During the proceedings, there were liberal doses of hints at that the Chancellor of the Exchequer is about to freeze the Carbon Price Floor – the central functioning carbon pricing policy in the UK (since the EU Emissions Trading Scheme “isn’t working”).
All of the more expensive low carbon energy technologies rely on a progressively heavier price for carbon emissions to make their solutions more attractive.
Where does this leave the prospects for Carbon Capture and Storage in the 2030s ? Initial technology-launching subsidies will have been dropped, and the Contracts for Difference will have been ground down into obscurity. So how will CCS keep afloat ? It’s always going to remain more expensive than other technology options to prevent atmospheric carbon dioxide emissions, so it needs some prop.
What CCS needs is some Added Value. It will come partly from EOR – Enhanced Oil Recovery, as pumping carbon dioxide down depleting oil and gas fields will help stimulate a few percent of extra production.
But what will really make the difference is using carbon dioxide to make new fuel. That’s the wonder of Renewable Gas – it will be able to provide a valued product for capturing carbon dioxide.
This wasn’t talked about this morning. The paradigm is still “filter out the CO2 and flush it down a hole”. But it won’t stay that way forever. Sooner or later, somebody’s going to start mining carbon dioxide from CCS projects to make new chemicals and gas fuels. Then, who cares if there’s negative charging for emissions ? Or at what price ? The return on investment in carbon capture will simply bypass assumptions about needing to create a carbon market or set a carbon tax.
From: Richard A. Sears
Date: 24 February 2014
To: Jo Abbess
Subject: Question from your TED talk
I was looking back over older emails and saw that I had never responded to your note. It arrived as I was headed to MIT to teach for a week and then it got lost. Sorry about that.
Some interesting questions. I don’t know anybody working specifically on wind power to gas options. At one time Shell had a project in Iceland using geothermal to make hydrogen. Don’t know what its status is but if you search on hydrogen and Iceland on the Shell website I’m sure there’s something. If the Germans have power to gas as a real policy option I’d poke around the web for information on who their research partners are for this.
Here are a couple of high level thoughts. Not to discourage you because real progress comes from asking new questions, but there are some physical fundamentals that are important.
Direct air capture of anything using current technology is prohibitively expensive to do at scale for energy. More energy will be expended in capture and synthesis than the fuels would yield.
Gaseous fuels are problematic on their own. Gas doesn’t travel well and is difficult to contain at high energy densities as that means compressing or liquefying it. That doesn’t make anything impossible, but it raises many questions about infrastructure and energy balance. If we take the energy content of a barrel of oil as 1.0, then a barrel of liquefied natural gas is about 0.6, compressed natural gas which is typically at about 3600psi is around 0.3, and a barrel (as a measure of volume equal to 42 US gallons) of natural gas at room temperature and pressure is about 0.0015 (+/-). Also there’s a real challenge in storing and transporting gasses as fuel at scale, particularly motor fuel to replace gasoline and diesel.
While there is some spare wind power potential that doesn’t get utilized because of how the grid must be managed, I expect it is a modest amount of energy compared to what we use today in liquid fuels. I think what that means is that while possible, it’s more likely to happen in niche local markets and applications rather than at national or global scales.
If you haven’t seen it, a nice reference on the potential of various forms of sustainable energy is available free and online here. http://www.withouthotair.com/
Hope some of this helps.
Richard A. Sears
Department of Energy Resources Engineering
From: Jo Abbess
Date: 24 February 2014
To: Richard A. Sears
Many thanks for getting back to me. Responses are nice – even if they
are months late. As they say – better late than never, although with
climate change, late action will definitely be unwise, according to an
increasing number of people.
I have indeed seen the website, and bought and spilled coffee on the
book of Professor David MacKay’s “Sustainable Energy Without The Hot
Air” project. It is legendary. However, I have checked and he has only
covered alternative gas in a couple of paragraphs – in notes. By
contrast, he spent a long chapter discussing how to filter uranium out
of seawater and other nuclear pursuits.
Yet as a colleague of mine, who knows David better than I do, said to
me this morning, his fascination with nuclear power is rather naive,
and his belief in the success of Generation III and Generation IV
lacks evidence. Plus, if we get several large carbon dioxide
sequestration projects working in the UK – Carbon Capture and Storage
(CCS) – such as the Drax pipeline (which other companies will also
join) and the Shell Peterhead demonstration, announced today, then we
won’t need new nuclear power to meet our 4th Carbon Budget – and maybe
not even the 5th, either (to be negotiated in 2016, I hear) :-
We don’t need to bury this carbon, however; we just need to recycle
it. And the number of ways to make Renewable Hydrogen, and
energy-efficiently methanate carbon monoxide and carbon dioxide with
hydrogen, is increasing. People are already making calculations on how
much “curtailed” or spare wind power is likely to be available for
making gas in 10 years’ time, and if solar power in the UK is
cranked/ramped up, then there will be lots of juicy cost-free power
ours for the taking – especially during summer nights.
Direct Air Capture of carbon dioxide is a nonsensical proposition.
Besides being wrong in terms of the arrow of entropy, it also has the
knock-on effect of causing carbon dioxide to come back out of the
ocean to re-equilibrate. I recently read a paper by climate scientists
that estimated that whatever carbon dioxide you take out of the air,
you will need to do almost all of it again.
Instead of uranium, we should be harvesting carbon dioxide from the
oceans, and using it to make gaseous and liquid fuels.
Gaseous fuels and electricity complement each other very well –
particularly in storage and grid balancing terms – there are many
provisions for the twins of gas and power in standards, laws, policies
and elsewhere. Regardless of the limitations of gas, there is a huge
infrastructure already in place that can store, pipe and use it, plus
it is multi-functional – you can make power, heat, other fuels and
chemicals from gas. In addition, you can make gas from a range of
resources and feedstocks and processing streams – the key quartet of
chemical gas species keep turning up : hydrogen, methane, carbon
monoxide and carbon dioxide – whether you are looking at the exhaust
from combustion, Natural Gas, industrial furnace producer gas,
biological decomposition, just about everywhere – the same four gases.
Energy transition must include large amounts of renewable electricity
– because wind and solar power are quick to build yet long nuclear
power lead times might get extended in poor economic conditions. The
sun does not always shine and the wind does not always blow (and the
tide is not always in high flux). Since demand profiles will never be
able to match supply profiles exactly, there will always be spare
power capacity that grids cannot use. So Power to Gas becomes the
optimal solution. At least until there are ways to produce Renewable
Hydrogen at plants that use process heat from other parts of the
Renewable Gas toolkit. So the aims are to recycle carbon dioxide from
gas combustion to make more gas, and recycle gas production process
heat to make hydrogen to use in the gas production process, and make
the whole lot as thermally balanced as possible. Yes. We can do that.
