
are GM trees, right ? So they will need inputs… ]

[ Tom Heap ]

And how much better do you think your new super-variety is, than say,
what was around, you know, 10 or 15 years ago. ‘Cause willow as an
idea for burning has been around for a bit. How much of an improvement
is this one here ?

[ Angela Karp ]

Quite a bit. So, these are actually are some of the, if you like,
middle-term varieties. So we started off yielding about 8 oven-dry
tonnes per hectare, and now we’ve almost doubled that.

[ Tom Heap ]

How big a place do you think biomass can have in the UK’s energy
picture in the future ?

[ Angela Karp ]

I think that it could contribute between 10% and 15% of our energy. If
we were to cultivate willows on 1 million hectares, we would probably
provide about 3% to 4% of energy in terms of electricity, and I think
that’s kind of a baseline figure. We could cultivate them on up to 3
million hectares, so you can multiply things up, and we could use them
in a much more energy-efficient way.

[ KLAXON ! Is that 4% of total energy or 4% of total electricity ?
Confused. ]

[ Tom Heap ]

Do we really have 3 million hectares going a-begging for planting willow in ?

[ Angela Karp ]

Actually, surprisingly we do. So, people have this kind of myth
there’s not enough land, but just look around you and you will find
there’s lots of land that’s not used for cultivating food crops.

We don’t see them taking over the whole country. We see them being
grown synergistically with food crops.

[ KLAXON ! This is a bit different than the statement made in 2009. ]

[ Tom Heap ]

But I’d just like to dig down a little bit more into the carbon cycle
of the combustion of these things, because that’s been the recent
criticism of burning a lot of biomass, is that you put an early spike
in the amount of carbon in the atmosphere, if you start burning a lot
of biomass, because this [ sounds of rustling ], this plant is going
to be turned into, well, partly, CO2 in the atmosphere.

[ Angela Karp ]

Yes, I think that’s probably a simple and not totally correct way of
looking at it. ‘Cause a lot depends on the actual conversion process
you are using.

So some conversion processes are much more efficient at taking
everything and converting it into what you want.

Heat for example is in excess of 80%, 90% conversion efficiency.

Electricity is a little bit more of the problem. And there, what
they’re looking at is capturing some of the carbon that you lose, and
converting that back in, in carbon storage processes, and that’s why
there’s a lot of talk now about carbon storage from these power
stations.

That I think is the future. It’s a question of connecting up all parts
of the process, and making sure that’s nothing wasted.

20:02

[ Tom Heap ]

So, is wood a desirable greener fuel ?

Not according to Almuth Ernsting of Biofuelwatch, who objects to the
current plans for large-scale wood burning, its use to prop up coal,
and even its low carbon claims.

[ Almuth Ernsting ]

The currently-announced industry plans, and by that I mean existing
power stations, but far more so, power stations which are in the
planning process [ and ] many of which have already been consented –
those [ biomass ] power stations, would, if they all go ahead,
require to burn around 82 million tonnes of biomass, primarily wood,
every year. Now by comparison, the UK in total only produces around
10 million tonnes, so one eighth of that amount, in wood, for all
industries and purposes, every year.

We are looking on the one hand at a significant number of proposed,
and in some cases, under-construction or operating new-build biomass
power stations, but the largest single investment so far going into
the conversion of coal power station units to biomass, the largest and
most advanced one of which at the moment is Drax, who are, have
started to move towards converting half their capacity to burning wood
pellets.

[ Tom Heap ]

Drax is that huge former, or still currently, coal-fired power station
in Yorkshire, isn’t it ?

[ Almuth Ernsting ]

Right, and they still want to keep burning coal as well. I mean, their
long-term vision, as they’ve announced, would be for 50:50 coal and
biomass.

[ Tom Heap ]

What do you think about that potential growth ?

[ Almuth Ernsting ]

Well, we’re seriously concerned. We believe it’s seriously bad news
for climate change, it’s seriously bad news for forests, and it’s
really bad news for communities, especially in the Global South, who
are at risk of losing their land for further expansion of monoculture
tree plantations, to in future supply new power stations in the UK.

A really large amount, increasingly so, of the wood being burned,
comes from slow-growing, whole trees that are cut down for that
purpose, especially at the moment in temperate forests in North
America. Now those trees will take many, many decades to grow back
and potentially re-absorb that carbon dioxide, that’s if they’re
allowed and able to ever grow back.

[ Tom Heap ]

There’s another technology desperate for investment, which is critical
to avoiding power failure, whilst still hitting our mid-century carbon
reduction goals – CCS – Carbon Capture and Storage, the ability to
take the greenhouse gases from the chimney and bury them underground.

It’s especially useful for biomass and coal, with their relatively
high carbon emissions, but would also help gas be greener.

The Chancellor has approved 30 new gas-fired power stations, so long
as they are CCS-ready [ sic, should be “capture ready”, or
“carbon capture ready” ].

Jon Gibbons is the boss of the UK CCS Research Centre, based in an
industrial estate in Sheffield.

[ Noise of processing plant ]

Jon’s just brought me up a sort of 3D maze of galvanized steel and
shiny metal pipes to the top of a tower that must be 20 or so metres
high.

Jon, what is this ?

[ Jon Gibbons ]

OK, so this is our capture unit, to take the CO2 out of the combustion
products from gas or coal. In the building behind us, in the test rigs
we’ve got, the gas turbine or the combustor rig, we’re burning coal or
gas, or oil, but mainly coal or gas.

We’re taking the combustion products through the green pipe over
there, bringing it into the bottom of the unit, and then you can see
these big tall columns we’ve got, about 18 inches diameter, half a
metre diameter, coming all the way up from the ground up to the level
we’re at.

It goes into one of those, it gets washed clean with water, and it
goes into this unit over here, and there it meets an amine solvent, a
chemical that will react reversibly with CO2, coming in the opposite
direction, over packing. So, it’s like sort of pebbles, if you can
imagine it, there’s a lot of surface area. The gas flows up, the
liquid flows down, and it picks up the CO2, just mainly the CO2.

[ Tom Heap ]

And that amine, that chemical as you call it, is stripping the CO2 out
of that exhaust gas. This will link to a storage facility.

What would then happen to the CO2 ?

[ Jon Gibbons ]

What would then happen is that the CO2 would be compressed up to
somewhere in excess of about 100 atmospheres. And it would turn from
being a gas into something that looks like a liquid, like water, about
the same density as water. And then it would be taken offshore in the
UK, probably tens or hundreds of kilometres offshore, and it would go
deep, deep down, over a kilometre down into the ground, and basically
get squeezed into stuff that looks like solid rock. If you go and look
at a sandstone building – looks solid, but actually, maybe a third of
it is little holes. And underground, where you’ve got cubic kilometres
of space, those little holes add up to an awful lot of free space. And
the CO2 gets squeezed into those, over time, and it spreads out, and
it just basically sits there forever, dissolves in the water, reacts
with the rocks, and will stay there for millions of years.

[ Tom Heap ]

Back in his office, I asked Jon why CCS seemed to be stuck in the lab.

[ Jon Gibbons ]

We’re doing enough I think on the research side, but what we really
need to do, is to do work on a full-scale deployment. Because you
can’t work on research in a vacuum. You need to get feedback –
learning by doing – from actual real projects.

And a lot of the problems we’ve got on delivering CCS, are to do with
how you handle the regulation for injecting CO2, and again, you can
only do that in real life.

So what we need to do is to see the commercialisation projects that
are being run by the Department of Energy and Climate Change actually
going through to real projects that can be delivered.

[ Tom Heap ]

Hmm. When I talk to engineers, they’re always very passionate and
actually quite optimistic about Carbon Capture and Storage. And when
I talk to people in industry, or indeed read the headlines, not least
a recent cancellation in Norway, it always seems like a very bleak picture.

[ Jon Gibbons ]

I think people are recognising that it’s getting quite hard to get
money for low carbon technologies.

So – recent presentation we had at one of our centre meetings, was
actually a professor from the United States, Howard Herzog. And he
said “You think you’re seeing a crisis in Carbon Capture and Storage.
But what you’re actually seeing is a crisis in climate change
mitigation.”

[ KLAXON ! Priming us for a scaling back of commitment to the
Climate Change Act ? I do hope not. ]

Now, Carbon Capture and Storage, you do for no other purpose than
cutting CO2 emissions to the atmosphere, and it does that extremely
effectively. It’s an essential technology for cutting emissions. But
until you’ve got a global process that says – actually we’re going to
get on top of this problem; we’re going to cut emissions – get them to
safe level before we actually see people dying in large numbers from
climate change effects – ’cause, certainly, if people start dying,
then we will see a response – but ideally, you’d like to do it before
then. But until you get that going, then actually persuading people to
spend money for no other benefit than sorting out the climate is
difficult.

There’s just no point, you know, no country can go it alone, so you
have to get accommodation. And there, we’re going through various
processes to debate that. Maybe people will come to an accommodation.
Maybe the USA and China will agree to tackle climate change. Maybe
they won’t.

What I am fairly confident is that you won’t see huge, you know,
really big cuts in CO2 emissions without that global agreement. But
I’m also confident that you won’t see big cuts in CO2 emissions
without CCS deployment.

And my guess is there’s about a 50:50 chance that we do CCS before we
need to, and about a 50:50 chance we do it after we have to. But I’m
pretty damn certain we’re going to do it.

[ Tom Heap ]

But we can’t wait for a global agreement that’s already been decades
in the making, with still no end in sight.

We need decisions now to provide more power with less pollution.

[ Music lyrics : “What’s the plan ? What’s the plan ?” ]

[ Tom Heap ]

Dieter Helm, Professor of Energy Policy at the University of Oxford
believes we can only deliver our plentiful green energy future if we
abandon our attitude of buy-now pay-later.

[ KLAXON ! Does he mean a kind of hire purchase energy economy ?
I mean, we’re still paying for nuclear electricity from decades ago,
in our bills, and through our taxes to the Department of Energy and
Climate Change. ]

[ Dieter Helm ]

There’s a short-term requirement and a long-term requirement. The
short-term requirement is that we’re now in a real pickle. We face
this energy crunch. We’ve got to try to make the best of what we’ve
got. And I think it’s really like, you know, trying to get the
Spitfires back up again during the Battle of Britain. You know, you
patch and mend. You need somebody in command. You need someone
in control. And you do the best with what you’ve got.

In that context, we then have to really stand back and say, “And this
is what we have to do to get a serious, long-term, continuous, stable
investment environment, going forward.” In which, you know, we pay the
costs, but of course, not any monopoly profits, not any excess
profits, but we have a world in which the price of electricity is
related to the cost.”

[ KLAXON ! Is Dieter Helm proposing state ownership of energy plant ? ]

29:04

[ Programme anchor ]

“Costing the Earth” was presented by Tom Heap, and made in Bristol by
Helen Lennard.

[ Next broadcast : 16th October 2013, 21:00, BBC Radio 4 ]

High Stakes Energy Chutzpah





Image Credit : Carbon Brief


After Gordon Brown MP, the UK’s former Prime Minister, was involved in several diplomatic missions around the time of the oil price spike crisis in 2008, and the G20 group of countries went after fossil fuel subsidies (causing easily predictable civil disturbances in several parts of the world), it seemed to me to be obvious that energy price control would be a defining aspect of near-term global policy.

With the economy still in a contracted state (with perhaps further contraction to follow on), national interest for industrialised countries rests in maintaining domestic production and money flows – meaning that citizens should not face sharply-rising utility bills, so that they can remain active in the economy.

In the UK, those at the fringe of financial sustainability are notoriously having to face the decision about whether to Eat or Heat, and Food Banks are in the ascendance. Various charity campaigns have emphasised the importance of affordable energy at home, and the leader of the Labour Party, Ed Miliband MP has made an energy price freeze a potential plank of his policy ahead of the push for the next General Election.

The current Prime Minister, David Cameron MP has called this commitment a “con”, as his political counterpart cannot determine the wholesale price of gas (or power) in the future.

This debate comes at a crucial time in the passage of the UK Energy Bill, as the Electricity Market Reform (EMR), a key component of this legislation has weighty subsidies embedded in it for new nuclear power and renewable energy, and also backup plants (mostly Natural Gas-fired) for periods of high power demand, in what is called the “Capacity Market“. These subsidies will largely be paid for by increases in electricity bills, in one way or another.

The EMR hasn’t yet passed into the statute books, so the majority of “green energy taxes” haven’t yet coming into being – although letters of “comfort” may have been sent to to (one or more) companies seeking to invest in new nuclear power facilities, making clear the UK Government’s monetary commitment to fully supporting the atomic “renaissance”.

With a bucketload of chutzpah, Scottish and Southern Energy (SSE) and Electricite de France’s Vincent de Rivaz blamed green energy policies for contributing to past, current and future power price rises. Both of these companies stand to gain quite a lot from the EMR, so their blame-passing sounds rather hollow.

The Daily Mail and the Daily Telegraph have seemed to me to be incendiary regarding green energy subsidies, omitting to mention that whilst the trajectory of the cost of state support for renewable energy is easily calculated, volatility in global energy markets for gas and oil – and even coal – are indeterminable. Although “scandal-hugging” (sensation equals sales) columnists and editors at the newspapers don’t seem to have an appreciation of what’s really behind energy price rises, the Prime Minister – and Ed Davey MP – have got it – and squarely placed the responsibility for energy price rises on fossil fuels.

The price tag for “green energy policies” – even those being offered to (low carbon, but not “green”) nuclear power – should be considerably less than the total bill burden for energy, and hold out the promise of energy price stabilisation or even suppression in the medium- to long-term, which is why most political parties back them.

The agenda for new nuclear power appears to be floundering – it has been suggested by some that European and American nuclear power companies are not solvent enough to finance a new “fleet” of reactors. In the UK, the Government and its friends in the nuclear industry are planning to pull in east Asian investment (in exchange for large amounts of green energy subsidies, in effect). I suspect a legal challenge will be put forward should a trade agreement of this nature be signed, as soon as its contents are public knowledge.

The anger stirred up about green energy subsidies has had a reaction from David Cameron who has not dispensed with green energy policy, but declared that subsidies should not last longer than they are needed – probably pointing at the Germany experience of degressing the solar power Feed-in Tariff – although he hasn’t mentioned how nuclear subsidies could be ratcheted down, since the new nuclear programme will probably have to rely on state support for the whole of its lifecycle.

Meanwhile, in the Press, it seems that green energy doesn’t work, that green energy subsidies are the only reason for energy bill rises, we should drop the Climate Change Act, and John Prescott MP, and strangely, a woman called Susan Thomas, are pushing coal-fired power claiming it as the cheaper, surer – even cleaner – solution, and there is much scaremongering about blackouts.




http://www.mirror.co.uk/news/uk-news/john-prescott-its-coal-power-2366172

John Prescott on why it’s coal power to the people

12 Oct 2013

We can’t just stand back and give these energy companies money to burn.

