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Russia Sours

I have a theory. But I don’t have access to the data to confirm or deny it. The data is in the hands of the oil and gas companies, and private oil industry data concerns, who charge a lot of money for access to the data. Some data might become public soon, as the International Energy Agency, the IEA, have made a commitment to opening up their databases, but I don’t know when this will be.

The data I would need to assess my theory regards the chemical composition of Natural Gas from a range of fields and wells, and its evolution over time. Although some data about chemical quality exists in the public domain, such as crude assays for various petroleum oils, and is published in various places, such as Eni’s annual review, and a handful of academic research papers regarding prospects for gas in some regions or countries, there is little to go on for a global view from gas analyses.

The European Union has announced a plan to “get off” Russian fossil fuel dependency (addiction), but I would contend that they would need to do it anyway, regardless of the incentive to “cancel” Russian oil and gas in sanction over Russia’s unspeakable acts of terror and aggression in their invasion of Ukraine. My view is that the rationale for an early exit from Russian fossil fuel supplies is all to do with the chemistry.

Gas fields and oil basins deplete, that we all know. The easy, good stuff gets emptied out first, and then the clever engineers are commissioned to suck out the last remaining dregs. So-called “sweet spots”, where easy, good stuff has accumulated over the ages, are quickly pumped dry, and investors and management push for the assets to be sweated, but it’s a game of diminishing returns.

If you look for a mention of problem contaminants, such as sulfur compounds and heavy metals, the publicly, freely-available literature is quite thin on the ground – even general discussion of the global overview – in other words, it is noticeable by its absence.

Natural Gas with high levels of inherent carbon dioxide has started to merit explicit mention, because of climate change mitigation efforts, but even there, there is not much in terms of basins, fields and wells by numbers and locations, and over timespans.

There was quite a lot of discussion about the procedure of reinjection of acid and sour gases, starting in the early 1990s or so, pumping unwanted molecules from contaminated or sub-standard Natural Gas back underground, after separation at or close to the well head. This was partly to answer climate change concerns, but also to enhance further oil and gas recovery from emptying wells. This has been known mostly by the term EOR – enhanced oil recovery. Bad gas was being pumped, then filtered, and the bad fraction was being pumped back down to build up pressure to get more gas and oil out.

There has also been a lot of very public discussion of the project to mitigate gas venting and gas flaring, as a potentially easy win against environmental damage – including climate change burden. Unburned Natural Gas has been routinely vented to the atmosphere from locations where gas was not the principal product from wells, or where it has been costly to install gas capture equipment. Unburned Natural Gas vented to air leeches methane, carbon dioxide and hydrogen sulfide, two of which are climate change-sparking greenhouse gases, and the other, a local toxin to all forms of life. But flaring unwanted Natural Gas is only marginally less dangerous, as it still emits carbon dioxide to air, as well as sulfur dioxide, and potentially some nitrogen oxides (and sometimes, still, some hydrogen sulfide) : and sulfur dioxide interferes with local temperatures through localised greenhouse cooling; sulfur dioxide is also a local environmental pollutant; and both sulfur dioxide and nitrogen oxides, in addition to the carbon dioxide, lead to acidification of air, water and soils. Obviously, it would be better to capture any currently unwanted Natural Gas, and make use of it in the economy, processing it somewhere in a way that can reduce the environmental disbenefits that would have come from venting or flaring it in the field.

However, discussion about venting and flaring of Natural Gas and the attempts to stem it centre on the potency of emissions of fossil methane as a short-term greenhouse gas, and there is little discussion of the emissions of fossil carbon dioxide and fossil sulfur compounds that are part of that unwanted Natural Gas.

Trying to drill down into the geography and localised basin- and field-specific gas composition is near-nigh impossible without insider access to data, or some kind of large budget for data. Public reports, such as the financial and annual reports of companies, focus on levels of Natural Gas production, but not the amounts of rejected molecules from the production yield – the molecules of hydrogen sulfide, carbon dioxide and nitrogen and so on that don’t make it into the final gas product. Keeping up production is discussed in terms of sales revenue and investment in exploration and production, but not in terms of the economic costs of bad chemistry.

Over time, oil and gas production companies must explore for new reserves that they can bring to production – often within their already-tapped resource base – because old fields empty, until well production starts slowing down, and become uneconomic to continue pumping. But running down the reserves, and having to find new locations within basins and fields to drill new wells is not the only issue. Oil and gas are not monolithic : resources vary in terms of accessibility, temperature, pressure, geology, but also chemistry – even within fields; and over time and operating conditions – which can even be seasonal.

Contaminants can be concentrated in one particular area, or at one particular pre-historic geological stratum or layer : the formation of the sediments. Not only that, but over time, oil and gas wells can sour, that is, production can experience increasing levels of hydrogen sulfide and other sulfur compounds. They can also show increasing production levels of inert non-combustible or acid-producing chemical species, mainly carbon dioxide and nitrogen.