Lower the inputs of fresh carbon of any form, and lower the energy
requirements to make manufactured gas.
I met somebody working with Jacobs who was involved in the Carbon
Recycling project in Iceland. Intriguing, but an order of magnitude
smaller than I think is possible.
ITM Power in the UK are doing a Hydrogen-to-gas-grid and methanation
project in Germany with one of the regions. They have done several
projects with Kiwa and Shell on gas options in Europe. I know of the
existence of feasibility reports on the production of synthetic
methane, but I have not had the opportunity to read them yet…
I feel quite encouraged that Renewable Gas is already happening. It’s
a bit patchy, but it’s inevitable, because the narrative of
unconventional fossil fuels has many flaws. I have been looking at
issues with reserves growth and unconventionals are not really
commensurate with conventional resources. There may be a lot of shale
gas in the ground, but getting it out could be a long process, so
production volumes might never be very good. In the USA you’ve had
lots of shale gas – but that’s only been supported by massive drilling
programmes – is this sustainable ?
BP have just finished building lots of dollars of kit at Whiting to
process sour Natural Gas. If they had installed Renewable Gas kit
instead of the usual acid gas and sulfur processing, they could have
been preparing for the future. As I understand it, it is possible to
methanate carbon dioxide without first removing it from the rest of
the gas it comes in – so methanating sour gas to uprate it is a viable
option as far as I can see. The hydrogen sulfide would still need to
be washed out, but the carbon dioxide needn’t be wasted – it can be
made part of the fuel. And when the sour gas eventually thins out,
those now methanating sour gas can instead start manufacturing gas
from low carbon emissions feedstocks and recycled carbon.
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…
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.
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 ?
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.
Managing the balance between, on the one hand, extraction of natural resources from the environment, and on the other hand, economic production, shouldn’t have to be either, or. We shouldn’t value higher throughput and consumption at the expense of exhausting what the Earth can supply. We shouldn’t be “economic” in our ecology, we shouldn’t be penny-pinching and miserly and short-change the Earth. The Earth, after all, is the biosystem that nourishes us. What we should be aiming for is an ecology of economy – a balance in the systems of manufacture, agriculture, industry, mining and trade that doesn’t empty the Earth’s store cupboard. This, at its root, is a conservation strategy, maintaining humanity through a conservative economy. Political conservatives have lost their way. These days they espouse the profligate use of the Earth’s resources by preaching the pursuit of “economic growth”, by sponsoring and promoting free trade, and reversing environmental protection. Some in a neoliberal or capitalist economy may get rich, but they do so at the expense of everybody and everything else. It is time for an ecology in economics.
Over the course of the next couple of years, in between doing other things, I shall be taking part in a new project called “Joy in Enough”, which seeks to promote economic ecology. One of the key texts of this multi-workstream group is “Enough is Enough”, a book written by Rob Dietz and Dan O’Neill. In their Preface they write :-
“But how do we share this one planet and provide a high quality of life for all ? The economic orthodoxy in use around the world is not up to the challenge. […] That strategy, the pursuit of never-ending economic growth has become dysfunctional. With each passing day, we are witnessing more and more uneconomic growth – growth that costs more than it is worth. An economy that chases perpetually increasing production and consumption, always in search of more, stands no chance of achieving a lasting prosperity. […] Now is the time to change the goal from the madness of more to the ethic of enough, to accept the limits to growth and build an economy that meets our needs without undermining the life-support systems of the planet.”
One of the outcomes of global capitalism is huge disparities, inequalities between rich and poor, between haves and have-nots. Concern about this is not just esoteric morality – it has consequences on the whole system. Take, for example, a field of grass. No pastoral herder with a flock of goats is going to permit the animals to graze in just one corner of this field, for if they do, part of the grassland will over-grow, and part will become dust or mud, and this will destroy the value of the field for the purposes of grazing. And take another example – wealth distribution in the United Kingdom. Since most people do not have enough capital to live on the proceeds of investment, most people need to earn money for their wealth through working. The recent economic contraction has persuaded companies and the public sector to squeeze more productivity out of a smaller number of employees, or abandon services along with their employees. A simple map of unemployment shows how parts of the British population have been over-grazed to prop up the economic order. This is already having impacts – increasing levels of poverty, and the consequent social breakdown that accompanies it. Poverty and the consequent worsening social environment make people less able to look after themselves, their families, and their communities, and this has a direct impact on the national economy. We are all poorer because some of our fellow citizens need to use food banks, or have to make the choice in winter to Heat or Eat.
And let’s look more closely at energy. Whilst the large energy producers and energy suppliers continue to make significant profits – or put their prices up to make sure they do so – families in the lower income brackets are experiencing unffordability issues with energy. Yes, of course, the energy companies would fail if they cannot keep their shareholders and investors happy. Private concerns need to make a profit to survive. But in the grand scheme of things, the economic temperature is low, so they should not expect major returns. The energy companies are complaining that they fear for their abilities to invest in new resources and infrastructure, but many of their customers cannot afford their products. What have we come to, when a “trophy project” such as the Hinkley Point C nuclear power station gets signed off, with billions in concomitant subsidy support, and yet people in Scotland and the North East and North West of England are failing to keep their homes at a comfortable temperature ?
There is a basic conflict at the centre of all of this – energy companies make money by selling energy. Their strategy for survival is to make profit. This means they either have to sell more energy, or they have to charge more for the same amount of energy. Purchasing energy for most people is not a choice – it is a mandatory part of their spending. You could say that charging people for energy is akin to charging people for air to breathe. Energy is a essential utility, not an option. Some of the energy services we all need could be provided without purchasing the products of the energy companies. From the point of view of government budgets, it would be better to insulate the homes of lower income families than to offer them social benefit payments to pay their energy bills, but this would reduce the profits to the energy companies. Insulation is not a priority activity, because it lowers economic production – unless insulation itself is counted somehow as productivity. The ECO, the Energy Company Obligation – an obligation on energy companies to provide insulation for lower income family homes, could well become part of UK Prime Minister David Cameron’s “Bonfire of the Green Tax Vanities”. The ECO was set up as a subsidy payment, since energy companies will not provide energy services without charging somebody for them. The model of an ESCO – an Energy Services Company – an energy company that sells both energy and energy efficiency services is what is needed – but this means that energy companies need to diversify. They need to sell energy, and also sell people the means to avoid having to buy energy.