It’s only 72 days until Christmas. But the greedy big six energy companies are giving themselves an early present. SSE has just announced an inflation-beating 8.2 per cent price rise on gas and electricity.

The other five will soon follow suit, no doubt doing their best to beat their combined profit from last year of £10billion.

Their excuse now is to blame climate change. SSE says it could cut bills by £110 if Government, not the Big Six, paid for green energy ­subsidies and other environmental costs, such as free loft insulation.

So your bill would look smaller but you’d pay for it with higher taxes. Talk about smoke and mirrors.

But Tory-led governments have always been hopeless at protecting the energy security of this country.

It’s almost 40 years since Britain was hit by blackouts when the Tories forced the UK into a three-day week to conserve energy supplies.

But Ofgem says the margin of ­security between energy demand and supply will drop from 14 per cent to 4 per cent by 2016. That’s because we’ve committed to closing nine oil and coal power stations to meet EU ­environmental law and emissions targets. These targets were meant to encourage the UK to move to cleaner sources of energy.

But this government drastically reduced subsidies for renewable energy such as wind and solar, let Tory energy ministers say “enough is enough” to onshore wind and failed to get agreement on replacing old
nuclear power stations.

On top of that, if we experience a particularly cold winter, we only have a reserve of 5 per cent.

But the Government is committed to hundreds of millions pounds of subsidies to pay the energy ­companies to mothball these oil and coal power stations. As someone who ­negotiated the first Kyoto agreement in 1997 and is involved in its replacement by 2015, it is clear European emissions targets will not be met in the short term by 2020.

So we have to be realistic and do what we can to keep the lights on, our people warm and our country running.

We should keep these oil and coal power stations open to reduce the risk of blackouts – not on stand-by or mothballed but working now.

The former Tory Energy minister John Hayes hinted at this but knew he couldn’t get it past his Lib Dem Energy Secretary boss Ed Davey. He bragged he’d put the coal in coalition. Instead he put the fire in fired.

We can’t just stand back and give these energy companies money to burn. The only energy security they’re interested in is securing profit and maximising taxpayer subsidies.

That’s why Ed Miliband’s right to say he’d freeze bills for 20 months and to call for more ­transparency.

We also need an integrated mixed energy policy – gas, oil, wind, nuclear and, yes, coal.




http://www.oxfordmail.co.uk/yoursay/letters/10722697.Bills_have_risen_to_pay_for_policy_changes/?ref=arc

Letters

Bills have risen to pay for policy changes

Tuesday 8th October 2013

in Letters

THE recent Labour Party pledge to freeze energy bills demonstrated how to have a political cake and eat it. The pledge is an attempt to rectify a heinous political mistake caused by political hubris and vanity.

In 2008, the then energy minister, Ed Miliband, vowed to enact the most stringent cuts in power emissions in the entire world to achieve an unrealistic 80 per cent cut in carbon emissions by closing down fully functioning coal power stations.

He was playing the role of climate saint to win popularity and votes.

I was a member when Ed Miliband spoke in Oxford Town Hall to loud cheers from numerous low-carbon businesses, who stood to profit from his legislation. I was concerned at the impact on the consumer, since it is widely known that coal power stations offer the cheapest energy to consumers compared to nuclear and wind.

So I wrote to Andrew Smith MP at great length and he passed on my concerns to the newly-formed Department of Energy and Climate Change that had replaced the previous Department of Energy and Business.

This new department sent me a lengthy reply, mapping out their plans for wind turbines at a projected cost to the consumer of £100bn to include new infrastructure and amendments to the National Grid. This cost would be added to consumer electricity bills via a hidden green policy tariff.
This has already happened and explains the rise in utility bills.

Some consumers are confused and wrongly believe that energy companies are ‘ripping them off’.

It was clearly stated on Channel 4 recently that energy bills have risen to pay for new policy changes. These policy changes were enacted by Ed Miliband in his popularity bid to play climate saviour in 2008. Energy bills have now rocketed. So Ed has cost every single consumer in the land several hundred pounds extra on their bills each year.

SUSAN THOMAS, Magdalen Road, Oxford




LETTERS
Daily Mail
14th October 2013

[ Turned off: Didcot power station’s closure could lead to power cuts. ]

Labour’s power failures will cost us all dear

THE Labour Party’s pledge to freeze energy bills is an attempt to rectify a horrible political mistake. But it might be too late to dig us out of the financial black hole caused by political vanity.

In 2008, then Energy Minister Ed Miliband vowed to enact the most stringent cuts in power emissions in the world to achieve an unrealistic 80 per cent cut in carbon emissions by closing down coal power stations. He was playing the role of climate saint to win votes.

I was in the audience in Oxford Town Hall that day and recall the loud cheers from numerous representatives of low-carbon businesses as his policies stood to make them all rather wealthy, albeit at the expense of every electricity consumer in the land.

I thought Ed had become entangled in a spider’s web.

I was concerned at the impact on the consumer as it’s widely known that coal power stations offer the cheapest energy to consumers.

I contacted the Department of Energy and Climate Change and it sent me a lengthy reply mapping out its plans for energy projects and wind turbines – at a projected cost to the consumer of £100 billion – including new infrastructure and national grid amendments.

It explained the cost would be added to consumer electricity bills via a ‘green policy’ tariff. This has now happened and explains the rise in utility bills.

Some consumers wrongly believe the energy companies are ripping them off. In fact, energy bills have risen to pay for policy changes.

The people to benefit from this are low-carbon venture capitalists and rich landowners who reap subsidy money (which ultimately comes from the hard-hit consumer) for having wind farms on their land.

Since Didcot power station closed I’ve suffered five power cuts in my Oxford home. If we have a cold winter, we now have a one-in-four chance of a power cut.

The 2008 legislation was a huge mistake. When power cuts happen, people will be forced to burn filthy coal and wood in their grates to keep warm, emitting cancer-causing particulates.

Didcot had already got rid of these asthma-causing particulates and smoke. It emitted mainly steam and carbon dioxide which aren’t harmful to our lungs. But the clean, non-toxic carbon dioxide emitted by Didcot was classified by Mr Miliband as a pollutant. We are heading into a public health and financial disaster.

SUSAN THOMAS, Oxford




http://www.europeanvoice.com/article/2013/october/ceos-demand-reform-of-eu-renewable-subsidies/78418.aspx

CEOs demand reform of EU renewable subsidies
By Dave Keating – 11.10.2013

Companies ask the EU to stop subsidising the renewable energy sector.

The CEOs of Europe’s ten biggest energy companies called for the European Union and member states to stop subsidising the renewable energy sector on Friday (11 October), saying that the priority access given to the sector could cause widespread blackouts in Europe over the winter.

At a press conference in Brussels, Paolo Scaroni, CEO of Italian oil and gas company ENI, said: “In the EU, companies pay three times the price of gas in America, twice the price of power. How can we dream of an industrial renaissance with such a differential?”

The CEOs said the low price of renewable energy as a result of government subsidies is causing it to flood the market. They called for an EU capacity mechanism that would pay utilities for keeping electric power-generating capacity on standby to remedy this problem.

They also complained that the low price of carbon in the EU’s emissions trading scheme (ETS) is exacerbating the problem…




http://www.dailymail.co.uk/debate/article-2458333/DAILY-MAIL-COMMENT-Press-freedom-life-death-matter.html

Well said, Sir Tim

Days after David Cameron orders a review of green taxes, which add £132 to power bills, the Lib Dem Energy Secretary vows to block any attempt to cut them.

Reaffirming his commitment to the levies, which will subsidise record numbers of inefficient wind farms approved this year, Ed Davey adds: ‘I think we will see more price rises.’

The Mail can do no better than quote lyricist Sir Tim Rice, who has declined more than £1million to allow a wind farm on his Scottish estate. ‘I don’t see why rich twits like me should be paid to put up everybody else’s bills,’ he says. ‘Especially for something that doesn’t work.’

Wind Powers Electricity Security




Have the anti-wind power lobby struck again ? A seemingly turbulent researcher from Private Eye magazine rang me on Thursday evening to ask me to revise my interpretation of his “Keeping The Lights On” piece of a few weeks previously. His article seemed at first glance to be quite derogatory regarding the contribution of wind power to the UK’s electricity supply. If I were to look again, I would find out, he was sure, that I was wrong, and he was right.

So I have been re-reviewing the annual 2013 “Electricity Capacity Assessment Report” prepared by Ofgem, the UK Government’s Office of Gas and Electricity Markets, an independent National Regulatory Authority. I have tried to be as fair-minded and generous as possible to “Old Sparky” at Private Eye magazine, but a close re-reading of the Ofgem report suggests he is apparently mistaken – wind power is a boon, not a burden (as he seems to claim).

In the overview to the Ofgem report, they state, “our assessment suggests that the risks to electricity security of supply over the next six winters have increased since our last report in October 2012. This is due in particular to deterioration in the supply-side outlook. There is also uncertainty over projected reductions in demand.” Neither of these issues can be associated with wind power, which is being deployed at an accelerating rate and so is providing increasing amounts of electricity.

The report considers risks to security of the electricity supply, not an evaluation of the actual amounts of power that will be supplied. How are these risks to the security of supply quantified ? There are several metrics provided from Ofgem’s modelling, including :-

a. LOLE – Loss of Load Expectation – the average number of hours per year in which electricity supply does not meet electricity demand (if the grid System Operator does not take steps to balance it out).

(Note that Ofgem’s definition of LOLE is difference from other people’s “LOLE is often interpreted in the academic literature as representing the probability of disconnections after all mitigation actions available to the System Operator have been exhausted. We consider that a well functioning market should avoid using mitigation actions in [sic] regular basis and as such we interpret LOLE as the probability of having to implement mitigation actions.”)

b. EEU – Expected Energy Unserved (or “Un-served”) – the average amount of electricity demand that is not met in a year – a metric that combines both the likelihood and the size of any shortfall.

c. Frequency and Duration of Expected Outages – a measure of the risk that an electricity consumer faces of controlled disconnection because supply does not meet demand.

The first important thing to note is that the lights are very unlikely to go out. The highest value of LOLE, measured in hours per year is under 20. That’s 20 hours each year. Not 20 days. And this is not anticipated to be 20 days in a row, either. Section 1.11 says “LOLE, as interpreted in this report, is not a measure of the expected number of hours per year in which customers may be disconnected. For a given level of LOLE and EEU, results may come from a large number of small events where demand exceeds supply in principle but that can be managed by National Grid through a set of mitigation actions available to them as System Operator. […] Given the characteristics of the GB system, any shortfall is more likely to take the form of a large number of small events that would not have a direct impact on customers.”

Section 2.19 states, “The probabilistic measures of security of supply presented in this report are often misinterpreted. LOLE is the expected number of hours per year in which supply does not meet demand. This does not however mean that customers will be disconnected or that there will be blackouts for that number of hours a year. Most of the time, when available supply is not high enough to meet demand, National Grid may implement mitigation actions to solve the problem without disconnecting any customers. However, the system should be planned to avoid the use of mitigation actions and that is why we measure LOLE ahead of any mitigation actions being used”. And Section 2.20, “LOLE does not necessarily mean disconnections but they do remain a possibility. If the difference between available supply and demand is so large that the mitigation actions are not enough to meet demand then some customers have to be disconnected – this is the controlled disconnections step in Figure 14 above. In this case the [System Operator] SO will disconnect industrial demand before household demand.”

And in Section 2.21. “The model output numbers presented here refer to a loss of load of any kind. This could be the sum of several small events (controlled through mitigation actions) or a single large event. As a consequence of the mitigation actions available, the total period of disconnections for a customer will be lower than the value of LOLE.”

The report does anticipate that there are risks of large events where the lights could go out, even if only very briefly, for non-emergency customers : “The results may also come from a small number of large events (eg the supply deficit is more than 2 – 3 gigawatts (GW)) where controlled disconnections cannot be avoided.” But in this kind of scenario two very important things would happen. Those with electricity contracts with a clause permitting forced disconnection would lose power. And immediate backup power generation would be called upon to bridge the gap. There are many kinds of electricity generation that can be called on to start up in a supply crisis – some of them becoming operational in minutes, and others in hours.

As the report says in Section 2.24 “Each [Distribution Network Operator] DNO ensures it can provide a 20% reduction of its total system demand in four incremental stages (between 4% and 6%), which can be achieved at all times, with or without prior warning, and within 5 minutes of receipt of an instruction from the System Operator. The reduction of a further 20% (40% in total) can be achieved following issue of the appropriate GB System Warning by National Grid within agreed timescales”.

It’s all about the need for National Grid to balance the system. Section 2.9 says, “LOLE is not a measure of the expected number of hours per year in which customers may be disconnected. We define LOLE to indicate the number of hours in which the system may need to respond to tight conditions.”

The report also rules some potential sources of disruption of supply outside the remit of this particular analysis – see Section 3.17 “There are other reasons why electricity consumers might experience disruptions to supply, which are out of the scope of this assessment and thus not captured by this model, such as: Flexibility : The ability of generators to ramp up in response to rapid increases in demand or decreases in the output of other generators; Insufficient reserve : Unexpected increases in demand or decreases in available capacity in real time which must be managed by the System Operator through procurement and use of reserve capacity; Network outages : Failures on the electricity transmission or distribution networks; Fuel availability : The availability of the fuel used by generators. In particular the security of supplies of natural gas at times of peak electricity demand.”

Crucially, the report says there is much uncertainty in their modelling of LOLE and EEU. In Section 2.26, “The LOLE and EEU estimates are just an indication of risk. There is considerable uncertainty around the main variables in the calculation (eg demand, the behaviour of interconnectors etc.)”

(Note : interconnectors are electricity supply cables that join the UK to other countries such as Ireland and Holland).

Part of the reason for Ofgem’s caveat of uncertainty is the lack of appropriate data. Although they believe they have better modelling of wind power since their 2012 report (see Sections 3.39 to 3.50), there are data sets they believe should be improved. For example, data on Demand Side Response (DSR) – the ability of the National Grid and its larger or aggregated consumers to alter levels of demand on cue (see Sections 4.7 to 4.10 of the document detailing decisions about the methodology). A lack of data has led to certain assumptions being retained, for example, the assumption that there is no relationship between available wind power and periods of high demand – in the winter season (see Section 2.5 and Sections 4.11 to 4.17 of the methodology decisions document).

In addition to these uncertainties, the sensitivity cases used in the modelling are known to not accurately reflect the capability of management of the power grid. In the Executive Summary on page 4, the report says, “These sensitivities only illustrate changes in one variable at a time and so do not capture potential mitigating effects, for example of the supply side reacting to higher demand projections.” And in Section 2.16 it says, “Each sensitivity assumes a change in one variable from the Reference Scenario, with all other assumptions being held constant. The purpose of this is to assess the impact of the uncertainty related to each variable in isolation, on the risk measures. Our report is not using scenarios (ie a combination of changes in several variables to reflect alternative worlds or different futures), as this would not allow us to isolate the impact of each variable on the risk measures.”