As drilling goes deeper, the more likely inert, sour and acid gases are to occur, as the deposits will have had more time to mature, and reach temperatures where gas generation from organic matter is more likely than oil generation : the “gas window” depends on such things as temperature, pressure and time. And more gas can signal more non-useful molecules.

The deeper you go, the higher the risk of your Natural Gas being contaminated with hydrogen sulfide, carbon dioxide and nitrogen; as the deposits have cooked for too long. The presence of significant levels of sulfur compounds is credited to rock-oil and rock-gas chemical interactions known as TSR – thermochemical sulfate reduction – between hydrocarbons and sulfate-bearing rocks.

In addition, drilling a well can lead to BSR – bacterial sulfate reduction – where bacterial life starts to work on sulfate present in any water as the hydrocarbons are raised from the depths and depressurise and cool.

The closer to the source rocks drilling goes, the black shales, high in organic matter, from which all hydrocarbon oils and gases originate, the higher the risk of pumping up heavy metals where there are metal sulfides clustered.

Although wells can sour over time, especially if acid gas is reinjected to dispose of it, fields can even be highly acid or sour right from the get-go. For decades, some sour and acid resources were listed as proven reserves, but were considered too uneconomic to mine. But during the last decade or so, increasing numbers of sour gas projects have commenced.

The engineering can be incredible, but the chemistry is still wrong. With new international treaties, sulfur cannot be retained in fuels, so where does it end up ? Rejected sulfur atoms largely end up in abandoned pyramids of yellow granules, or on the sulfur market, and a lot is used to make sulfuric acid, a key industrial chemical, used for such things as the production of fertilisers, explosives, and petrochemicals. But after the sulfuric acid is used, where does the sulfur end up ? As sulfate in water, that drains to the sea ? And what about the granulated sulfur from the mega sour gas projects ? Some of that is used as soil treatment, as a fertiliser, either directly, or as part of ammonium sulfate. But after it is used, what happens to the sulfur ? Does it become sulfate in water, that courses to the ocean ? And what happens to it there ? How much is fossil sulfur going to contribute to ocean anoxia through BSR generation of hydrogen sulfide ?

Sulfur atoms don’t just disappear. It will take many millenia for the mined fossil sulfur to be incorporated back into sedimentary sulfides or rocks. As increasingly sour oils and gases are increasingly used, the question of the perturbation of the global sulfur cycle (as well as the global sulfur market) becomes relevant.

At what point will the balance tip, and high sulfur deposits of fossil fuels become untenable ?

In addition to management of the fossil sulfur mined during the exploitation of chemically-challenged Natural Gas, there are other important considerations about emissions.

Satellite monitoring of “trace” greenhouse and environmentally-damaging gases, such as sulfur dioxide and methane, is constantly evolving to support international calls for emissions reduction and control. For example, analyses of methane emissions from the oil and gas industry have pinpointed three geographical areas of concern for the locations of “ultra-emitters” : the United States, the Russian Federation and Turkmenistan. A lot of methane emissions from the oil and gas industry could be stemmed, but the question needs to be asked : is it worth opening up new gas fields, with all the infrastructure and risks of increased methane and other emissions ? And if the major explanation for methane emissions in gas drilling are connected to end-of-life fields, what incentives could be offered to cap those emissions, given the lack of an economic case, at so late a stage in the exploitation of assets ?

And so, to Russia.

A great variety of commentators have been working hard to put forward their theories about why Russia chose to launch a violent, cruel and destructive military assault on Ukraine in early 2022. Some suppose that Russia is looking to build out its empire, occupying lands for grain production and transportation routes, gaining control over peoples for slave labour, removing the irritant of social or political threat. Arguments about the ownership of territory, rightfully or wrongfully. Historically revisionist or revanchist philosophies are identified in the output from Russian voices and political narrative. However, there does not appear to be a truly justifying rationale for a war arising from these pseudo-historical caricatures. Even if the territory of Ukraine could be deemed, by some internal Russian legal process, to belong to some concocted Greater Russian Federation, it would require a lot of magical thinking to believe it would gain traction in the wider sphere.

Some see Russia’s actions as vindictive or retaliatory, but to assert this with any validity would require explaining what has really changed to justify the recent major escalation in one-sided aggression from Russia, action that has lasted for some time, principally since 2014.

What can really be driving Russia’s murderous marauding, the bombing of civilian districts, wanton infrastructure destruction, people snatching, torture basements and all forms of intimate, personal aggression and attack ?

I decided to do some reading, and I went back to 2004/2005 to do so, and then realised I should have gone back further, to the time of Vladimir Putin’s “ascension” to the Presidency of the Russian Federation.

Putin appears to have control issues, and seems to want to impress his will on absolutely any person and any organisation he comes across, up to and including whole countries. The means are various, and the medium also. There is continual “hybrid” warfare; and the evidence suggests that Russia has interfered with foreign democracy, for example, by playing the joker in the memetic transfer of ideologies and “fake news” through social media; used blackmail in “diplomacy”; used strong-arm tactics in trade and investment; and locked international energy companies into corrupting, compromising deals.