Selling energy demand reduction services alongside energy is the only way that privatised energy companies can evolve – or the energy sector could have to be taken back into public ownership because the energy companies are not being socially responsible. A combination of economic adjustment measures, essential climate change policy and wholesale price rises for fossil fuel energy mean that energy demand reduction is essential to keep the economy stable. This cannot be achieved by merely increasing end consumer bills, in an effort to change behaviour. There is only so much reduction in energy use that a family can make, and it is a one-time change, it cannot be repeated. You can nudge people to turn their lights off and their thermostats down by one degree, but they won’t do it again. The people need to be provided with energy control. Smart meters may or may not provide an extra tranche of energy demand reduction. Smart fridges and freezers will almost certainly offer the potential for further domestic energy reduction. Mandatory energy efficiency in all electrical appliances sold is essential. But so is insulation. If we don’t get higher rates of insulation in buildings, we cannot win the energy challenge. In the UK, one style of Government policies for insulation were dropped – and their replacements are simply not working. The mistake was to assume that the energy companies would play the energy conservation game without proper incentives – and by incentive, I don’t mean subsidy.
An obligation on energy companies to deploy insulation as well as other energy control measures shouldn’t need to be subsidised. What ? An obligation without a subsidy ? How refreshing ! If it is made the responsibility of the energy companies to provide energy services, and they are rated, and major energy procurement contracts are based on how well the energy companies perform on providing energy reduction services, then this could have an influence. If shareholders begin to understand the value of energy conservation and energy efficiency and begin to value their energy company holdings by their energy services portfolio, this could have an influence. If an energy utility’s licence to operate is based on their ESCO performance, this could have an influence : an energy utility could face being disbarred through the National Grid’s management of the electricity and gas networks – if an energy company does not provide policy-compliant levels of insulation and other demand control measures, it will not get preferential access for its products to supply the grids. If this sounds like the socialising of free trade, that’s not the case. Responsible companies are already beginning to respond to the unfolding crisis in energy. Companies that use large amounts of energy are seeking ways to cut their consumption – for reasons related to economic contraction, carbon emissions control and energy price rises – their bottom line – their profits – rely on energy management.
It’s flawed reasoning to claim that taxing bad behaviour promotes good behaviour. It’s unlikely that the UK’s Carbon Floor Price will do much apart from making energy more unaffordable for consumers – it’s not going to make energy companies change the resources that they use. To really beat carbon emissions, low carbon energy needs to be mandated. Mandated, but not subsidised. The only reason subsidies are required for renewable electricity is because the initial investment is entirely new development – the subsidies don’t need to remain in place forever. Insulation is another one-off cost, so short-term subsidies should be in place to promote it. As Nick Clegg MP proposes, subsidies for energy conservation should come from the Treasury, through a progressive tax, not via energy companies, who will pass costs on to energy consumers, where it stands a chance of penalising lower-income households. Wind power and solar power, after their initial investment costs, provide almost free electricity – wind turbines and solar panels are in effect providing energy services. Energy companies should be mandated to provide more renewable electricity as part of their commitment to energy services.
In a carbon-constrained world, we must use less carbon dioxide emitting fossil fuel energy. Since the industrialised economies use fossil fuels for more than abut 80% of their energy, lowering carbon emissions means using less energy, and having less building comfort, unless renewables and insulation can be rapidly increased. This is one part of the economy that should be growing, even as the rest is shrinking.
Energy companies can claim that they don’t want to provide insulation as an energy service, because insulation is a one-off cost, it’s not a continuing source of profit. Well, when the Big Six have finished insulating all the roofs, walls and windows, they can move on to building all the wind turbines and solar farms we need. They’ll make a margin on that.
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 :-
“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 :-
“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.”
“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 :-
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.
10 July 2013
“Keeping the Lights on: At What Cost?”
Parliamentary Renewable and Sustainable Energy Group
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].
This week, both Caroline Flint MP and Ed Balls MP have publicly repeated the commitment by the UK’s Labour Party to a total decarbonisation of the power sector by 2030, should they become the governing political party. At PRASEG’s Annual Conference, Caroline Flint 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. […] Labour will have as an election [promise] a legally binding target for 2030. […] This Government has no vision.”
And when I was in an informal conversation group with Ed Davey MP and Professor Mayer Hillman of the Policy Studies Institute at a drinks reception after the event hosted by PRASEG, the Secretary of State for Energy and Climate Change seemed to me to also be clear on his personal position backing the 2030 “decarb” target.
Ed Davey showed concern about the work necessary to get a Europe-wide commitment on Energy and Climate Change. He took Professor Hillman’s point that carbon dioxide emissions from the burning of fossil fuels are already causing dangerous climate change, and that the risks are increasing. However, he doubted that immediate responses can be made. He gave the impression that he singled out Poland of all the countries in the European Union to be an annoyance, standing in the way of success. He suggested that if Professor Hillman wanted to do something helpful, he could fly to Poland…at this point Professor Hillman interjected to say he hasn’t taken a flight in 70 years and doesn’t intend to now…and Ed Davey continued that if the Professor wanted to make a valuable contribution, he could travel to Poland, taking a train, or…”I don’t care how you get there”, but go to Poland and persuade the Poles to sign up to the 2030 ambition.
Clearly, machinations are already afoot. At the PRASEG Annual Conference were a number of communications professionals, tightly linked to the debate on the progress of national energy policy. Plus, one rather exceedingly highly-networked individual, David Andrews, the key driver behind the Claverton Energy Research Group forum, of which I am an occasional participant. He had ditched the normal navy blue polyester necktie and sombre suit for a shiveringly sharp and open-necked striped shirt, and was doing his best to look dapper, yet zoned. I found him talking to a communications professional, which didn’t surprise me. He asked how I was.
JA : “I think I need to find a new job.”
DA : “MI6 ?”
JA : “Too boring !”
What I really should have said was :-
JA : “Absolutely and seriously not ! Who’d want to keep State Secrets ? Too much travel and being nice to people who are nasty. And making unbelievable compromises. The excitement of privilege and access would wear off after about six minutes. Plus there’s the risk of ending up decomposing in something like a locked sports holdall in some strange bathroom in the semblance of a hostelry in a godforsaken infested hellhole in a desolate backwater like Cheltenham or Gloucester. Plus, I’d never keep track of all the narratives. Or the sliding door parallel lives. Besides, I’m a bit of a Marmite personality – you either like me or you really don’t : I respond poorly to orders, I’m not an arch-persuader and I’m not very diplomatic or patient (except with the genuinely unfortunate), and I’m well-known for leaping into spats. Call me awkward (and some do), but I think national security and genuine Zero Carbon prosperity can be assured by other means than dark arts and high stakes threats. I like the responsibility of deciding for myself what information should be broadcast in the better interests of the common good, and which held back for some time (for the truth will invariably out). And over and above all that, I’m a technologist, which means I prefer details over giving vague impressions. And I like genuine democratic processes, and am averse to social engineering. I am entirely unsuited to the work of a secret propaganda and diplomatic unit.”