Thus, the numbers that are output by the modelling are perforce illustrative, not definitive.

What “Old Sparky” at Private Eye was rattled by in his recent piece was the calculation of Equivalent Firm Capacity (EFC) in the Ofgem report.

On page 87, Section 3.55, the Ofgem report defines the “standard measure” EFC as “the amount of capacity that is required to replace the wind capacity to achieve the same level of LOLE”, meaning the amount of always-on generation capacity required to replace the wind capacity to achieve the same level of LOLE. Putting it another way on page 33, in the footnotes for Section 3.29, the report states, “The EFC is the quantity of firm capacity (ie always available) that can be replaced by a certain volume of wind generation to give the same level of security of supply, as measured by LOLE.”

Wind power is different from fossil fuel-powered generation as there is a lot of variability in output. Section 1.48 of the report says, “Wind generation capacity is analysed separately given that its outcome in terms of generation availability is much more variable and difficult to predict.” Several of the indicators calculated for the report are connected with the impact of wind on security of the power supply. However, variation in wind power is not the underlying reason for the necessity of this report. Other electricity generation plant has variation in output leading to questions of security of supply. In addition, besides planned plant closures and openings, there are as-yet-unknown factors that could impact overall generation capacity. Section 2.2 reads, “We use a probabilistic approach to assess the uncertainty related to short-term variations in demand and available conventional generation due to outages and wind generation. This is combined with sensitivity analysis to assess the uncertainty related to the evolution of electricity demand and supply due to investment and retirement decisions (ie mothballing, closures) and interconnector flows, among others.”

The report examines the possibility that wind power availability could be correlated to winter season peak demand, based on limited available data, and models a “Wind Generation Availability” sensitivity (see Section 3.94 to Section 3.98, especially Figure 64). In Section 3.42 the report says, “For the wind generation availability sensitivity we assume that wind availability decreases at time of high demand. In particular this sensitivity assumes a reduction in the available wind resource for demand levels higher than 92% of the ACS peak demand. The maximum reduction is assumed to be 50% for demand levels higher than 102% of ACS peak demand.” Bear in mind that this is only an assumption.

In Appendix 5 “Detailed results tables”, Table 34, Table 35 and Table 37 show how this modelling impacts the calculation of the indicative Equivalent Firm Capacity (EFC) of wind power.

In the 2018/2019 timeframe, when there is expected to be a combined wind power capacity of 8405 megawatts (MW) onshore plus 11705 MW offshore = 20110 MW, the EFC for wind power is calculated to be 2546 MW in the “Wind Generation Availability” sensitivity line, which works out at 12.66% of the nameplate capacity of the wind power. Note : 100 divided by 12.66 is 7.88, or a factor of roughly 8.

At the earlier 2013/2014 timeframe, when combined wind power capacity is expected to be 3970 + 6235 MW = 10205 MW, and the EFC is at 1624 MW or 15.91% for the “Wind Generation Sensitivity” line. Note : 100 divided by 15.91 = 6.285, or a factor of roughly 6.

“Old Sparky” is referring to these factor figures when he says in his piece (see below) :-

“[…] For every one megawatt of reliable capacity (eg a coal-fired power
station) that gets closed, Ofgem calculates Britain would need six to
eight
megawatts of windfarm capacity to achieve the original level of
reliability – and the multiple is rising all the time. Windfarms are
not of course being built at eight times the rate coal plants are
closing – hence the ever-increasing likelihood of blackouts. […]”

Yet he has ignored several caveats given in the report that place these factors in doubt. For example, the sensitivity analysis only varies one factor at a time and does not attempt to model correlated changes in other variables. He has also omitted to consider the relative impacts of change.

If he were to contrast his statement with the “Conventional Low Generation Availability” sensitivity line, where wind power EFC in the 2013/2014 timeframe is calculated as a healthy 26.59% or a factor of roughly 4; or 2018/2019 when wind EFC is 19.80% or a factor of roughly 5.

Note : The “Conventional Low Generation Availability” sensitivity is drawn from historical conventional generation operating data, as outlined in Sections 3.31 to 3.38. Section 3.36 states, “The Reference Scenario availability is defined as the mean availability of the seven winter estimates. The availability values used for the low (high) availability sensitivities are defined as the mean minus (plus) one standard deviation of the seven winter estimates.”

Table 30 and Table 31 show that low conventional generation availability will probably be the largest contribution to energy security uncertainty in the critical 2015/2016 timeframe.

The upshot of all of this modelling is that wind power is actually off the hook. Unforeseen alterations in conventional generation capacity are likely to have the largest impact. As the report says in Section 4.21 “The figures indicate that reasonably small changes in conventional generation availability have a material impact on the risk of supply shortfalls. This is most notable in 2015/16, where the estimated LOLE ranges from 0.2 hours per year in the high availability sensitivity to 16 hours per year in the low availability sensitivity, for the Reference Scenario is 2.9 hours per year.”

However, Section 1.19 is careful to remind us, “Wind generation, onshore and offshore, is expected to grow rapidly in the period of analysis and especially after 2015/16, rising from around 9GW of installed capacity now to more than 20GW by 2018/19. Given the variability of wind speeds, we estimate that only 17% of this capacity can be counted as firm (ie always available) for security of supply purposes by 2018/19.” This is in the Reference Scenario.

The sensitivities modelled in the report are a measure of risk, and do not provide absolute values for any of the output metrics, especially since the calculations are dependent on so many factors, including economic stimulus for the building of new generation plant.

Importantly, recent decisions by gas-fired power plant operators to “mothball”, or close down their generation capacity, are inevitably going to matter more than how much exactly we can rely on wind power.

Many commentators neglect to make the obvious point that wind power is not being used to replace conventional generation entirely, but to save fossil fuel by reducing the number of hours conventional generators have to run. This is contributing to energy security, by reducing the cost of fossil fuel that needs to be imported. However, the knock-on effect is this is having an impact on the economic viability of these plant because they are not always in use, and so the UK Government is putting in place the “Capacity Mechanism” to make sure that mothballed plant can be put back into use when required, during those becalmed, winter afternoons when power demand is at its peak.




Private Eye
Issue Number 1345
26th July 2013 – 8th August 2013

“Keeping the Lights On”
page 14
by “Old Sparky”

The report from energy regulator Ofgem that sparked headlines on
potential power cuts contains much new analysis highlighting the
uselessness of wind generation in contributing to security of
electricity supply, aka the problem of windfarm “intermittency”. But
the problem is being studiously ignored by the Department of Energy
and Climate Change (DECC).

As coal power stations shut down, windfarms are notionally replacing
them. If, say, only one windfarm were serving the grid, its inherent
unreliability could easily be compensated for. But if there were
[italics] only windfarms, and no reliable sources of electricity
available at all, security of supply would be hugely at risk. Thus the
more windfarms there are, the less they contribute to security.

For every one megawatt of reliable capacity (eg a coal-fired power
station) that gets closed, Ofgem calculates Britain would need six to
eight megawatts of windfarm capacity to achieve the original level of
reliability – and the multiple is rising all the time. Windfarms are
not of course being built at eight times the rate coal plants are
closing – hence the ever-increasing likelihood of blackouts.

[…]

In consequence windfarms are being featherbedded – not only with
lavish subsidies, but also by not being billed for the ever-increasing
trouble they cause. When the DECC was still operating Plan B, aka the
dash for gas ([Private] Eye [Issue] 1266), the cost of intermittency
was defined in terms of balancing the grid by using relatively clean
and cheap natural gas. Now that the department has been forced to
adopt emergency Plan C ([Private] Eye [Issue] 1344), backup for
intermittent windfarm output will increasingly be provided by dirty,
expensive diesel generators.




Private Eye
Issue 1344
12 – 25 July 2013

page 15
“Keeping the Lights On”

As pandemonium breaks out in newspapers at the prospect of electricity
blackouts, emergency measures are being cobbled together to ensure the
lights stay on. They will probably succeed – but at a cost.

Three years ago incoming coalition ministers were briefed that when
energy policy Plan A (windfarms, new nukes and pixie-dust) failed, Plan B
would be in place – a new dash for gas ([Private] Eye [Issue] 1266).

Civil servants then devised complex “energy market reforms” (EMR) to make
this happen. It is now clear that these, too, have failed. Coal-fired power
stations are closing quicker than new gas plants are being built. As energy
regulator Ofgem put it bluntly last week: “The EMR aims to incentivise
industry to address security of supply in the medium term, but is not able
to bring forward investment in new capacity in time.”

Practical people in the National Grid are now hatching emergency Plan C.
They will pay large electricity users to switch off when requested;
encourage industrial companies and even hospitals to generate their own
diesel-fired electricity (not a hard sell when the grid can’t be relied
on); hire diesel generators to make up for the intermittency of windfarms
([Private] Eye [Issue] 1322); and bribe electricity companies to bring
mothballed gas-fired plants back into service.

Some of these steps are based on techniques previously used in extreme
circumstances, and will probably keep most of the lights on. But this
should not obscure the fact that planning routine use of emergency
measures is an indictment of energy policy. And since diesel is much
more expensive and polluting than gas, electricity prices and CO2
emissions will be higher than if Plan B had worked.

[…]

‘Old Sparky’




Keith MacLean : Big Choices

At last week’s 2013 Annual Conference for PRASEG, the UK parliamentary sustainable energy group, Keith MacLean from Scottish and Southern Energy outlined (see below) the major pathways for domestic (residential) energy, currently dependent on both a gas grid and a power grid.

He said that decarbonising heat requires significant, strategic infrastructure decisions on the various proposals and technology choices put forward, as “these options are incompatible”. He said that the UK “need to facilitate more towards ONE of those scenarios/configurations [for provision for heating at home] as they are mutually exclusive”.

There has been a commitment from Central Government in the UK to the concept of electrification of the energy requirements of both the transport and heat sectors, and Keith MacLean painted a scenario that could see the nation’s households ditching their gas central heating boilers for heat pumps in accord with that vision. Next, “the District Heating (DH) movement could take off, [where you stop using your heat pump and take local piped heat from a Combined Heat and Power (CHP) plant] until there is no spare market capacity. Then [big utilities] could start pumping biogas and hydrogen into the gas grid, and you get your boiler back !”

Since I view gas grid injection of Renewable Gas feedstocks as a potential way to easily decarbonise the gas supply, and as Keith MacLean said in his panel presentation, “The real opportunity to make a difference in our domestic [residential] energy consumption is in heat rather than power”, I sought him out during the drinks reception after the event, to compare notes.

I explained that I appreciate the awkward problem he posed, and that my continuing research interest is in Renewable Gas, which includes Renewable Hydrogen, BioHydrogen and BioMethane. I said I had been reading up on and speaking with some of those doing Hydrogen injection into the gas grid, and it looks like a useful way to decarbonise gas.

I said that if we could get 5% of the gas grid supply replaced with hydrogen…”Yes”, said Keith, “we wouldn’t even need to change appliances at those levels”… and then top up with biogas and other industrial gas streams, we could decarbonise the grid by around 20% without breaking into a sweat. At this point, Keith MacLean started nodding healhily, and a woman from a communications company standing near us started to zone out, so I figured this was getting really interesting. “And that would be significant”, I accented, but by this time she was almost asleep on her feet.

With such important decisions ahead of us, it seems that people could be paying a bit more attention to these questions. These are, after all, big choices.

What did Keith mean by “The District Heating movement” ? Well, Dave Andrews of Clean Power (Finning Power Systems), had offered to give a very short presentation at the event. Here was his proposed title :-

http://uk.groups.yahoo.com/group/Claverton/message/12361
“Indicative costs of decarbonizing European city heating with electrical distribution compared to district heating pipe distribution of large scale wind energy and with particular attention to transition to the above methods and energy storage costs to address intermittency and variability of wind power.”

This would have been an assessment of the relative costs of decarbonising European city heating with either :-

Strategy 1)

“Gas-fired Combined Cycle Gas Turbine (CCGT) generation plant plus domestic (residential sector) electric heat pumps as the transition solution; and in the long term, large scale wind energy replacing the CCGT – which is retained as back up for low wind situations; and with pumped hydro electrical storage to deal with intermittency /variability of wind energy and to reduce back up fuel usage.”

or

Strategy 2)

“CCGT Combined Heat and Power (CHP) plus district heat (DH) as the transition solution; and in the long term, large scale wind energy replacing the CCGT CHP heat but with the CCGT retained as back up for low wind situations and with hot water energy storage to deal with intermittency / variability and to reduce back up fuel usage.”

With “the impact of [a programme of building retrofits for] insulation on each strategy is also assessed.”

Dave’s European research background is of relevance here, as co-author of a 215-pager SETIS programme paper complete with pretty diagrams :-

http://setis.ec.europa.eu/system/files/1.DHCpotentials.pdf

Although Dave Andrews was also at the PRASEG drinks reception, he didn’t get the opportunity to address the conference. Which was a shame as his shirt was electric.




PRASEG 2013
10 July 2013
“Keeping the Lights on: At What Cost?”
Parliamentary Renewable and Sustainable Energy Group
Annual Conference

Second Panel Discussion
Chaired by Baroness Maddock
“Negawatts: Decentralising and reducing demand – essential or ephemeral ?”

[Note : The term “negawatt” denotes a negative watt hour – produced by a reduction in power or gas demand. ]

[…]

Keith MacLean, Scottish and Southern Energy

Decentralisation and Demand Reduction [should only be done where] it makes sense. Answers [to the question of negawatts] are very different if looking at Heat and Power. Heat is something far more readily stored that electricity is. Can be used to help balance [the electricity demand profile]. And heat is already very localised [therefore adding to optimising local response]. Some are going in the other direction – looking at district [scale] heating (DH) [using the more efficient system of Combined Heat and Power (CHP)]. Never forget the option to convert from electricity to heat and back to electricity to balance [the grid]. Average household uses 3 MWh (megawatt hours) of electricity [per year] and 15 MWh of heat. The real opportunity is heat. New homes reduce this to about 1 [MWh]. Those built to the new 2016 housing regulations on Zero Carbon Homes, should use around zero. The real opportunity to make a difference in our domestic [residential] energy consumption is in heat rather than power. Reducing consumption not always the right solution. With intermittents [renewable energy] want to switch ON at some times [to soak up cheap wind power in windy conditions]. [A lot of talk about National Grid having to do load] balancing [on the scale of] seconds, minutes and hours. Far more fundamental is the overall system adequacy – a bigger challenge – the long-term needs of the consumer. Keeping the lights from going out by telling people to turn off the lights is not a good way of doing it. There is justifiable demand [for a range of energy services]. […] I don’t think we’re politically brave enough to vary the [electricity] prices enough to make changes. We need to look at ways of aggregating and automating Demand Side Response. Need to be prepared to legislate and regulate if that is the right solution.

[…]

Questions from the Floor

Question from John Gibbons of the University of Edinburgh

The decarbonisation of heat. Will we be successful any time soon ?

Answer from Keith MacLean

[…] Decarbonising heat – [strategic] infrastructure decisions. For example, [we could go down the route of ditching Natural Gas central heating] boilers for heat pumps [as the UK Government and National Grid have modelled and projected]. Then the District Heating (DH) movement could take off [and you ditch your heat pump at home], until there is no spare market capacity. Then [big utilities] could start pumping biogas and hydrogen into the gas grid, and you get your boiler back ! Need to facilitate more towards ONE of those scenarios/configurations [for provision for heating at home] as mutually exclusive. Need to address in terms of infrastructure since these options are incompatible.

Answer from Dave Openshaw, Future Networks, UK Power Network

Lifestyle decision – scope for [action on] heat more than for electricity. Demand Management – managing that Demand Side Reduction and Demand Reduction when need it. Bringing forward use of electricity [in variety of new applications] when know over-supply [from renewable energy, supplied at negative cost].

[…]

James Delingpole : Worsely Wronger

I wonder to myself – how wrong can James Delingpole get ? He, and Christopher Booker and Richard North, have recently attempted to describe something very, very simple in the National Grid’s plans to keep the lights on. And have failed, in my view. Utterly. In my humble opinion, it’s a crying shame that they appear to influence others.

“Dellingpole” (sic) in the Daily Mail, claims that the STOR – the Short Term Operating Reserve (not “Operational” as “Dellingpole” writes) is “secret”, for “that significant period when the wind turbines are not working”, and that “benefits of the supposedly ‘clean’ energy produced by wind turbines are likely to be more than offset by the dirty and inefficient energy produced by their essential diesel back-up”, all of which are outrageously deliberate misinterpretations of the facts :-

http://www.dailymail.co.uk/news/article-2362762/The-dirty-secret-Britains-power-madness-Polluting-diesel-generators-built-secret-foreign-companies-kick-theres-wind-turbines–insane-true-eco-scandals.html
“The dirty secret of Britain’s power madness: Polluting diesel generators built in secret by foreign companies to kick in when there’s no wind for turbines – and other insane but true eco-scandals : By James Dellingpole : PUBLISHED: 00:27, 14 July 2013”

If “Dellingpole” and his compadre in what appear to be slurs, Richard North, were to ever do any proper research into the workings of the National Grid, they would easily uncover that the STOR is a very much transparent, publicly-declared utility :-

http://www.nationalgrid.com/uk/Electricity/Balancing/services/balanceserv/reserve_serv/stor/

STOR is not news. Neither is the need for it to be beefed up. The National Grid will lose a number of electricity generation facilities over the next few years, and because of the general state of the economy (and resistance to wind power and solar power from unhelpful folk like “Dellingpole”) investment in true renewables will not entirely cover this shortfall.

Renewable energy is intermittent and variable. If an anticyclone high pressure weather system sits over Britain, there could be little wind. And if the sky is cloudy, there could be much less sun than normal. More renewable power feeding the grid means more opportunities when these breaks in service amount to something serious.

Plus, the age of other electricity generation plants means that the risk of “unplanned outage”, from a nuclear reactor, say, is getting higher. There is a higher probability of sudden step changes in power available from any generator.

The gap between maximum power demand and guaranteed maximum power generation is narrowing. In addition, the threat of sudden changes in output supply is increasing.

With more generation being directly dependent on weather conditions and the time of day, and with fears about the reliability of ageing infrastructure, there is a need for more very short term immediate generation backup to take up the slack. This is where STOR comes in.

Why does STOR need to exist ? The answer’s in the name – for short term balancing issues in the grid. Diesel generation is certainly not intended for use for long periods. Because of air quality issues. Because of climate change issues. Because of cost.

If the Meteorological Office were to forecast a period of low wind and low incident solar radiation, or a nuclear reactor started to dip in power output, then the National Grid could take an old gas plant (or even an old coal plant) out of mothballs, pull off the dust sheets and crank it into action for a couple of days. That wouldn’t happen very often, and there would be time to notify and react.

But if a windfarm suddenly went into the doldrums, or a nuclear reactor had to do an emergency shutdown, there would be few power stations on standby that could respond immediately, because it takes a lot of money to keep a power plant “spinning”, ready to use at a moment’s notice.

So, Delingpole, there’s no conspiracy. There’s engagement with generators to set up a “first responder” network of extra generation capacity for the grid. This is an entirely public process. It’s intended for short bursts of immediately-required power because you can’t seem to turn your air conditioner off. The cost and emissions will be kept to a minimum. You’re wrong. You’re just full of a lot of hot air.

Birdcage Walk : Cheesestick Rationing


Yesterday…no, it’s later than I think…two days ago, I attended the 2013 Conference of PRASEG, the Parliamentary Renewable and Sustainable Energy Group, at the invitation of Rhys Williams, the long-suffering Coordinator. “…Sorry…Are you upset ?” “No, look at my face. Is there any emotion displayed there ?” “No, you look rather dead fish, actually”, etc.

At the prestigious seat of the Institute of Mechanical Engineers (IMechE), One Birdcage Walk, we were invited down into the basement for a “drinks reception”, after hearing some stirring speeches and intriguing panel discussions. Despite being promised “refreshments” on the invitation, there had only been beverages and a couple of bikkies up until now, and I think several of the people in the room were starting to get quite hypoglycemic, so were grateful to see actual food being offered.

A market economy immediately sprang up, as there was a definite scarcity in the resources of cheesesticks, and people jostled amiably, but intentionally, so they could cluster closest to the long, crispy cow-based snacks. The trading medium of exchange was conversation. “Jo, meet Mat Hope from Carbon Brief, no Maf Smith from Renewable UK. You’ve both been eviscerated by Delingpole online”, and so on.

“Welcome to our own private pedestal”, I said to somebody, who it turned out had built, probably in the capacity of developer, a sugarcane bagasse Combined Heat and Power plant. The little table in the corner had only got room around it for three or at most four people, and yet had a full complement of snack bowls. Bonus. I didn’t insist on memorising what this fellow told me his name was. OK, I didn’t actually hear it above the hubbub. And he was wearing no discernible badge, apart from what appeared to be the tinge of wealth. He had what looked like a trailing truculent teenager with him, but that could have been a figment of my imagination, because the dark ghost child spoke not one word. But that sullenness, and general anonymity, and the talkative gentleman’s lack of a necktie, and his slightly artificial, orange skin tone, didn’t prevent us from engaging wholeheartedly in a discussion about energy futures – in particular the default options for the UK, since there is a capacity crunch coming very soon in electricity generation, and new nuclear power reactors won’t be ready in time, and neither will Carbon Capture and Storage-fitted coal-fired power plants.

Of course, the default options are basically Natural Gas and wind power, because large amounts can be made functional within a five year timeframe. My correspondent moaned that gas plants are closing down in the UK. We agreed that we thought that new Combined Cycle Gas Turbine plant urgently needs to be built as soon as possible – but he despaired of seeing it happen. He seemed to think it was essential that the Energy Bill should be completed as soon as possible, with built-in incentives to make Gas Futures a reality.

I said, “Don’t wait for the Energy Bill”. I said, “Intelligent people have forecast what could happen to Natural Gas prices within a few years from high European demand and UK dependence, and are going to build gas plant for themselves. We simply cannot have extensions on coal-fired power plants…” He agreed that the Large Combustion Plant Directive would be closing the coal. I said that there was still something like 20 gigawatts of permissioned gas plant ready to build – and with conditions shaping up like they are, they could easily get financed.

Earlier, Nigel Cornwall, of Cornwall Energy had put it like this :-

“Deliverability and the trilemma [meeting all three of climate change, energy security and end-consumer affordability concerns] [are key]. Needs to be some joined-up thinking. […] There is clearly a deteriorating capacity in output – 2% to 5% reduction. As long as I’ve worked in the sector it’s been five minutes to midnight, [only assuaged by] creative thinking from National Grid.”

However, the current situation is far from bog standard. As Paul Dickson of Glennmont Partners said :-

“£110 billion [is needed] to meet the [electricity generation] gap. We are looking for new sources of capital. Some of the strategic institutional capital – pension funds [for example] – that’s who policy needs to be directed towards. We need to look at sources of capital.”

Alistair Buchanan, formerly of Ofgem, the power sector regulator, and now going to KPMG, spent the last year or so of his Ofgem tenure presenting the “Crunch Winter” problem to as many people as he could find. His projections were based on a number of factors, including Natural Gas supply questions, and his conclusion was that in the winter of 2015/2016 (or 2016/2017) power supply could get thin in terms of expansion capacity – for moments of peak demand. Could spell crisis.

The Government might be cutting it all a bit fine. As Jenny Holland of the Association for the Conservation of Energy said :-

“[Having Demand Reduction in the Capacity Mechanism] Not our tip-top favourite policy outcome […] No point to wait for “capacity crunch” to start [Energy Demand Reduction] market.”

It does seem that people are bypassing the policy waiting queue and getting on with drawing capital into the frame. And it is becoming more and more clear the scale of what is required. Earlier in the afternoon, Caroline Flint MP had said :-

“In around ten years time, a quarter of our power supply will be shut down. Decisions made in the next few years. Consequences will last for decades. Keeping the lights on, and [ensuring reasonably priced] energy bills, and preventing dangerous climate change.”

It could come to pass that scarcity, not only in cheesesticks, but in electricity generation capacity, becomes a reality. What would policy achieve then ? And how should Government react ? Even though Lord Deben (John Gummer) decried in the early afternoon a suggestion implying carbon rationing, proposed to him by Professor Mayer Hillman of the Policy Studies Institute, it could yet turn out that electricity demand reduction becomes a measure that is imposed in a crisis of scarcity.

As I put it to my sugarcane fellow discussionee, people could get their gas for heating cut off at home in order to guarantee the lights and banks and industry stay on, because UK generation is so dependent on Natural Gas-fired power.

Think about it – the uptake of hyper-efficient home appliances has turned down owing to the contracting economy, and people are continuing to buy and use electronics, computers, TVs and other power-sucking gadgets. Despite all sizes of business having made inroads into energy management, electricity consumption is not shifting downwards significantly overall.

We could beef up the interconnectors between the UK and mainland Europe, but who can say that in a Crunch Winter, the French and Germans will have any spare juice for us ?

If new, efficient gas-fired power plants are not built starting now, and wind farms roll out is not accelerated, the Generation Gap could mean top-down Energy Demand Reduction measures.

It would certainly be a great social equaliser – Fuel Poverty for all !

London : Array, Invest, Divest

Showcasing the London Array offshore wind farm in the last week at its official launch, the UK’s Prime Minister David Cameron said “[…] We are making this country incredibly attractive to invest in […] When it comes to green energy, I think we have one of the clearest, most predictable investment climates. And we’re going to add to that by completing the Energy Bill this year. So, we will have a fantastic market for investors to come and build in. […]” (see below).

I think developers of solar energy in Britain would disagree quite extensively with his claim that there is a stable regime for green energy. The most effective stimulus tool, the Feed-in Tariff, was applauded and then mauled in short succession by the Conservative-Liberal-Democrat Coalition Government. Installation rates have simply not recovered from chewings from the Treasury attack dog. It’s been boom and then bust, bust, bust, with flurries of activity in summer, but not much more :-

https://www.gov.uk/government/statistical-data-sets/weekly-solar-pv-installation-and-capacity-based-on-registration-date

And this despite the yappy enthusiasm (perhaps “big, hairy”, or “big, sexy” ambition) that Greg Barker MP and his Dachshund, Otto, have for sun-fired electricity generation :-

http://www.solarpowerportal.co.uk/news/barker_once_more_quotes_22gw_by_2020_solar_ambition_2356

http://www.utilityweek.co.uk/news/news_story.asp?id=198770&title=National+Grid+analysis+clouds+Barker%27s+20GW+solar+ambition

The Energy Bill should have been finished a long time ago, and I’m pretty sure it would have been, apart from the insane obsession with new nuclear power, which all along was predicted to consist of several kinds of big, chunky subsidy, and shows no signs of being anything other than a bankrolling exercise, even now (and too late to bridge Alistair Buchanan‘s “Crunch Winter” of 2015/2016).

http://www.bloomberg.com/news/2013-07-02/edf-nuclear-deal-in-u-k-may-take-a-few-months-.html
“EDF Nuclear Deal in U.K. May Take ‘A Few Months’ : By Alex Morales – Jul 2, 2013 : The U.K. may take “a few months” to agree the price that Electricite de France SA (EDF) will get for power from Britain’s first new nuclear power station in two decades, Energy Secretary Ed Davey suggested. The government has been in talks for months with EDF to agree a so-called strike price the French utility will get for power from a planned plant at Hinkley Point in southwest England. Davey told Parliament’s multi-party Energy and Climate Change Committee he won’t sign a contract with EDF unless it represents “value for money” for consumers. “Even if we agree in the next few months, a nuclear reactor at Hinkley point won’t be producing until the end of this decade at best,” Davey said today. “They have been very constructive negotiations. They are taking some time, and that’s because they are very complicated.”

http://www.telegraph.co.uk/finance/newsbysector/energy/10164435/Rival-nuclear-companies-cheaper-than-EDF-Ed-Davey-suggests.html
“[…] Mr Davey told The Guardian that EDF was aware of the strike price that he would agree to and that he was “not going to budge an inch”. He said: “Sometimes people said it is EDF or bust. I would like to do a deal with EDF but we don’t have to. I was in Korea and Japan recently talking to other investors and vendors. Their interest in the UK market was massive. I got the very strong impression that the sort of price I was happy to agree with EDF, they could match.” In the same interview he said: “We have other nuclear options. Hitachi are very live options. They bought Horizon only last year and their pace of progress is truly impressive.” He noted that Hitachi had delivered four reactors “on time and on budget”. […]”

But the most serious contention that I have with David Cameron’s remarks is his painting a picture that the UK needs international capital to reach down from geostationary orbit, or where it is a bit lower, in transcontinential flight at 35,000 feet, to touch and bless the UK with its gilded finger of providence.

Don’t we have any investors in Britain ? We may have only a few, small British companies that can build green energy for us, but we do have a lot of wealth lurking within these very shores, or representatives of a lot of wealth. Could we not demand that those who shore their cash in Britain, and take advantage of cheap corporate tax deals, invest in British green energy ? Could we not make green energy investment a sine qua non of the residence or passsage of wealth in and through the City of London ?

Many people in Great Britain have pensions, and those pensions have funds, and those funds have fund managers. There’s a lot of money, right there. What are the criteria that govern pension pot investment ?

And then there’s the banks. Almost everyone in the UK has a bank account. Are the banks held to policies to direct finance and investment towards green energy and clean tech ? Do their customers demand it ?