I would be prepared to work for a UK or EU Parliamentary delegation to Poland, I guess, if I could be useful in assisting with dialogue, perhaps in the technical area. I do after all have several academic degrees pertinent to the questions of Energy and Climate Change.
But in a room full of politicians and communications experts, I felt a little like a fished fish. Here, then, is a demonstration. I was talking with Rhys Williams, the Coordinator of PRASEG, and telling him I’d met the wonderful Professor Geoff Williams, of Durham Univeristy, who has put together a system of organic light emitting diode (LED) lighting and a 3-D printed control unit, and, and, and Rhys actually yawned. He couldn’t contain it, it just kind of spilled out. I told myself : “It’s not me. It’s the subject matter”, and I promptly forgave him. Proof, though, of the threshold for things technical amongst Westminster fixers and shakers.
Poland. I mean, I know James Delingpole has been to Poland, and I thought at the time he was possibly going to interfere with the political process on climate change, or drum up support for shale gas. But I’m a Zero Carbon kind of actor. I don’t need to go far to start a dialogue with Poland by going to Poland – I have Poles living in my street, and I’m invited to all their barbecues. Maybe I should invite Professor Mayer Hillman to cycle over to Waltham Forest and address my near neighbours and their extended friendship circle on the importance of renewable energy and energy efficiency targets, and ask them to communicate with the folks back home with any form of influence.
I don’t quite know what powers Lord Deben, John Gummer, but he looks remarkably wired on it. At this week’s PRASEG Annual Conference, he positively glowed with fervour and gumption. He regaled us with tales of debate in the House of Lords, the UK’s parliamentary “senior” chamber. He is a known climate change science adherent, and in speaking to PRASEG, he was preaching to the choir, but boy, did he give a bone-rattling homily !
As Chairman of the Committee on Climate Change, he is fighting the good fight for carbon targets to be established in all areas of legislation, especially the in-progress Energy Bill. He makes the case that emissions restraint and constraint is now an international business value, and of importance to infrastructure investment :-
“The trouble with energy efficiency is that it’s not “boys’ toys” – there’s no “sex” in it. It is many small things put together to make a big thing. We won’t get to a point of decarbonisation unless we [continuously] make [the case for] [continuous] investment. […] GLOBE [of which I am a member] in a report – 33 major countries – doing so much. […] Look at what China is doing. Now a competitive world. If we want people to come here and invest, we need to have a carbon intensity target in 2030 [which will impact] [manufacturing] and the supply chain. [With the current strategy, the carbon targets are] put down in 2020 and picked up again in 2050. Too long a gap for business. They don’t know what happens in between. This is not all about climate change. It is about UK plc.”
To supplement this diet of upbeat encouragement, he added a good dose of scorn for fellow Lords of the House, the Lords Lawson (Nigel Lawson) and Lord Ridley (Matt Ridley) who, he seemed to be suggesting, clearly have not mastered the science of climate change, and who, I believe he imputed, have lost their marbles :-
“Apart from one or two necessary sideswipes, I agree with the previous speaker. There is no need for disagreement except for those who dismiss climate change. [I call them “dismissers” as we should not] dignify their position by calling them “sceptics”. We are the sceptics. We come to a conclusion based on science and we revisit it every time new science comes our way. They rifle through every [paper] to find every little bit that suppports their argument. I’ve listened to the interventions [in the House of Lords reading of and debate on the Energy Bill] of that group. Their line is the Earth is not [really] warming, so, it’s too expensive to do anything. This conflicts with today’s World Meteorological Organization measurements – that the last decade has been the warmest ever. I bet you that none of them [Lords] will stand up [in the House of Lords] and say “Sorry. We got it wrong.” They pick one set of statistics and ignore the rest. It is a concentrated effort to undermine by creating doubt. Our job is constantly to make it clear they we don’t need to argue the case – the very best science makes it certain [but never absolute]. You would be very foolish to ignore the consensus of view. […] In a serious grown-up world, we accept the best advice – always keeping an eye out for new information. Otherwise, [you would] make decisions on worst information – no sane person does that.”
He encouraged us to encourage the dissenters on climate change science to view the green economy as an insurance policy :-
“Is there a householder here who does not insure their houses against fire ? You have a 98% change of not having a fire. Yet you spend on average £140 a year on insurance. Because of the size of the disaster – the enormity of the [potential] loss. Basic life-supporting insurance. I’m asking for half of that. If only Lord Lawson would listen to the facts instead of that Doctor of Sports Science, Benny Peiser. Or Matt Ridley – an expert in the sexual habits of pheasants. If I want to know about pheasants, I will first ask Lord Ridley. Can he understand why I go to a climatologist first ? [To accept his view of the] risks effects of climate change means relying on the infallibility of Lord Lawson […]”
He spoke of cross-party unity over the signing into law of the Climate Change Act, and the strength of purpose within Parliament to do the right thing on carbon. He admitted that there were elements of the media and establishment who were belligerently or obfuscatingly opposing the right thing to do :-
“[We] can only win if the world outside has certainty about institutional government. This is a battle we have taken on and won’t stop till we win it. [The Lord Lawson and Lord Ridley and their position is] contrary to science, contrary to sense and contrary to the principle of insurance. They will not be listened to, not now, until UK has reduced level of carbon emissions, and we have [promised] our grandchildren they they are safe from climate change.”
Phew ! That was a war cry, if ever there was one ! We are clearly in the Salvation Army ! I noted the attendance list, that showed several Gentlemen and Ladies of the Press should have been present, and hope to read good reports, but know that in some parts of the Gutter, anti-science faecal detritus still swirls. We in One Birdcage Walk were the assembly of believers, but the general public conversation on carbon is poisoned with sulphurous intent.
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 !
Whilst doing a little background research into biological routes to hydrogen production, I came across a scientific journal paper, I can’t recall which, that suggested that the geological evidence indicates that Earth’s second atmosphere not only had a high concentration of methane, but also high levels of hydrogen gas.
Previously, my understanding was that the development of microbiological life included a good number of methanogens (micro-life that produces methane as a waste product) and methanotrophs (those that “trough” on methane), but that hydrogenogen (“respiring” hydrogen gas) and hydrogenotroph (metabolising hydrogen) species were a minority, and that this was reflected in modern-day decomposition, such as the cultures used in biogas plants for anaerobic digestion.