Why does the UK Government not stipulate that “best value for money” as a criteria on all contracts of procurement – and investment – has to be matched by “best carbon emissions reduction potential” ?

Or are we in such an austere position that we need to offer huge, fattened sweeteners from the Treasury tax honeypot, and permission to raise already high power prices for customers, to any international engineering firm prepared to pour concrete here, so that they can arrange for the finance this guarantees ? Why are we in a position where we are being forced to throw public money and billpayer burdens at private companies to guarantee new energy build ?

This looks like a worse deal than PFI. In fact, it is much, much worse that the Private Finance Inititative, or the revamped new acronyms that replaced it. This is the wholesale gifting of large amounts of annual tax revenue and fingerlicking kilowatt hour prices to large, transnational corporations. If the economy gets worse, which it probably will, these big new construction projects may never get completed. And the new national energy infrastructure that does manage to get built won’t even be ours. Unless they go wrong, in which case the country will have to pay to mop them up. Or at the end of life, when the taxpayers and billpayers will need to pay to decommission nuclear reactors and dispose of radioactive waste.

And while we’re on the subject of investment, I need to point out that not all big infrastructure projects are alike. Some development is good, some bad. I don’t really see how the Olympic building spree can be compared in any way to what’s necessary for creating a decarbonised energy system. And building larger ports, and roads, and airports, anticipates higher levels of traded goods – the kind of economic growth that caused climate change in the first place.

If David Cameron wants to crow about big projects and be praised for it, he needs to de-select examples that are unsustainable.

There really needs to be more focus on what we really need for the future, and that requires discernment in investment. It requires moving away from high consumption models of economy, of divesting from stocks and shares in waste, pollution, carbon emissions and unnecessary trade.

Invest, yes, but divest, also.

http://thinkprogress.org/climate/2013/06/25/2213341/invest-divest-obama-goes-full-climate-hawk-in-speech-unveiling-plan-to-cut-carbon-pollution/

http://www.operationnoah.org/PR_southwark_resolution
“4 July 2013: The Diocese of Southwark passed a resolution yesterday (3 July 2013) calling on the General Synod of the Church of England to consider disinvestment from fossil fuels.”




https://www.gov.uk/government/news/prime-minister-champions-inward-investment-at-london-array-and-battersea-power-station

http://www.guardian.co.uk/environment/video/2013/jul/04/david-cameron-windfarm-thames-estuary-video

The UK’s Prime Minister David Cameron speaking outside at the London Array site :-

“Well let’s be clear this is the biggest offshore wind farm anywhere in the world.
And what it shows is Britain is a great country to come and invest in. And it’s meant
jobs for local people. And it means clean, green energy for half a million homes in
our country. It’s part of what we need to have secure, reliable supplies of electricity
and to get investment and jobs for our people, so it’s a good day for Britain.”

David Cameron speaking at the Press Launch indoors :-

“Well of course, when I chaired the G8, I had to arrange everything, starting with
the dress code. There was some criticism. Why wasn’t I wearing a tie ? What people
didn’t realise of course was that President Putin wanted to do the whole thing
barechested on horseback, and I of course had to negotiate him down to smart casual.
We haven’t had that problem today.

Sometimes people wonder, can we in the West, can we do big projects any more ? Can we
do the big investments ? Isn’t that all happening somewhere else in the East and the
South of our world ?

And I think if you look at the United Kingdom right now you can see WE CAN do big
projects. Not only did we do a superb Olympics last year, but underneath London,
CrossRail is the biggest construction project anywhere in Europe.

Not far away from here is Dubai Ports World London Gateway, which is the biggest port
contruction taking place anywhere in Europe.

And here you have the biggest offshore wind farm anywhere in the world.

I think it demonstrates Britain is a great place to invest.

I don’t want to have too much Schadenfreude, but it’s actually a fact that last year,
foreign direct investment into Europe as a whole went down by something like 40%, but in
the UK it went up by 24%.

We are making this country incredibly attractive to invest in, and and that’s part of what
this project is about.

When it comes to green energy, I think we have one of the clearest, most predictable
investment climates. And we’re going to add to that by completing the Energy Bill this year.

So, we will have a fantastic market for investors to come and build in.

So, a great win for Kent, a great win for renewable energy and a great win for Britain.”

Renewable Gas : Research Parameters

“So what do you do ?” is a question I quite frequently have to answer, as I meet a lot of new people, in a lot of new audiences and settings, on a regular basis, as an integral part of my personal process of discovery.

My internal autocue answer has modified, evolved, over the years, but currently sounds a lot like this, “I have a couple of part-time jobs, office administration, really. I do a spot of weblogging in my spare time. But I’m also doing some research into the potential for Renewable Gas.” I then pause for roughly two seconds. “Renewable Gas ?” comes back the question.

“Yes,” I affirm in the positive, “Industrial-scale chemistry to produce gas fuels not dug up out of the ground. It is useful to plug the gaps in Renewable Electricity when the sun isn’t shining and the wind isn’t blowing.”

It’s not exactly an elevator pitch – I’m not really selling anything except a slight shift in the paradigm here. Renewable Energy. Renewable Electricity. Renewable Gas. Power and gas. Gas and power. It’s logical to want both to be as renewable and sustainable and as low carbon as possible.

Wait another two seconds. “…What, you mean, like Biogas ?” comes the question. “Well, yes, and also high volumes of non-biological gas that’s produced above the ground instead of from fossil fuels.”

The introductory chat normally fades after this exchange, as my respondent usually doesn’t have the necessary knowledge architecture to be able to make any sense of what my words represent. I think it’s fair to say I don’t win many chummy friends paradigm-bumping in this way, and some probably think I’m off the deep end psychologically, but hey, evolutionaries don’t ever have it easy.

And I also find that it’s not easy to find a place in the hierarchy of established learning for my particular “research problem”. Which school could I possibly join ? Which research council would adopt me ?

The first barrier to academic inclusion is that my research interest is clearly motivated by my concern about the risks of Climate Change – the degradation in the Earth’s life support systems from pumping unnaturally high volumes of carbon dioxide into the air – and Peak Fossil Fuels – the risks to humanity from a failure to grow subsurface energy production.

My research is therefore “applied” research, according to the OECD definition (OECD, 2002). It’s not motivated simply by the desire to know new things – it is not “pure” research – it has an end game in mind. My research is being done in order to answer a practical problem – how to decarbonise gaseous, gas phase, energy fuel production.

The second barrier to the ivory tower world that I have is that I do not have a technological contribution to make with this research. I am not inventing a chemical process that can “revolutionise” low carbon energy production. (I don’t believe in “revolutions” anyway. Nothing good ever happens by violent overthrow.) My research is not at the workbench end of engineering, so I am not going to work amongst a team of industrial technicians, so I am not going to produce a patent for clean energy that could save the world (or the economy).

My research is more about observing and reporting the advances of others, and how these pieces add up to a journey of significant change in the energy sector. I want to join the dots from studies at the leading edge of research, showing how this demonstrates widespread aspiration for clean energy, and document instances of new energy technology, systems and infrastructure. I want to witness to the internal motivation of thousands of people working with the goal of clean energy across a very wide range of disciplines.

This is positively positive; positivity, but it’s not positivism – it’s not pure, basic research. This piece of research could well influence people and events – it’s certainly already influencing me. It’s not hands-off neutral science. It interacts with its subjects. It intentionally intervenes.

Since I don’t have an actual physical contribution or product to offer, and since I fully expect it to “interfere” with current dogma and political realities, what I am doing will be hard to acknowledge.

This is not a PhD. But it is still a piece of philosophy, the love of wisdom that comes from the acquisition of knowledge.

I have been clear for some time about what I should be studying. Call it “internal drive” if you like. The aim is to support the development of universal renewable energy as a response to the risks of climate change and peak fossil fuel energy production. That makes me automatically biased. I view my research subject through the prism of hope. But I would contend that this is a perfectly valid belief, as I already know some of what is possible. I’m not starting from a foundational blank slate – many Renewable Gas processes are already in use throughout industry and the energy sector. The fascinating part is watching these functions coalesce into a coherent alternative to the mining of fossil fuels. For the internal industry energy production conversation is changing its track, its tune.

For a while now, “alternative” energy has been a minor vibration, a harmonic, accentuating the fossil fuel melody. As soon as the mid-noughties economic difficulties began to bite, greenwash activities were ditched, as oil and gas companies resorted to their core business. But the “green shoots” of green energy are still there, and every now and then, it is possible to see them poking up above the oilspill-desecrated soil. My role is to count blades and project bushes. Therefore my research is interpretivist or constructivist, although it is documenting positivist engineering progress. That’s quite hard for me to agree with, even though I reasoned it myself. I can still resist being labelled “post-positivist”, though, because I’m still interpreting reality not relativisms.

So now, on from research paradigm to research methodologies. I was trained to be an experimentalist scientist, so this is a departure for me. In this case, I am not going to seek to make a physical contribution to the field by being actively involved as an engineer in a research programme, partly because from what I’ve read so far, most of the potential is already documented and scoped.

I am going to use sociological methods, combining observation and rapportage, to and from various organisations through various media. Since I am involved in the narrative through my interactions with others, and I influence the outcomes of my research, this is partly auto-narrative, autoethnographic, ethnographic. An apt form for the research documentation is a weblog, as it is a longitudinal study, so discrete reports at time intervals are appropriate. Social media will be useful for joining the research to a potential audience, and Twitter has the kind of immediacy I prefer.

My observation will therefore be akin to journalism – engineering journalism, where the term “engineering” covers both technological and sociological aspects of change. A kind of energy futures “travelogue”, an observer of an emerging reality.

My research methods will include reading the science and interacting with engineers. I hope to do a study trip (or two) as a way of embedding myself into the new energy sector, with the explicit intention of ensuring I am not purely a commentator-observer. My research documentation will include a slow collation of my sources and references – a literature review that evolves over time.

My personal contribution will be slight, but hopefully set archaic and inefficient proposals for energy development based on “traditional” answers (such as nuclear power, “unconventional” fossil fuel production and Carbon Capture and Storage for coal) in high relief.

My research choices as they currently stand :-

1. I do not think I want to join an academic group.

2. I do not think I want to work for an energy engineering company.

3. I do not want to claim a discovery in an experimental sense. Indeed, I do not need to, as I am documenting discoveries and experiments.

4. I want to be clear about my bias towards promoting 100% renewable energy, as a desirable ambition, in response to the risks posed by climate change and peak fossil fuel production.

5. I need to admit that my research may influence outcomes, and so is applied rather than basic (Roll-Hansen, 2009).

References

OECD, 2002. “Proposed Standard Practice for Surveys on Research and Experimental Development”, Frascati Manual :-
http://browse.oecdbookshop.org/oecd/pdfs/free/9202081e.pdf

Roll-Hansen, 2009. “Why the distinction between basic (theoretical) and applied (practical) research is important in the politics of science”, Nils Roll-Hansen, Centre for the Philosophy of Natural and Social Science Contingency and Dissent in Science, Technical Report 04/09 :-
http://www2.lse.ac.uk/CPNSS/projects/CoreResearchProjects/ContingencyDissentInScience/DP/DPRoll-HansenOnline0409.pdf

Energy Change : Germany’s Energiewende #1

I recently attended an event entitled “The Energiewende: A close look at Germany’s renewable energy revolution”. This was hosted by PRASEG, the Associate UK Parliamentary Renewable and Sustainable Energy Group, and supported by the German Embassy, and held at the Boothroyd Room of Portcullis House, Westminster, 6th March 2013 between 2pm and 4pm.

The main speakers were Rainer Baake, State Secretary at the Federal Environment Ministry in Germany between 1998 and 2005, and Andreas Kramer, Director and CEO of the Ecologic Institute in Berlin – a well-regarded think tank. Alan Whitehead MP also gave comments, and Simon Hughes MP also attended and shared some points.

Tom Heap, the well-known Radio 4 presenter, was on hand to chair.

What follows is not verbatim, but is transcribed from scribbled notes.

[Tom Heap] “Germany is a live pilot experiment [in transitioning out of fossil fuels to renewable energy]. That’s not meant to be patronising. [Whilst recording a programme there before Christmas I was] hearing comments from right-of-centre government I wouldn’t hear in the UK. On wind turbines, German and British conservatives are poles apart. There wind power is not seen as an imposition. We heard “our energy, our village”. The technologies are similar, but the politics are different…”

[Rainer Baake] “In Germany, energy policy holds past and future challenges. In June 2011, we ended a long and very controversial debate on energy policy. We ended up with very ambitious goals. The almost unanimous vote was historical. It was almost impossible to believe. We had always had a very diverse debate since Chernobyl [the catastrophic nuclear power accident in Ukraine in 1986 that necessitated the total evacuation of the city of Pripyat and the surrounding districts]. With the major change in government in 2008, with a Green and Social Democrat [SPD http://www.spiegel.de/international/germany/where-do-they-stand-a-quick-guide-to-germany-s-political-parties-a-651388.html ] majority, we got Phase 1, then the Renewable Energy Act (EEG, Erneuerbare-Energien-Gesetz http://www.bmu.de/en/service/publications/downloads/details/artikel/renewable-energy-sources-act-eeg-2009/) – which was also controversial at that time.”

“[We] created the Feed-In Tariff [FIT] – an incredible success story. Over roughly ten years, the Renewable Energy share stands at 25% of power generation as of today. And of that 25%, 50% of that is in the hands of private people and farmers. This is why it has received political support. The owners of the windmills, biomass generators […] are not only producers, they are also voters. At the start, there was opposition from Conservatives [German conservative right-of-centre politicians – CDU http://www.spiegel.de/international/germany/where-do-they-stand-a-quick-guide-to-germany-s-political-parties-a-651388.html], but companies in their own constituencies said, “We can earn money with this” […] Renewable Energy receives very wide support. This is very different from nuclear power.”

“The Conservatives and Liberals [German free market neoliberal politicians – FDP http://www.spiegel.de/international/germany/where-do-they-stand-a-quick-guide-to-germany-s-political-parties-a-651388.html ] promised that after the 2009 elections if the coalition won there would be lifetime extensions [on existing nuclear reactors – allowing them to continue operating after their originally designed safe lives]. But they didn’t have a plan ready. They made [announcements] in December 2010 [extending reactor lives out to 2045 http://www.world-nuclear-news.org/IT-German_plant_life_extension_law_passed-2911107.html ] but this was against the public [opinion]. It only lasted for a few weeks, because Fukushima happened [ http://www.bloomberg.com/news/2011-03-14/germany-suspends-plan-to-extend-life-of-nuclear-power-plants-merkel-says.html ]. Our Government realised what it meant for their own policy. They were able to explain Chernobyl [the meltdown accident at Pripyat in the Ukraine in 1986] as Communist [regime] mismanagement, but the meltdown of three reactors at Fukushima, in a technologically advance country…the Government immediately changed position, and it led to a very big [wide] consensus. In June 2011, the opposition and the Government [decided for] Renewable Energy.”

“In the original [Energiewende] plan of 2000, phaseout of nuclear was to be by 2022, and in the next decades, the fossil generators would convert to Renewable Energy. When created the FIT in 2000 – all Renewable Energy [technologies] had the same starting line [the same levels of subsidy]. The FIT is not a permanent subsidy – it helps these technologies to be introduced to markets. The winners are clearly wind power and solar power – others maybe [remain] too expensive. Biomass is now reaching a sustainability limit [not enough feedstocks for expansion]. It is not going to be posssible to increase biomass or hydropower much over today. Geothermal energy – never came up. Wind and solar power prices decreased dramatically. We have enough of that. The features – have to deal with […] weather-dependent and solar power is not flexible to demand. Second – also very variable. Very capital-intensive [for investment phase] but marginal costs [of operation] are negligible. One you’ve invested, put all the money you need on the table, there are no costs over the following decades.”

“These features [of Renewable Energies] mean it is going to be a complete change in energy systems over the next decades. 25% of demand – happened much faster than anticipated in 2000. The first 25% is one story. The next 25% is another story. 25% is easy to integrate. Very robust. The next 25% – as you can imagine – 50% of the system – this is the real challenge of the Energiewende – synchronising production of solar and wind with demand of customers. How to balance demand and supply ? How to minimise the costs [of that] – [reduce] in a free European Union energy market ? There’s the technology – and on the other hand, the market. On the technology side need much more flexible supply. With FIT […] Baseload is not a word that describes supply – it describes demand. With marginal costs of zero, they [utilising power from renewable energies] come first – they are pushing traditional fossil fuels out of baseload. The operating hours of traditional baseload generators are decreasing. [We will need] not only adjustments to demand, but also the variable sources. Ten years ahead we will not have any baseload. We will still need 6,000 hours a year generators. They’re there – that’s gas. [We also need] a market design to enable [this].”

“Second – we need [new/larger] transmission lines. That’s something that really needs to happen. The bigger [wider] the area you connect, the bigger [better, more even] the balance. Not only talking about Germany – also Denmark, the Netherlands, Scandinavia – the better we’re connected, the better to balance. [The history of] the market in almost all countries – generators [power stations] were built under state regulation on the basis of monopolies. After the deregulation in the 1990s, the [power sector changed to work] on the basis of least operating costs. [The power was supplied] always by those generators of least operation cost – makes sense. All these have marginal costs – that is, fuel. When you introduce lots of Renewable Energy with a marginal cost of zero, the prices on the wholesale market have come down significantly, from 95 to 50 Euro per MWh. This has been caused not only by Renewable Energy – but it has been mainly Renewable Energy – pushing out the more expensive generators.”

“This creates a problem, as you need backup capacity – when the sun isn’t shining and the wind isn’t blowing. There have been arguments/debates about the capacity market we need – an intelligent system – not very expensive – to make sure to backup when wind and solar are not available. We also need a system to support the Energiewende over the next decades. FIT was good for 15 years, but answers of the past are not necessarily correct for the future. It is always argued very strongly that for Germany this is not to renationalise energy policy. This Energiewende is much less costly if we do it with our neighbours. It’s too controversial at the European Union [EU] – but [we are/having] encouraging discussions with neighbouring countries – to the benefit of everybody – to put into reality the EU energy market. We need flexibility of generators, but also flexibility of demand side. [We have asked the German] States [Länder] – are you able to shift your peak [demand] by six hours – a real part of the solution. [We need to] move away from switch [on] and forget. [To those detractors of the Energiewende] if look at the opposition [views] there is no reasonable balance of money in and out. One day we will be using all our renewable electricity generation – for example, using electricity for transport, but for now [we need to export].”

…TO BE CONTINUED

Natural Gas in the UK

The contribution of coal-fired power generation to the UK’s domestic electrical energy supply appears to have increased recently, according to the December 2012 “Energy Trends” released by the Department of Energy and Climate Change. This is most likely due to coal plants using up their remaining allotted operational hours until they need to retire.
It could also be due to a quirk of the international markets – coal availability has increased because of gas glut conditions in the USA leading to higher coal exports. Combatting the use of coal in power generation is a global struggle that still needs to be won, but in the UK, it is planned that low carbon generation will begin to gain ascendance.

The transition to lower carbon energy in Britain relies on getting the Natural Gas strategy right. With the imminent closure of coal-fired power plant, the probable decommissioning of several nuclear reactors, and the small tranche of overall supply coming from renewable resources, Natural Gas needs to be providing a greater overall percentage of electricity in the grid. But an increasing amount of this will be imported, since indigenous production is dropping, and this is putting the UK’s economy at risk of high prices and gas scarcity.

Demand for electricity for the most part changes by a few percentage points a year, but the overall trend is to creep upwards (see Chart 4, here). People have made changes to their lighting power consumption, but this has been compensated for by an increase in power used by “gadgets” (see Chart 4, here). There is not much that can be done to suppress power consumption. Since power generation must increasingly coming from renewable resources and Natural Gas combustion, this implies strong competition between the demand for gas for heating and the demand gas for electricity. Electricity generation is key to the economy, so the power sector will win any competition for gas supplies. If competition for Natural Gas is strong, and since we don’t have much national gas storage, we can expect higher seasonal imports and therefore, higher prices.

It is clear that improving building insulation across the board is critical in avoiding energy insecurity. I shall be checking the winter heat demand figures assiduously from now on, to determine if the Green Deal and related measures are working. If they don’t, the UK is in for heightened energy security risks, higher carbon emissions, and possibly much higher energy prices. The Green Deal simply has to work.

New Nuclear : Credibility Strained

As rumours and genuine information leak from central sources about the policy instruments and fiscal measures that will be signed into the United Kingdom’s Energy Bill, the subsidy support likely to be made available to new nuclear power is really straining credibility from my point of view. I am even more on the “incredulous” end of the spectrum of faith in the UK Government’s Energy Policy than I ever was before.

The national demand for electrical power is pretty constant, with annual variations of only a few percent. It was therefore easy to project that there could be a “power cliff” when supply would be curtailed from coal-fired generation under European legislation :-

https://www.gov.uk/government/organisations/department-of-energy-climate-change/series/energy-trends

http://www.bbc.co.uk/news/business-21501878
http://www.guardian.co.uk/money/2013/feb/19/ofgem-higher-household-energy-bills
http://www.telegraph.co.uk/finance/newsbysector/energy/9878281/Ofgem-boss-warns-of-higher-energy-prices-in-supply-roller-coaster.html
http://www.telegraph.co.uk/finance/newsbysector/energy/9878281/Ofgem-boss-warns-of-higher-energy-prices-in-supply-roller-coaster.html
http://metro.co.uk/2013/02/19/consumers-face-higher-energy-bills-as-the-uk-becomes-more-reliant-on-gas-imports-3503130/
https://www.gov.uk/government/news/decc-statement-on-alistair-buchanan-s-comments-on-energy-security-and-rising-gas-prices

The pat answer to how we should “Keep the Lights On” has been to wave the new nuclear fission reactor card. Look ! Shiny new toys. Keep us in power for yonks ! And hidden a little behind this fan of aces and jokers, a get-out-of-jail free card from the Coal monopoly – Carbon Capture and Storage or CCS. Buy into this, and we could have hundreds more years of clean power from coal, by pumping nasty carbon dioxide under the sea bed.

Now, here’s where the answers are just plain wrong : new nuclear power cannot be brought into the National Grid before the early 2020s at the very earliest. And options for CCS are still in the balance, being weighed and vetted, and very unlikely to clean up much of the black stuff until well past 2025.

When put through my best onboard guesstimiser, I came up with the above little graph in answer to the question : how soon can the UK build new power generation ? Since our “energy cliff” is likely to be in one of the winters of 2015 or 2016, and we’re not sure other countries we import from will have spare capacity, we have little option but to increase Natural Gas-fired power generation and go hell-for-leather with the wind and solar power deployment.

So no – it’s of no use promising to pay the new nuclear reactor bearer the sum of 40 or more years of subsidy in the form of guaranteed price for power under the scheme known as Contracts for Difference – they still won’t be delivering anything to cope with the “power drain” of the next few years. If this is written into the Electricity Market Reform, we could justifiably say this would destroy competition, and destroy any market, too, and be “central planning” by any other name – this level of subsidy is not exactly “technology-neutral” !

http://www.guardian.co.uk/business/2013/feb/19/edf-40-year-contract-nuclear-plant
http://www.telegraph.co.uk/news/uknews/9879257/Government-drawing-up-ludicrous-40-year-contracts-to-persuade-power-companies-to-go-nuclear.html

And offering the so-called Capacity Mechanism – a kind of top-up payment to keep old nuclear reactors running, warts and all – when really they should be decommissioned as they are reaching the end of their safe lives, is not a good option, in my book.

Offering the Capacity Mechanism to those who build new gas-fired power plant does make sense, however. If offshore wind power continues with its current trajectory and hits the big time in the next few years, and people want the cheap wind power instead of the gas, and the gas stations will be feeling they can’t run all the time, then the Capacity Mechanism will be vital to make sure the gas plant does get built to back up the wind power, and stays available to use on cold, still nights in February.

https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/66039/7103-energy-bill-capacity-market-impact-assessment.pdf
http://gastopowerjournal.com/regulationapolicy/item/1405-eurelectric-discards-eu-wide-capacity-mechanism-as-premature
http://www.eaem.co.uk/news/doubts-gas-strategy-will-lead-new-plants

Oh, people may complain about the idea of new “unabated” gas power plants, and insist they should be fitted with carbon capture, but new gas plants won’t run all the time in future, because renewable electricity generation will be cheaper, so forcing gas plant owners to pay for CCS seems like overkill to me. And, anyway, we will be decarbonising the gas supply, as we develop supplies of Renewable Gas.

I say forget the nuclear option – build the gas !

A Referendum for Energy

As I dodged the perfunctory little spots of snow yesterday, on my way down to Highbury and Islington underground train station, I passed a man who appeared to have jerky muscle control attempting to punch numbers on the keypad of a cash machine in the wall. He was missing, but he was grinning. A personal joke, perhaps. The only way he could get his money out of the bank to buy a pint of milk and a sliced loaf for his tea was to accurately tap his PIN number. But he wasn’t certain his body would let him. I threw him an enquiring glance, but he seemed too involved in trying to get control of his arms and legs to think of accepting help.

This, I felt, was a metaphor for the state of energy policy and planning in the United Kingdom – everybody in the industry and public sector has focus, but nobody appears to have much in the way of overall control – or even, sometimes, direction. I attended two meetings today setting out to address very different parts of the energy agenda : the social provision of energy services to the fuel-poor, and the impact that administrative devolution may have on reaching Britain’s Renewable Energy targets.

At St Luke’s Centre in Central Street in Islington, I heard from the SHINE team on the progress they are making in providing integrated social interventions to improve the quality of life for those who suffer fuel poverty in winter, where they need to spend more than 10% of their income on energy, and are vulnerable to extreme temperatures in both summer heatwaves and winter cold snaps. The Seasonal Health Interventions Network was winning a Community Footprint award from the National Energy Action charity for success in their ability to reach at-risk people through referrals for a basket of social needs, including fuel poverty. It was pointed out that people who struggle to pay energy bills are more likely to suffer a range of poverty problems, and that by linking up the social services and other agencies, one referral could lead to multiple problem-solving.

In an economy that is suffering signs of contraction, and with austerity measures being imposed, and increasing unemployment, it is clear that social services are being stretched, and yet need is still great, and statutory responsibility for handling poverty is still mostly a publicly-funded matter. By offering a “one-stop shop”, SHINE is able to offer people a range of energy conservation and efficiency services alongside fire safety and benefits checks and other help to make sure those in need are protected at home and get what they are entitled to. With 1 in 5 households meeting the fuel poverty criteria, there is clearly a lot of work to do. Hackney and Islington feel that the SHINE model could be useful to other London Boroughs, particularly as the Local Authority borders are porous.

We had a presentation on the Cold Weather Plan from Carl Petrokovsky working for the Department of Health, explaining how national action on cold weather planning is being organised, using Met Office weather forecasts to generate appropriate alert levels, in a similar way to heatwave alerts in summer – warnings that I understand could become much more important in future owing to the possible range of outcomes from climate change.

By way of some explanation – more global warming could mean significant warming for the UK. More UK warming could mean longer and, or, more frequent heated periods in summer weather, perhaps with higher temperatures. More UK warming could also mean more disturbances in an effect known as “blocking” where weather systems lock into place, in any season, potentially pinning the UK under a very hot or very cold mass of air for weeks on end. In addition, more UK warming could mean more precipitation – which would mean more rain in summer and more snow in winter.

Essentially, extremes in weather are public health issues, and particularly in winter, more people are likely to suffer hospitalisation from the extreme cold, or falls, or poor air quality from boiler fumes – and maybe end up in residential care. Much of this expensive change of life is preventable, as are many of the excess winter deaths due to cold. The risks of increasing severity in adverse conditions due to climate change are appropriately dealt with by addressing the waste of energy at home – targeting social goals can in effect contribute to meeting wider adaptational goals in overall energy consumption.

If the UK were to be treated as a single system, and the exports and imports of the most significant value analysed, the increasing net import of energy – the yawning gap in the balance of trade – would be seen in its true light – the country is becoming impoverished. Domestic, indigenously produced sources of energy urgently need to be developed. Policy instruments and measured designed to reinvigorate oil and gas exploration in the North Sea and over the whole UKCS – UK Continental Shelf – are not showing signs of improving production significantly. European-level policy on biofuels did not revolutionise European agriculture as regards energy cropping – although it did contribute to decimating Indonesian and Malaysian rainforest. The obvious logical end point of this kind of thought process is that we need vast amounts of new Renewable Energy to retain a functioning economy, given global financial, and therefore, trade capacity, weakness.

Many groups, both with the remit for public service and private enterprise oppose the deployment of wind and solar power, and even energy conservation measures such as building wall cladding. Commentators with access to major media platforms spread disinformation about the ability of Renewable Energy technologies to add value. In England, in particular, debates rage, and many hurdles are encountered. Yet within the United Kingdom as a whole, there are real indicators of progressive change, particularly in Scotland and Wales.

I picked up the threads of some of these advances by attending a PRASEG meeting on “Delivering Renewable Energy Under Devolution”, held at the Institution of Mechanical Engineers in Westminster, London; a tour to back up the launch of a new academic report that analyses performance of the devolved administrations and their counterpart in the English Government in Westminster. The conclusions pointed to something that I think could be very useful – if Scotland takes the referendum decision for independence, and continues to show strong leadership and business and community engagement in Renewable Energy deployment, the original UK Renewable Energy targets could be surpassed.