If there were high densities of hydrogen cycle lifeforms in the early Earth, maybe there are remnants, descendants of this branch of the tree of life, optimal at producing hydrogen gas as a by-product, which could be employed for biohydrogen production, but which haven’t yet been scoped.
After all, it has only been very recently that psychrophiles have been added to the range of microorganisms that have been found useful in biogas production – cold-loving, permafrost-living bugs to complement the thermophile and mesophile species.
Since hydrogen and methane are both ideal gas fuels, for a variety of reasons, including gas storage, combustion profiles and simple chemistry, I decided I needed to learn a little more.
I have now read a plethora of new theories and several books about the formation of the Earth (and the Moon) in the Hadean Eon, the development of Earth’s atmosphere, the development of life in the Archaean Eon, and the evolution of life caused by climate change, and these developments in living beings causing climate change in their turn.
“Amino acids, sugars, and the components of DNA and RNA adsorb onto all of Earth’s most common rock-forming minerals […] We concluded that wherever the prebiotic ocean contacted minerals, highly concentrated arrangements of life’s molecules are likely to have emerged from the formless broth […] Many other researchers have also settled on such a conclusion – indeed, more than a few prominent biologists have also gravitated to minerals, because origins-of-life scenarios that involve only oceans and atmosphere face insurmountable problems in accounting for efficient mechanisms of molecular selection and concentration. Solid minerals have an unmatched potential to select, concentrate, and organize molecules. So minerals much have played a central role in life’s origins. Biochemistry is complex, with interwoven cycles and networks of molecular reactions. For those intricately layered processes to work, molecules have to have just the right sizes and shapes. Molecular selection is the task of finding the best molecule for each biochemical job, and template-directed selection on mineral surfaces is now the leading candidate for how nature did it […] left- and right-handed molecules […] It turns out that life is incredibly picky : cells almost exclusively employ left-handed amino acids and right-handed sugars. Chirality matters […] Our recent experiments have explored the possibility that chiral mineral surfaces played the starring role in selecting handed molecules, and perhaps the origins of life as well. […] Our experiments showed that certain left-handed molecules can aggregate on one set of crystal surfaces, while the mirror image […] on other sets […] As handed molecules are separated and concentrated, each surface becomes a tiny experiment in molecular selection and organization. On its own, no such natural experiment with minerals and molecules is likely to have generated life. But take countless trillions of trillions of trillions of mineral surfaces, each bathed in molecule-rich organic broth […] The tiny fraction of all those molecular combinations that wound up displaying easier self-assembly, or developed a stronger binding to mineral surfaces […] survived […] possibly to learn new tricks.”
Yet again, the fossil fuel companies think they can get away with uncommented public relations in my London neighbourhood. Previously, it was BP, touting its green credentials in selling biofuels, at the train station, ahead of the Olympic Games. For some reason, after I made some scathing remarks about it, the advertisement disappeared, and there was a white blank board there for weeks.
This time, it’s Esso, and they probably think they have more spine, as they’ve taken multiple billboard spots. In fact, the place is saturated with this advertisement. And my answer is – yes, fuel economy is important to me – that’s why I don’t have a car.
And if this district is anything to go by, Esso must be pouring money into this advertising campaign, and so my question is : why ? Why aren’t they pouring this money into biofuels research ? Answer : because that’s not working. So, why aren’t they putting this public relations money into renewable gas fuels instead, sustainable above-surface gas fuels that can be used in compressed gas cars or fuel cell vehicles ?
Are Esso retreating into their “core business” like BP, and Shell, concentrating on petroleum oil and Natural Gas, and thereby exposing all their shareholders to the risk of an implosion of the Carbon Bubble ? Or another Deepwater Horizon, Macondo-style blowout ?
“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).
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.
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 :-
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” !
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.
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.
Again, the evil and greedy oil, gas and mining companies have proved their wickedness by manipulating public opinion, by directly financing conspiracy theorists who deny climate change science. The irony is tangibly acidic. The paranoid have actually been duped by a genuine conspiracy. They have drunk the Kool Aid; they have believed the lies; they have continued to communicate doubt. They think they are challenging corruption in high places, but what they are really doing is reinforcing apathy in the face of genuine risk.
The questions posed so unrelentingly by the climate change deniers have sewn a patchwork tapestry of disinformation, which continues to poison genuine dialogue and is undermining political progress. We cannot take these people with us into constructive engagement, and ask them to help us forge a broad consensus. It is as if they exist in a parallel universe. Some of us will continue to attempt to conduct dialogue, but will end up wasting our time. The documentation by the media is faulty, and perpetuates the success of the denier strategy of divide and rule.
But hold on a minute. There are problems with the stance of climate change denial, but what about the positioning of climate change activists ? Let’s try that first paragraph one more time :-
[ Again, the “evil” and “greedy” oil, gas and mining companies have proved their “wickedness” by manipulating public opinion, by directly financing conspiracy theorists who deny climate change science. The irony is tangibly acidic. The paranoid have actually been duped by a genuine conspiracy. They have drunk the Kool Aid; they have believed the lies; they have continued to communicate doubt. They think they are challenging corruption in high places, but what they are really doing is reinforcing apathy in the face of genuine risk. ]
By casting the fossil fuel and mining corporations as wrongly motivated, by using negative emotive labels, the dominant narrative of political activists has failed, once again, to move us all forward. These kinds of revelations about underhand corporate public relations activities are by now unsurprising. The news cannot shock, although it may disgust. Yet, since nothing is offered to counter-balance or correct the inappropriate behaviour of the “fossil fuellers”, they win the game they invented, the game they wrote the rules for. Protesting at a petrol station achieves nothing of any note, not even when there’s a camera-friendly polar bear. We hear the message of pain, but there is no ointment. There is a disconnect between the gruesome discovery and any way out of this mess. The revelation of intent of the carbon dinosaurs, the recounting of the anti-democratic activities, does not result in change.
Environmental pollution is a “victimless” crime – no matter how much we sympathise or empathise with the plight of poisoned floating fish, dying bees, asthmatic kids, or cancer-laden people. Fines and taxes cannot rectify the scourge of environmental pollution, because there is no ultimate accountability. Regulation cannot be enforced. The misbehaviour just carries on, because there is systemic momentum. There is no legal redress (“due process” in Americanese) for those who are suffering the worsening effects of climate change, and there is no treaty that can be made to curb greenhouse gas emissions that anybody can be bound to by international sanctions.
And so when we hear the same old story – that the energy industry is propagandising – we cannot respond. We don’t know what we can do. We are paralysed. This narrative is so tired, it snores.