I ended the afternoon exchanging some perceptions with an academic from Northern Ireland. We shared that Eire and Northern Ireland could become virtually energy-independent – what with the Renewable Electricity it is possible to generate on the West Coast, and the Renewable Gas it is possible to produce from the island’s grass (amongst other things). We also discussed the tendency of England to suck energy out of its neighbour territories. I suggested that England had appropriated Scottish hydrocarbon resources, literally draining the Scottish North Sea dry of fossil fuels in exchange for token payments to the Western Isles, and suchlike. If Scotland leads on Renewable Energy and becomes independent, I suggested, the country could finally make back the wealth it lost to England. We also shared our views about the Republic of Ireland and Northern Ireland being asked to wire all their new Renewable Electricity to England, an announcement that has been waiting to happen for some time. England could also bleed Wales of green power with the same lines being installed to import green juice from across the Irish Sea.

I doubt that politics will completely nix progress on Renewable Energy deployment – the economics are rapidly becoming clear that clean, green power and gas are essential for the future. However, I would suggest we could expect some turbulence in the political sphere, as the English have to learn the hard way that they have a responsibility to rapidly increase their production of low carbon energy.

Asking the English if they want to break ties with the European Union, as David Cameron has suggested with this week’s news on a Referendum, is the most unworkable idea, I think. England, and in fact, all the individual countries of the United Kingdom, need close participation in Europe, to join in with the development of new European energy networks, in order to overcome the risks of economic collapse. It may happen that Scotland, and perhaps Wales, even, separate themselves from any increasing English isolation and join the great pan-Europe energy projects in their own right. Their economies may stabilise and improve, while the fortunes of England may tumble, as those with decision-making powers, crony influence and web logs in the Daily Telegraph and Daily Mail, resist the net benefits of the low carbon energy revolution.

[ Many thanks to Simon and all at the Unity Kitchen at St Luke’s Centre, and the handsomely reviving Unity Latte, and a big hi to all the lunching ladies and gents with whom I shared opinions on the chunkiness of the soup of the day and the correct identification of the vegetables in it. ]

Other Snapshots of Yesterday #1 : Approached by short woman with a notebook in Parliament Square, pointing out to me a handwritten list that included the line “Big Ben”. I pointed at the clock tower and started to explain. The titchy tourist apologised for non-comprehension by saying, “French”, so then I explained the feature attraction to her in French, which I think quite surprised her. We are all European.

Other Snapshots of Yesterday #2 : Spoke with an Austrian academic by the fire for coffee at IMechE, One Birdcage Walk, about the odd attitudes as regards gun ownership in the United States, and the American tendency to collective, cohort behaviour. I suggested that this tendency could be useful, as the levels of progressive political thinking, for instance about drone warfare, could put an end to the practice. When aerial bombardment was first conducted, it should have been challenged in law at that point. We are all Europeans.

Other Snapshots of Yesterday #3 : Met a very creative Belgian from Gent, living in London. We are all European.

Other Snapshots of Yesterday #4 : We Europeans, we are all so civilised. We think that we need to heat venues for meetings, so that people feel comfortable. Levels of comfort are different for different people, but the lack of informed agreement means that the default setting for temperature always ends up being too high. The St Luke’s Centre meeting room was at roughly 23.5 degrees C when I arrived, and roughly 25 degrees C with all the visitors in the room. I shared with a co-attendee that my personal maximum operating temperature is around 19 degrees C. She thought that was fine for night-time. The IMechE venue on the 2nd floor was roughly 19 – 20 degrees C, but the basement was roughly 24 degrees C. Since one degree Celsius of temperature reduction can knock about 10% of the winter heating bill, why are public meetings about energy not more conscious of adjusting their surroundings ?

Fossil Fuel Company Obligation

I knew I knew her from somewhere, Ms Henrietta Lynch PhD, from the UCL Energy Institute. I had the feeling we’d sheltered together from the rain/police helicopters at a Climate Camp somewhere, but she was fairly convinced we’d crossed paths at the Frontline Club, where, if she was recalling correctly, I probably tried to pick an “difference of opinion” with somebody, which she would have remembered as more than a little awkward.

Why ? Because when I’m surrounded by smart people displaying self-confidence, I sometimes feel pushed to try to irritate them out of any complacency they may be harbouring. Niceness can give me itchy feet, or rather emotional hives, and I don’t see why others should feel settled when I feel all scratchy.

So here we were at a Parliamentary event, and I was on my best behaviour, neither challenging nor remonstrative, but all the same, I felt the urge to engage Henrietta in disagreement. It was nothing personal, really. It was all about cognition, perception – worldviews, even. After my usual gauche preamble, I snuck in with a barbed gambit, “The United Nations climate change process has completely failed.” A shadow of anxiety crossed her brow. “Oh, I wouldn’t say that”, said Henrietta Lynch. She went on to recount for me the validity of the UN climate talks, and how much further we are because of the Kyoto Protocol. “Ruined by Article 12”, I said, “…the flexible mechanisms”. She said I shouldn’t underestimate the effort that had gone into getting everybody into the room to talk about a response to climate change. I said, it would be useful if the delegates to the climate talks had power of some kind – executive decision-making status. Henrietta insisted that delegates to the climate talks do indeed have authority.

I said that the really significant players, the oil and gas production companies, were not at the climate talks, and that there would be no progress until they were. I said that the last time the UN really consulted the oil and gas companies was in the 1990s, and the outcome of that was proposals for carbon trading and Carbon Capture and Storage. Each year, I said, the adminstration of the climate talks did the diplomatic equivalent of passing round a busker’s hat to the national delegations, begging for commitments to carbon emissions reductions. Besides leading to squabbling and game-playing, the country representatives do not even have the practical means of achieving these changes. Instead, I said, the energy production companies should be summoned to the climate talks and given obligations – to decarbonise the energy resources they sell, and to increase their production of renewable and sustainable energy. I said that without that, there will be no progress.

Oil and gas companies always point to energy demand as their get-out-of-jail-free card – they insist that while the world demands fossil fuel energy, they, the energy resource companies, are being responsible in producing it. Their economists say that consumer behaviour can be modified by pricing carbon dioxide emissions, and yet the vast majority of the energy they supply is full of embedded carbon – there is no greener choice. They know that it is impossible to set an economically significant carbon price in any form, that there are too many forces against it, and that any behavioural “signal” from carbon pricing is likely to be swallowed up by volatility in the prices of fossil fuels, and tax revenue demands. Most crucially, the oil and gas companies know that fossil fuels will remain essential for transport vehicles for some time, as it will be a long, hard struggle to replace all the drive engines in the world, and high volumes of transport are essential because of the globalised nature of trade.

Oil and gas companies have made token handwaving gestures towards sustainability. BP has spent roughly 5% of its annual budget on renewable energy, although it’s dropped its solar power division, and has now dropped its cellulosic ethanol facility. BP says that it will “instead will focus on research and development“. Research and development into what, precisely ? Improved oil and gas drilling for harsh environmental conditions like the Arctic Ocean or sub-sea high depth, high pressure fields ? How many renewable energy pipedreams are exhausted ? BP are willing to take competitors to court over biobutanol, but even advanced techniques to produce this biofuel are not yet commercialised.

So, the oil and gas majors do not appear to be serious about renewable energy, but are they also in denial about fossil fuels ? All business school graduates, anybody who has studied for an MBA or attended an economics course, they all come out with the mantra that technology will deliver, that innovation in technology will race ahead of the problems. Yet, as the rolling disasters of the multiple Fukushima Dai-ichi nuclear reactor accident and the continuing oil spill in the Gulf of Mexico from the blowout of the Horizon Deepwater drilling rig show, technological advancement ain’t what it used to be. Put not your faith in technology, for engineering may fail.

For the oil and gas companies to be going after the development of unconventional fossil fuel resources is an unspoken, tacit admission of failure – not only of holding a bold vision of change, but also a demonstration of the failure of being able to increase production from discoveries of more conventional petroleum and Natural Gas. It is true that oil and gas exploration has improved, and that technology to drill for oil and gas has improved, but it could be said that the halting pace of technological advancement means that the growth in fossil fuel exploitation is not strong enough to meet projected demand. Technology does not always make things more efficient – the basic fossil fuel resources are getting much poorer, and perhaps scarcer.

There is some evidence that global petroleum crude oil production rates have peaked, despite BP adding significant South American heavy oil fields to their annual Statistical Review of World Energy within the last few years. Some of the jitteriness in total production is down to geopolitical factors, like the chokehold that the United States has imposed on Iran via economic sanctions, and some of it is related to consumption patterns, but there is an element of resource failure, as indicated in this IMF report from last month :-

“Over the past decade the world economy has experienced a persistent increase in oil prices. While part of this may have been due to continued rapid demand growth in emerging markets, stagnant supply also played a major role. Figure 1 shows the sequence of downward shifts in the trend growth rate of world oil production since the late 1960s. The latest trend break occurred in late 2005, when the average growth rate of 1.8 percent per annum of the 1981-2005 period could no longer be sustained, and production entered a fluctuating plateau that it has maintained ever since.”

There is an increasing amount of evidence and projection of Peak Oil from diverse sources, so perhaps our attention should be drawn to it. If this type of analysis is to be trusted, regardless of whether the oil and gas companies pursue unconventional oil, change is inevitable. Bringing the oil and gas companies onto the world stage at the United Nations climate talks and demanding a reduction in fossil fuel production would be an straightford thing to make commitments to – as it is happening already. A huge facesaver in many respects – except that it does not answer the energy security question – how the world is going to be able to adapt to falling fossil fuel supplies. You see, besides Peak Oil, there are other peaks to contend with – it will not simply be a matter of exchanging one energy resource with another.

Can the oil and gas companies hold on by selling us Natural Gas to replace failing oil ? Only if Natural Gas itself is not peaking. As the oil and gas companies drill deeper, more Natural Gas is likely to be found than petroleum oil, but because they are so often associated, Peak Oil is likely to be followed quite sharply by Peak Natural Gas. But does anybody in the oil and gas companies really know ? And if they did, would they be able to let their shareholders and world’s media know about it without their businesses crumbling ?

What I want to know is : with all the skills of dialogue, collaboration, and facilitation that the human race has developed, why can Civil Society not engage the oil and gas companies in productive communication on these problems ?

Futureproof Renewable Sustainable Energy #3

PRASEG Annual Conference 2012
http://www.praseg.org.uk/save-the-date-praseg-annual-conference/
“After EMR: What future for renewable and sustainable energy?”
31st October 2012
One Birdcage Walk, Westminster
Twitter hashtag : #PRASEG12

Addendum to Part 1 and Part 2

Dr Mayer Hillman of the Policy Studies Institute has contributed a summary of the questions that he raised at the PRASEG Annual Conference on Wednesday 31st October 2012, together with more background detail, and I am pleased to add this to the record of the day, and wish him a happy 82nd year !


PRASEG Conference 31 October 2012

Questions raised by Dr. Mayer Hillman (Policy Studies Institute) in the following sessions

The Future of Renewable and Sustainable Energy: Panel Session

I can only assume from the statements of each of the panellists of this session that their point of departure is that consumers have an inalienable right to engage in as much energy-intensive activity as they wish. Thereafter, it is the Government’s responsibility to aim to meet as much of the consequent demand as possible, subject only to doing so in the most cost-effective and least environmentally-damaging ways possible.

However as Laura Sandys pointed out in her introduction, “policy must reflect the realities of the world we live in”. The most fundamental of these realities is that the planet’s atmosphere only has a finite capacity to safely absorb further greenhouse gas emissions. Surely, that must be the point of departure for policy if we are to ensure a long-term future for life on earth. That future can only be assured by the adoption of zero-carbon lifestyles as soon as conceivably possible. Simply aiming to increase the contribution of the renewables and of the efficiency with which fossil fuels are used is clearly bound to prove inadequate as the process of climate change is already irreversible.

Demand side policy: The missing element?: Panel Session

Given that the process of climate change cannot now be reversed, at best only slowed down by our actions, continued development of means of matching the predicted huge increase in energy demand whilst minimising its contribution to climate change is seen to be the logical way forward. However, any burning of fossil fuels adds to the already excessive concentration of CO2 in the atmosphere.

The only solution now is the one advocated by the Global Commons Institute since 1996. The extent of GCI’s success, both national and international, is very apparent by looking at the Institute’s website http://www.gci.org.uk. Contraction and Convergence is the framework, that is the contraction of greenhouse gases to a safe level and their convergence to equal per capita shares across the world’s population.

Our chair for this session has been a supporter for several years. Why cannot the panellists see this to be the way ahead rather than taking small steps which, in aggregate, cannot conceivably prevent catastrophe in the longer term?

Keynote address by the Right Hon. Edward Davey, Secretary of State, DECC

The Secretary-of-State has just confirmed the fears that I expressed in the first session of this conference, namely that he sees it to be the Government’s responsibility, if not duty, to ensure that, if at all possible, the burgeoning growth in energy demand predicted for the future is met. To that end, he has just outlined stages of a strategy intended to enable comparisons to be made on “a level playing field” between different types of electricity generation as energy is increasingly likely to be supplied in the form of electricity. To do so, in his view, it is essential that a market price for the release of a tonne of CO2 emissions into the atmosphere is determined.

I have two great reservations about such a process. First, if the price is to cover all the costs incurred then, for instance, the real costs of large scale migration of vast populations fleeing the regions that will be rendered uninhabitable by climate change caused by the increase in the concentration of CO2 in the atmosphere (with more than 100 years continuous impacts) would have to be included. I fail to see how that could be realistically established, let alone its moral implications being acceptable.

Second, we know that we have already passed the stage that would have allowed us to reverse the process of global climate change – just consider the melting of the Arctic ice cap. That market price for the tonne of CO2 emissions, insofar as it could be determined, would have to rise exponentially owing to the planet’s non-negotiable capacity to safely absorb further emissions. Yet the market requires a fixed price to enable decisions affecting the future to be made.


Cross-Motivation

A fully renewable energy future is not only possible, it is inevitable.

We need to maximise the roll out of wind and solar renewable electricity systems, and at the same time fully develop marine, geothermal and hydropower energy, and of course, energy storage.

We need strong energy conservation and energy efficiency directives to be enacted in every state, sector and region.

But we need to get from here to there. It requires the application of personal energy from all – from governments, from industry, from society.

In arguing for focus on the development of Renewable Gas, which I believe can and will be a bridge from here to a fully renewable energy future, I am making an appeal to those who view themselves as environmentalists, and also an appeal to those who view themselves as part of the energy industry.

Those who cast themselves as the “good guys”, those who want to protect the environment from the ravages of the energy industry, have for decades set themselves in opposition, politically and socially, to those in the energy production and supply sectors, and this has created a wall of negativity, a block to progress in many areas.

I would ask you to accept the situation we find ourselves in – even those who live off-grid and who have very low personal energy and material consumption – we are all dependent on the energy industry – we have a massive fossil fuel infrastructure, and companies that wield immense political power, and this cannot be changed overnight by some revolutionary activity, or by pulling public theatrical stunts.