Truth may have been a victim, but the energy industry are also vulnerable – they are acting in self-defence mode. Let’s take the big vista in : there is stress in the global production of fossil fuel energy, and all routes to an easy fix, even if it’s only a short-term fix, are choked.
So let’s ask the question – why do the energy companies deceive ? Do they think they are being deceptive ? Why do fossil fuel miners seek to massage public opinion ? This is a question of resilience, of Darwinian survival – seeking advantage by altering policy by tampering with public assent. They believe in their product, they construct their mission – they are protecting their future profits, they’re making a living. They’re humans in human organisations. They’re not “evil”, “greedy” or “lying” – as a rule. There are no demons here, nor can we convincingly summon them.
Look at the activist game plan – we announce the deliberate actions of the fossil fuel companies to influence the political mandate. But these scandals are only ever voiced, never acted upon. They cannot be acted upon because those who care have no power, no agency, to correct or prevent the outcomes. And those who should care, do not care, because they themselves have rationalised the misdemeanours of the fossil fuellers. They too have drunk from the goblet of doubt. Amongst English-speaking politicians, I detect a good number who consider climate change to be a matter for wait-and-see rather than urgent measures. Besides those who continue to downplay the seriousness of climate change.
Look also at the difference between the covert nature of the support for climate change deniers, and the open public relations activities of the fossil fuel and mining companies. They speak in the right way for their audiences. That’s smart.
In time, the end of the fossil fuel age will become apparent, certain vague shapes on the horizon will come out of the blur and into sharp focus. But in the meantime, the carbon dinosaurs are taking action to secure market share, maintain the value of their stock, prop up the value of their shareholders’ assets. The action plan for survival of the oil, gas, coal and mining operations now includes the promotion of extreme energy – so-called unconventional fossil fuels, the once-dismissed lower quality resources such as tight gas, shale gas, shale oil and coalbed methane (coal seam methane). Why are the energy industry trying to gild the rotten lily ? Is the support for unconventional fossil fuels a move for certain countries, such as the United States of America, to develop more indigenous sources of energy – more homegrown energy to make them independent of foreign influence ? This could be the main factor – most of the public relations for shale gas, for example, seems to come from USA.
The answer could come by responding to another question. Could it be that the production of petroleum oil has in fact peaked – that decline has set in for good ? Could it be that the Saudis are not “turning off the taps” to force market prices, because in actual fact the taps are being turned off for them, by natural well depletion ? The Arab Spring is a marvellous distraction – the economic sanctions and military and democratic upheaval are excellent explanations for the plateau in global oil production.
It seems possible from what I have looked at that Peak Oil is a reality, that decline in the volumes of produced petroleum is inevitable. The fossil fuel producers, the international corporations who have their shareholders and stock prices to maintain, have been pushing the narrative that the exploitation of unconventional fossil fuels can replace lost conventional production. They have been painting a picture of the horn of plenty – a cornucopia of unconventional fossil fuels far exceeding conventional resources. To please their investors, the fossil fuel companies are lying about the future.
Sure, brute force and some new technology are opening up “unconventionals” but this will not herald the “golden age” of shale gas or oils from shale. Shale gas fields deplete rapidly, and tar sands production is hugely polluting and likely to be unsustainable in several ways because of that. There might be huge reserves – but who knows how quickly heavy oils can be produced ? And how much energy input is required to create output energy from other low grade fossil strata ? It is simply not possible to be certain that the volumes of unconventional fossil fuel production can match the decline in conventionals.
The facts of the matter need admitting – there is no expansion of sweet crude oil production possible. There’s no more crude – there’s only crud. And slow crud, at that.
Peak Oil is a geological fact, not a market artefact. The production levels of crude and condensate may not recover, even if military-backed diplomacy wins the day for the energy industry in the Middle East and North Africa.
Peak Oil has implications for resilience of the whole global economy – the conversion of social and trade systems to use new forms of energy will take some considerable time – and their integrity is at risk if Peak Oil cannot be navigated smoothly. Peak Oil is dangerous – it seems useful to deny it as long as possible.
It’s pretty clear that we’ve been handed lots of unreliable sops over the years. The energy industry promised us that biofuels could replace gasoline and diesel – but the realisation of this dream has been blocked at every turn by inconvenient failings. The energy industry has, to my mind, been deploying duds in order to build in a delay while they attempt to research and develop genuine alternatives to conventional fossil fuels – but they are failing. The dominant narrative of success is at risk – will all of this continue to hold together ? Can people continue to believe in the security of energy systems – the stability of trade and economic wealth creation ? Oh yes, people raise concerns – for example about disruption in the Middle East and North Africa, and then propose “solutions” – regime change, military support for opposition forces, non-invasive invasions. But overall, despite these all too evident skirmishes, the impression of resilience is left intact. The problem is being framed as one of “edge issues” – not systemic. It’s not clear how long they can keep up with this game.
The facade is cracking. The mask is slipping. BP and Centrica in a bout of hyper-realism have said that the development of shale gas in the UK will not be a “game changer”. It may be that their core reasoning is to drag down the market value of Cuadrilla, maybe in order to purchase it. But anyway, they have defied the American energy industry public relations – hurrah ! Shale gas is not the milk of a honey-worded mother goddess after all – but what’s their alternative story ? That previously under-developed gas in Iran and Iraq will be secured ? And what about petroleum ? Will the public relations bubble about that be punctured too ? Telling people about Peak Oil – how useful is that ? They won’t do it because it has to be kept unbelievable and unbelieved in order to save face and keep global order. Academics talk about Peak Oil, but it is not just a dry, technical question confined to ivory towers. Attention is diverted, but the issue remains. Looking at it doesn’t solve it, so we are encouraged not to look at it.
So, why do the energy industry purposely set out to manipulate public opinion ? Well, the reason for their open advertising strategy is clear – to convince investors, governments, customers, that all is well in oil and gas – that there is a “gas glut” – that the world is still awash in petroleum and Natural Gas – that the future will be even more providential than the past – that the only way is up. All the projections of the oil and gas industry and the national, regional and international agencies are that energy demand will continue to rise – the underlying impression you are intended to be left with is that, therefore, global energy supply will also continue to rise. Business has never been better, and it can only get more profitable. We will need to turn to unconventional resources, but hey, there’s so much of the stuff, we’ll be swimming in it.
But what is the purpose of the covert “public relations” of the energy industry ? Why do they seek to put out deception via secretly-funded groups ? When the truth emerges, as it always does in the end, the anger and indignation of the climate change activists is guaranteed. And angry and indignant activists can easily be ignored. So, the purpose in funding climate change deniers is to emotionally manipulate climate change activists – rattle their cages, shake their prison bars. Let them rail – it keeps the greens busy, too occupied with their emotional disturbance. By looking at these infractions in depth are we being distracted from the bigger picture ? Can we make any change in global governance by bringing energy industry deception to light ?