It definitely cannot be changed by accusation, finger-pointing and blame. We are not going to wake up tomorrow in a zero carbon world. There needs to be a transition – there needs to be a vision and a will. Instead of a depressive, negative, cynical assessment of today that erects and maintains barriers to co-operation, we need optimistic, positive understanding.

In the past there has been naievety – and some environmentalists have been taken in by public relations greenwash. This is not that. The kind of propaganda used to maintain market share for the energy industry continues to prevent and poison good communications and trust. I no more believe in the magic snuff of the shale gas “game changer” than I believe in the existence of goblins and fairies. The shine on the nuclear “renaissance” wore off ever before it was buffed up. And the hopeless dream of Carbon Capture and Storage (CCS) becoming a global-scale solution for carbon emissions is about as realistic to me as the geoengineering described in Tolkein’s “The Lord of the Rings”.

Nuclear power and CCS are actually about mining and concrete construction – they’re not energy or climate solutions. I’m not taken in by token gestures of a small slice of wind or solar power or the promise of a segment of biofuels from large oil and gas companies. Public relations and lobbying are the lowest form of faked, usurping power – but simply attacking brands will fail to make real change. I think honesty, realism and pragmatism are the way forward – and there is nothing more practical than pushing for Renewable Gas to back up the accelerated deployment of renewable electricity to its fullest scale.

My appeal to those in control of energy provision is – to see through the fog to the unstoppable. State support, both political and financial, of new energy technologies and infrastructure has to be a short- to medium-term goal – because of the volatility of the economy, and the demands of your shareholders. The need to build public support for new energy means that we the citizens must all be offered the opportunity to own energy – and so that means building a common purpose between the energy sector and society – and that purpose must be Zero Carbon.

There is and will continue to be a porous border between the energy industry and governments – energy is a social utility of high political value. However, the privilege and access that this provides should not automatically mean that the energy industry can plunder public coffers for their own profit. What contribution can the energy industry make to society – apart from the provision of energy at cost – in addition to the subsidies ? Energy, being so vital to the economy, will mean that the energy sector will continue to survive, but it has to change its shape.

You can dance around the facts, but climate change is hitting home, and there is no point in continuing to be in denial about Peak Oil, Peak Coal and Peak Natural Gas. These are genuine risks, not only to the planet, or its people, but also your business plans. We need to be using less energy overall, and less carbon energy within the eventual envelope of energy consumption. So the energy sector needs to move away from maximising sales of energy to optimising sales of energy services and selling low carbon energy systems, power and fuels.

You would be wrong to dismiss me as an “eco warrior” – I’m an engineer – and I’ve always believed in co-operation, expertise, professionalism, technology and industrial prowess. What impresses me is low carbon energy deployment and zero carbon energy research. Progress is in evidence, and it is showing the way to the future. Realistically speaking, in 20 years’ time, nobody will be able to dismiss the risks and threats of climate change and energy insecurity – the evidence accumulates. We, the zero carbon visionaries, are not going to stop talking about this and acting on it – as time goes by, the reasons for all to engage with these issues will increase, regardless of efforts to distract.

Nothing is perfect. I no more believe in a green utopia than I do in unicorns. But without reacting to climate change and energy insecurity, the stock market will not carry you, even though the governments must for the mean time, until clean and green energy engineering and service organisations rise up to replace you. Lobbying for pretences will ultimately fail – fail not only governments or peoples, but you. You, the energy industry, must start acting for the long-term or you will be ousted. As your CEOs retire, younger heads will fill leadership shoes – and younger minds know and accept the perils of climate change and energy insecurity.

This is the evolution, not revolution. It is time to publicly admit that you do know that economically recoverable fossil fuels are limited, and that climate change is as dangerous to your business models as it is to human settlements and the biosphere. Admit it in a way that points to a sustainable future – for you and the climate. The pollution of economically borderline unconventional fuels is wrong and avoidable – what we need are renewable energies, energy conservation and energy efficiency. One without the others is not enough.

How can your business succeed ? In selling renewable energy, energy conservation and energy efficiency. You have to sell the management of energy. You have to be genuinely “world class” and show us how. No more spills, blowouts and emissions. No more tokenistic sponsorship of arts, culture and sports. The veneer of respectability is wearing thin.

As an engineer, I understand the problems of system management – all things within the boundary wall need to be considered and dealt with. One thing is certain, however. Everything is within the walls. And that means that all must change.


http://houstonfeldenkrais.com/tag/cross-motivation/ “…Of course, the money would be great. But adding in the reward/punishment dimension is a sure way to sabotage brilliant performance. Moshe Feldenkrais observed that when one is striving to meet an externally imposed goal, the spine shortens, muscles tense, and the body (and mind) actually works against itself. He called this “cross motivation,” and it occurs when one forsakes one’s internal truth to maintain external equilibrium. There are lots of examples of this: the child stops doing what she’s doing because of the fear of losing parental approval, love, protection. The employee cooks the books to keep his job. The candidate delivers the sound bite, and dies a little inside. Feldenkrais attributed most of our human mental and physical difficulties to the problem of cross motivation. If you watch Michael Phelps swim, you can’t help but notice that he makes it look easy. He is clearly strong and powerful, but all of his strength and power are focused on moving him through the water with the greatest speed and efficiency. There’s no wasted effort, no struggle, no straining. He is free of cross-motivation! Would straining make him faster? Of course not. Unnecessary muscular effort would make him less buoyant, less mobile, less flexible. Will dangling a million dollars at the finish line make him swim faster? Probably just the opposite, unless Michael Phelps has some great inner resources to draw upon. The young Mr. Phelps has already learned how to tune out a lot of the hype. He’ll need to rely on “the cultivation of detachment,” the ability to care without caring…”

Greenpeace Windgas : Renewable Hydrogen

http://www.lngworldnews.com/gasunie-greenpeace-energy-choose-suderburg-as-windgas-location-germany/
http://www.greenpeace-energy.de/presse/pressedetails/article/neuer-schwung-fuer-die-energiewende-windgas-made-in-suderburg.html
http://www.greenpeace-energy.de/windgas.html
http://vimeo.com/44094925

Enron, Fudging and the Magic Flute

Allegedly, the United Kingdom is about to break free from the Dark Ages of subsidies, and enter the glorious light of a free and light-touch regulated, competitive electricity market.

The Electricity Market Reform is being sold to us as the way to create a level playing field between low carbon electricity generation technologies, whether they be established or new, baseload or variable, costly-up-front or cheap-and-quick-to-grid.


Personally, I do not accept the mythology of the Free Market. I do not accept that a fully competitive, privatised energy sector can be delivered, regardless of the mechanisms proposed. The Electricity Market Reform is less Englightenment and more Obscurantism, in my view – the call of the Magic Flute is going to fall on deaf ears.

Who will play the pipe ? Who will call the tune ? Who will be the Counterparty ?
At the National Grid’s Future Energy Scenarios day conference-seminar on Thursday 27th September 2012, I listened carefully to several spokesmen from the companies, quangos and agencies deny that they would have anything to do with determining, underwriting or administering deals for the EMR’s proposed “Contracts for Difference” (CfD) – essentially setting a guaranteed lowest price for selling electricity to the grid, regardless of market movement. Mark Ripley of the EMR team at National Grid was very clear “National Grid will not be the contractual counterparty for the CfD”. I asked Jonathan Brearley of the UK Government Department of Energy and Climate Change (DECC) at a break who would be independent enough to set the “strike price” – the minimum price for which electricity generators could expect to sell electricity ? He suggested that perhaps the UK Government would set up an independent governing body – gesturing at arm’s length. I asked him rhetorically who could reasonably be expected to be seconded to this new quango – how could they be truly independent…I did not get an opportunity to ask how the CfD revenues and payouts would be administered. I didn’t know at that time about the rumours that Ofgem – the current electricity generation quango regulator – could be closed down under a new Labour Government.

The shadow cast by the nuclear industry
During the presentation by Jonathan Brearley of DECC, he indicated that back room discussions are going on between large potential electricity generation investors and the UK Government. Even before the ink has hit the paper on the EMR draft, it seems the UK Government is inviting large investors to come and talk to them about deals for guaranteed generation sales prices. As far as my notes indicate, he said “The first nuclear project has already approached us for a contract.” I asked him directly in the break if this kind of pre-legislation arrangement was going to allow the nuclear industry to cream off subsidies. He denied that Contracts for Difference would be allocated for current nuclear power plants. He did not admit that there are strong indications that the so-called Capacity Mechanism of the EMR could be applied, propping up the profits of the nuclear power plants already running, and encouraging them to apply for extension licences for their cracked reactors to keep running after they should have been shut down for safety reasons.

After the National Grid meeting, I went to an EcoConnect meeting, where Eric Machiels of Infinis said, in reference to the strong influence of EdF (Electricite de France) in proposing new nuclear reactors in the UK, “The EMR was set up to meet two requirements. [First] to justify incredibly high investments. [And] nuclear – if you need to invest £10 billion or more, 10 years away, you need regulatory certainty…[But you have to know, decisions on nuclear development] will rely on decisions made in the Elysee Palace and not in Number 10.”

Well, it seems clear that the steer is still towards the UK taxpayers and billpayers stumping up to support the ailing French atomic power fleet.

A bit of a big fudge
There is no reason to believe that the Curse of Enron will not haunt the UK energy trading halls if the EMR goes ahead with its various microeconomic policies. Everybody will play for profits, and the strength of over-competitive behaviour between the current market actors will not encourage or permit new market entrants.

At the EcoConnect meeting, Diane Dowdell of Tradelink Solutions warned of the risks of going back to the kind of electricity markets of former decades, “Unless you worked under the Pool, you wouldn’t know how it works. It is a derivative…DECC need to look at Ireland – their Pool system has been utterly destroyed. Please don’t follow in the footsteps of Ireland – get the balancing right.”

The big issue is the macroeconomic need to incentivise investment in new electricity generation plant and infrastructure – something that will not be achieved by flipping microeconomic market trading conditions to benefit low carbon generators. How can new low carbon generators come onto the grid ? By placing focus on investment decisions. New generation has to clear a higher hurdle than how much it can sell green power for on the half-hourly market. Funds and financing are not going to be directed to choose low carbon investment just because marginal costs (the Carbon Floor Price and the European Union Emissions Trading Scheme) are applied to high carbon players already in the market. The guarantees of profits into the future from the institution of Contracts for Difference (Feed in Tariff) and the Capacity Mechanism will maybe trigger a slice of investment in new nuclear power, but it won’t ensure that new gas-fired power plants are built with Carbon Capture and Storage.

At the EcoConnect meeting later on, another DECC man reported back on the UK Government’s call for evidence on the EMR. DECC’s Matt Coyne said that amongst the conclusions from the consultation with industry there were concerns about the conditions for Power Purchase Agreements (PPAs) under the EMR. (Securing a PPA is the guarantee that investors need to be able to commit to backing new electricity generation capacity). He said that developers are finding it hard to secure finance for new generation investment and that it was a widely-held view that the EMR would not improve that, although he said that “it is our view that the Contracts for Difference will improve things.” Other people at the meeting were not so sure. Diane Dowdell said, “I desperately hope the EMR works. It’s got to work. [Conditions] seem to be edging out the small- and mid-sized players.” Eric Machiels said, “The Big Six vertically integrated energy suppliers are in the best position to retain their position.”

In my notes, I scribbled that Michael Ware, a dealmaking matchmaker for renewable energy projects, offered the view that “Government does resemble toddlers driving a steam train – there are lots of buttons to push…[The UK is] just a rainy little island at the edge of Europe. Capital is truly international. It all feels much easier to do business elsewhere. [The EMR looks] almost designed to turn off investors.”

There were several calls to retain the Renewables Obligation – to oblige energy suppliers to keep signing up new clean power from smaller players if they couldn’t make it themselves.

London Skies

Image Credit : epeigne37

Yesterday evening, I was caught by the intensity of the London Sky – there was little air movement in most of the lower summer-heat space above the city, and virtually no cloud except very high strands and sprurls and bones and smears.

Most of the cloud was clearly the result of aeroplane contrails – numerable to small children and their educational grandparents on various buses.

As the sun began to set, or rather, as the Earth rolled to curve away from facing the sun, the sky took on the colour of bright duck egg blue with a hint of pale green, and the sprays of high contrail-cloud took on a glorious orange-fuchsia colour with flashes of gold, bronze and vanadium reds, fading slowly to chromium reds as twilight approached.

At a certain moment, I understood something – as I watched an aeroplane high up, make its way west to Heathrow, the angle of the sunset showed its contrail as a murky ink, messing up the rest of the clouds as it brushstroked its way along, with its slate and muddy hues. As I watched, other parts of the clouds began to appear brown and grey, and since I knew that most of the cloud was jet engine exhaust that hadn’t moved because of the lack of high winds, I finally realised I was watching dirt, high up in the troposphere – careless, unthinking toxic waste. Continue reading London Skies

Energy Together : I’m just getting warmed up

The human race – we have to solve energy together. And to do that, we need to harness all our personal, purposeful, positive energies, and let me tell you, personally, I feel electric – and I’m only just getting warmed up.

So let’s hear less of the nonsense from authoritatively-accredited people who want to put a dampener on green energy, who say that saving energy cannot, simply cannot be done, sigh, sigh, sigh, collective groan. We have so much energy together, we can do this.

We have the will power, the staying power, the investment power, and we will navigate the obstacles in our path.

Let’s not waste any more time on expensive trinkets, and iddy-biddy fancies with high unit costs and low compatibility to the future. Yes, I’m talking nuclear power. I’m talking the nobody-really-wants-to-do-it-and-nobody-thinks-it-can-be-cheap-enough-to-work-at-scale Carbon Capture and Storage. And yes, I’m talking carbon markets – tell me again, where are they now ? Oh yes, still in the starting blocks.

And don’t even start to talk about pricing carbon to me – in this world of rollercoaster, highly volatile energy prices, what on Earth could costing or taxing carbon actually achieve ? And fusion power ? Nah, mate, forget it. It’s been 50 years away for the last 50 years.

Shale gas, oil from shales, tar sands, coal bed methane collection and underground coal gasification are once-abandoned messy ideas from way back. They’re still messy, and they’re still retro, and they’re not going to get us anywhere. If the United States of America want to completely ruin their lithosphere, well, that’s up to them, but don’t come around here toxifying our aquifers and poisoning our European trees !

What we need is marine energy, geothermal energy, hydropower, solar power, wind power, and Renewable Gas, because gaseous fuels are so flexible and store-able and can come from many, many processes. And we need the next optimistic generation of leaders to push through the administration ceiling and get green energy policy really rolling, attracting all the green investment will.

If I were a power plant, I would be cranking out the current and making everything shine very, very brightly just now.