Even as commentators peddle conspiracy theories about the science and politics of a warming planet, the “leader of the free world” is inaugurated into a second term and announces action on climate change. Although progressives around the world applaud this, I’m not sure what concrete action the President and his elite colleague team of rich, mostly white, middle-aged men can take. I am listening to the heartbeat of the conversation, and my take away is this : by announcing action on climate change, Barack Obama is declaring war on the sovereignty of the oil and gas producing nations of the Middle East and North Africa.
You see, the Middle East and North Africa are awash in Natural Gas. Untapped Natural Gas. The seismic surveys are complete. The secret services have de-stabilised democracy in a number of countries now, and this “soft power” will assist in constructing a new narrative – that unruliness in the Middle East and North Africa is preventing progress – that the unstable countries are withholding Natural Gas from the world – the fossil fuel that can replace petroleum oil in vehicles when chemically processed, the fossil fuel that has half the carbon emissions of coal when generating electricity. Resources of Natural Gas need “protecting”, securing, “liberating”, to save the world’s economy from collapse.
Obama stands up and declares “war” on climate change. And all I hear is a klaxon alarm for military assault on Iran.
But even then, if the world turns to previously untapped Natural Gas, I believe this is only a short-term answer to Peak Oil. Because waiting in the wings, about ten years behind, is Peak Natural Gas. And there is no answer to Peak Natural Gas, unless it includes a genuine revolution in energy production away from what lies beneath. And that threatens the sustenance of the oil and gas industry.
No wonder, then, that those who fund climate change denial – who stand to profit from access to untapped fossil fuels, secured by military aggresssion in the Middle East and North Africa – also fund opposition to renewable energy. The full details of this are still emerging. Will we continue to express horror and distaste when the strategy becomes more transparent ? Will that achieve anything ? Or will we focus on ways to bring about the only possible future – a fossil-fuel-free energy economy ? This will always take more action than words, but messaging will remain key. The central message is one that will sound strange to most people, but it needs to be said : fossil fuels will not continue to sustain the global economy : all will change.
Funnily enough, that is exactly the summary of the statements from the World Economic Forum in Davos – only the world’s administration are still not admitting to Peak Fossil Fuels. Instead, they are using climate change as the rationale for purposeful decarbonisation.
Well, whichever way it comes, let’s welcome it – as long as it comes soon. It’s not just the survival of individual oil and gas companies that is at stake – the whole global economy is at risk from Peak Fossil Fuels – and climate change. I use the word “economy”, because that is the word used by MBAs. What I mean is, the whole of human civilisation and life on Earth is at risk from Peak Fossil Fuels and climate change. Unconventional fossil fuels are the most polluting answer to any question, and expansion of their use will undoubtedly set off “climate bombs“.
Don’t get me wrong – Natural Gas is a good bridge to the future, but it is only a transition fuel, not a destination. Please, can we not have war against Iran. Please let’s have some peaceful trade instead. And some public admissions of the seriousness of both Peak Fossil Fuels and climate change by all the key players in governance and 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 ?
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.
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 multipleFukushima Dai-ichinuclearreactoraccident 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.
“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 ?
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.
There’s good renewable energy and poorly-choiced renewable energy. Converting coal-burning power stations to burn wood is Double Plus Bad – it’s genuiunely unsustainable in the long-term to plan to combust the Earth’s boreal forests just to generate electricity. This idea definitely needs incinerating.
Exactly how locally-sourced would the fuel be ? The now seemingly abandoned plan to put in place a number of new biomass burning plants would rely on wood chip from across the Atlantic Ocean. That’s a plan that has a number of holes in it from the point of view of the ability to sustain this operation into the future. Plus, it’s not very efficient to transport biomass halfway across the world.
And there’s more to the efficiency question. We shouldn’t be burning premium wood biomass. Trees should be left standing if at all possible – or used in permanent construction – or buried so that they don’t decompose – if new trees need to be grown. Rather than burning good wood that could have been used for carbon sequestration, it would be much better, if we have to resort to using wood as fuel, to gasify wood waste and other wood by-products in combination with other fuels, such as excavated landfill, food waste and old rubber tyres.
Co-gasifying of mixed fuels and waste would allow cheap Carbon Capture and Storage (CCS) or Carbon Capture and (Re)Utilisation (CCU) options – and so if we have to top up the gasifiers with coal sometimes, at least it wouldn’t be leaking greenhouse gas to the atmosphere.
No, we shouldn’t swap out burning coal for incinerating wood, either completely or co-firing with coal. We should build up different ways to produce Renewable Gas, including the gasification of mixed fuels and waste, if we need fuels to store for later combustion. Which we will, to back up Renewable Electricity from wind, solar, geothermal, hydropower and marine resources – and Renewable Gas will be exceptionally useful for making renewable vehicle fuels.
I could never be in sales and marketing. I have a strong negative reaction to public relations, propaganda and the sticky, inauthentic charm of personal persuasion.
Lead a horse to water, show them how lovely and sparkling it is, talk them through their appreciation of water, how it could benefit their lives, make them thirsty, stand by and observe as they start to lap it up.
One of the mnemonics of marketing is AIDA, which stands for Attention, Interest, Desire, Action, leading a “client” through the process, guiding a sale. Seize Attention. Create Interest. Inspire Desire. Precipitate Action. Some mindbenders insert the letter C for Commitment – hoping to be sure that Desire has turned into certain decision before permitting, allowing, enabling, contracting or encouraging the Action stage.
You won’t get that kind of psychological plasticity nonsense from me. Right is right, and wrong is wrong, and ethics should be applied to every conversion of intent. In fact, the architect of a change of mind should be the mind who is changing – the marketeer or sales person should not proselytise, evangelise, lie, cheat, sneak, creep and massage until they have control.
I refuse to do “Suggestive Sell”. I only do “Show and Tell”.
I am quite observant, and so in interpersonal interactions I am very sensitive to rejection, the “no” forming in the mind of the other. I can sense when somebody is turned off by an idea or a proposal, sometimes even before they know it clearly themselves. I am habituated to detecting disinclination, and I am resigned to it. There is no bridge over the chasm of “no”. I know that marketing people are trained to not accept negative reactions they perceive – to keep pursuing the sale. But I don’t want to. I want to admit, permit, allow my correspondent to say “no” and mean “no”, and not be harrassed, deceived or cajoled to change it to a “yes”.
I have been accused of being on the dark side – in my attempts to show and tell on climate change and renewable energy. Some assume that because I am part of the “communications team”, I am conducting a sales job. I’m not. My discovery becomes your discovery, but it’s not a constructed irreality. For many, it’s true that they believe they need to follow the path of public relations – deploying the “information deficit model” of communication – hierarchically patronising. Me, expert. You, poor unknowing punter. Me, inform you. You, believe, repent, be cleaned and change your ways. In this sense, communications experts have made climate change a religious cult.
In energy futures, I meet so many who are wild-eyed, desperate to make a sale – those who have genuine knowledge of their subject – and who realise that their pitch is not strong enough in the eyes of others. It’s not just a question of money or funding. The engineers, often in large corporations, trying to make an impression on politicians. The consultants who are trying to influence companies and civil servants. The independent professionals trying to exert the wisdom of pragmatism and negotiated co-operation. The establishment trying to sell technical services. Those organisations and institutions playing with people – playing with belonging, with reputation, marketing outdated narratives. People who are in. People who are hands-off. People who are tipped and ditched. Those with connections who give the disconnected a small rocky platform. The awkwardness of invested power contending with radical outsiders. Denial of changing realities. The dearth of ready alternatives. Are you ready to be captured, used and discarded ? Chase government research and development grants. Steal your way into consultations. Play the game. Sell yourself. Dissociate and sell your soul.
I have to face the fact that I do need to sell myself. I have to do it in a way which remains open and honest. To sell myself and my conceptual framework, my proposals for ways forward on energy and climate change, I need a product. My person is often not enough of a product to sell – I am neuro-atypical. My Curriculum Vitae CV in resume is not enough of a product to sell me. My performance in interviews and meetings is often not enough of a product. My weblog has never been a vehicle for sales. I didn’t want it to be – or to be seen as that – as I try to avoid deceit in communications.
Change requires facilitation. You can’t just walk away when the non-persuasional communications dialogue challenge gets speared with distrust and dismissal. Somehow there has to be a way to present direction and decisions in a way that doesn’t have a shadow of evil hovering in the wings.
“A moment to change it all, is all it takes to start anew.
To the other side.”
Why do I need to “sell” myself ? Why do I need to develop a product – a vehicle with which to sell myself ?
1. In order to be recognised, in order to be welcomed, invited to make a contribution to the development of low carbon energy, the optimisation of the use of energy, and effective climate change policy.
2. In order to put my internal motivations and drive to some practical use. To employ my human energy in the service of the future of energy engineering and energy systems.
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…”
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’sFuture 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.
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.
Disobedience only gets you so far. Resistance can be fertile, but intellectual ghettos can be futile. The human tendency to generalise creates too much negativity and prevents us from being constructive. We complain about the “evil” oil and gas companies; the “greedy” coal merchants and their “lying” bankster financiers; but refuse to see the diamonds in the mud.
We should obey the future. In the future, all people will respect each other. There will no longer be war propaganda carried by the media, demonising leaders of foreign countries, or scorn for opposing political parties. In the future, human beings will respect and have regard for other human beings. So we should live that future, live that value, have care for one another. I don’t mean we are obliged to give money to charity to help needy people in poor countries. I don’t mean we should campaign for our government to commit funds to the Climate Finance initiatives, whose aim is to support adaptation to climate chaos in developing countries. No, charity is not enough, and never matches the need. Philanthropy will not answer climate change, and so solutions need to be built into the infrastructure of the global economy, sewn into the design, woven into the fabric. There should be no manufacture, no trade, no form of consumption that does not take account of the climate change impacts on the poor, and on the rich, on ecosystems, on ourselves.
Yes, it’s true that corporations are destroying the biosphere, but we cannot take a step back, grimace and point fingers of blame, for we are all involved in the eco-destructive economy. We are all hooked on dirty energy and polluting trade, and it’s hard to change this. It’s especially hard for oil, gas and coal companies to change track – they have investors and shareholders, and they are obliged to maintain the value in their business, and keep making profits. Yes, they should stop avoiding their responsibilities to the future. Yes, they should stop telling the rest of us to implement carbon taxation or carbon trading. They know that a comprehensive carbon price can never be established, that’s why they tell us to do it. It’s a technique of avoidance. But gathering climate storms, and accumulating unsolved climate damages, are leading the world’s energy corporations to think carefully of the risks of business as usual. How can the governments and society of the world help the energy companies to evolve ? Is more regulation needed ? And if so, what kind of political energy would be required to bring this about ? The United Nations climate change process is broken, there is no framework or treaty at hand, and the climate change social movement has stopped growing, so there is no longer any democratic pressure on the energy production companies and countries to change.
Many climate change activists talk of fear and frustration – the futility of their efforts. They are trapped into the analysis that teaches that greed and deceit are all around them. Yet change is inevitable, and the future is coming to us today, and all is quite possibly full of light. Where is this river of hope, this conduit of shining progress ? Where, this organised intention of good ?
We have to celebrate the dull. Change is frequently not very exciting. Behind the scenes, policy people, democratic leaders, social engineers, corporate managers, are pushing towards the Zero Carbon future reality. They push and pull in the areas open to them, appropriate to their roles, their paid functions. Whole rafts of national and regional policy is wedded to making better use of energy, using less energy overall, displacing carbon energy from all economic sectors.
And then there’s the progressive politics. Every leader who knows the shape of the future should strive to be a Van Jones, or a Jenny Jones, any green-tinged Jones you can think of. We should enquire of our political leaders and our public activists what flavour of environmental ecology they espouse. We should demand green policies in every party, expect clean energy support from every faction. We should not only vote progressive, we should promote future-thinking authority in all spheres of social management – a future of deeper mutual respect, of leaner economy, of cleaner energy.
The future will be tough. In fact, the future is flowing to us faster than ever, and we need resilience in the face of assured destructive change – in environment and in economy. To develop resilience we need to forgo negativity and embrace positivity. So I ask you – don’t just be anti-coal, be pro-wind, pro-solar and pro-energy conservation. Where leaders emerge from the companies and organisations that do so much harm, celebrate them and their vision of a brighter, better, lower carbon future. Where administrations take the trouble to manage their energy use, and improve their efficiency in the use of resources, applaud them, and load them with accolades. Awards may be trite, but praise can encourage better behaviour, create exemplars, inspire goodly competition. Let us encourage the people with good influence in every organisation, institution and corporation. Change is afoot, and people with genuine power are walking confidently to a more wholesome future.
Protect your soul. Don’t get locked into the rejection of evil, but hold fast to what is good. Do not conform to the patterns of this world, but be transformed by the renewing of your minds. Be strong for goodness, even as you turn your back on a life of grime.
Live the Zero Carbon future, and make it come as soon as it can.