By far the most injurious behaviour, however, has been the outright military assaults he has ordered to be launched on lands and people groups, both inside and around the outside of Russia. I will leave the details to expert military historians and human rights organisations, but the pattern of the annihilation visited on many areas of Ukraine since early in 2022 is not new. There appears to be no dialogue possible to restrain Putin’s sadistic army of Zombies (Z) and Vampires (V).

But just what made this happen ? What was really behind Putin’s decision to launch an invasion on Ukraine ? It wasn’t to de-Nazify. That’s just weak and quite bizarre propaganda, that cannot hold together. He knows there are far fewer ultra-right wing cultists in Ukraine than in Moscow. The “war” wasn’t to protect Russian speakers. Many people in Ukraine speak several languages, and none of them have been safe from the rampaging hordes of Russian “orcs”. The invasion wasn’t to defend the Putin-styled Republics of Donetsk and Luhansk, as people there don’t feel defended from anything nasty the Russians seem to visit on everybody they invade, or the military responses of the Ukrainian forces, something the Russians could have anticipated. If Russia really cared about the people in the Donbas, they wouldn’t have brought troops there. The warfare isn’t benefitting or supporting any pro-Russian factions or Russian-speakers in Ukraine, and the only thing that looks like Nazis are the Russian Nasties.

It has come into focus for me from my reading that there seem to be three major, real, potential or probable reasons for Russia seeking to have overt, administrative, and if necessary, military control of the southern, littoral part of Ukraine; and my reading suggests that this is an outworking of the maritime policy of the Russian Federation going back at least 20 years.

I intend to give a list of my resources for reading later on, but for now, let’s begin with a Tweet thread from Dmitri Alperovitch, which really resonated for me :-

https://mobile.twitter.com/DAlperovitch/status/1520333220964933632

https://threadreaderapp.com/thread/1520333220964933632.html

He makes the point that with Russian forces control the coastal area of Ukraine, and its ports and seafaring routes, they will have a stranglehold on the economy of Ukraine. If the Russians deny grain and other agricultural exports, or deny the proceeds from export sales, then the Ukrainian economy will be seriously damaged. In addition, the continual bombing and mining of agricultural lands means that crops are already at risk this year in Ukraine, which will add to these woes. There is already some discussion about the effects on the importers of Ukrainian grain in particular, as it has been a “bread basket of the world”.

It is easy to see from maps of the fighting that controlling the coastal ports must have been a major part of the reason for the Russian invasion, but the triggering of conflict is surely not just about control of the trade routes in and out of Ukraine, as a means to squeeze the country into submission.

It’s clear from my reading so far that Russia has an historical and significant ambition to control more of the maritime routes in that region. Russia clearly didn’t like the awkwardness of having to share the Black Sea and the Sea of Azov. They’d rather just run all of it, apparently. Russia appears to regard rulership of the “warm seas” to the south of Federation lands as vital to their aims. There are mentions of improving the waterway routes from the Caspian, through the Black Sea, out to the Mediterranean, to permit military vessels to exert control in the region, and to enable Russian trade. The Russians built a contested bridge to Crimea, but they may end up building vast new canals as well. Are you listening yet, Turkey ?

This is grandiose enough, but this is still not the end of Russia’s aims in taking over the coast of Ukraine, it could transpire.

What floats on top of the Black Sea, the Sea of Azov, the Mediterranean Sea and the Caspian Sea is important enough, but what lies beneath is far more important, I am beginning to find in my reading.

There has been a couple of decades or so of development of newly-discovered oil and gas resources around the Caspian Sea. Russia even acted quite collaboratively initially with the other countries bordering co-littorally. Although it hasn’t been very happy since in some parts of the region. Due to Russian military carpet-bombing and martial illegalities, in some cases.

But despite oil- and gas-aplenty, for example, in the Kashagan, fossil fuel deposits there are really rather sour, that is, loaded with sulfur compounds; particularly hydrogen sulfide, which is corrosive, explosive and needs to be removed before the fossil fuels can be utilised. That, coupled with the anoxic and difficult conditions of the undersea mining, mean that Russia has looked elsewhere to build up new proved resources, as they have become necessary.

There was much talk of Russia going to drill in the Arctic; but even with melting ice from global warming, conditions north of the Arctic Circle are tough, and the offshore prospects are likely to be costly. Yes, they might end up trying to keep their rights to trade LNG from the far North, but the “cold seas” make for harsh economic conditions.

After years of stagnating Natural Gas production in Russia, more gas fields have been opened up in the Yamal Peninsula, but they only have a half life of approximately ten to fifteen years, perhaps. And judging by other gas fields, some parts of them could be extremely contaminated with sulfur compounds, which would lead to extra costs in cleaning the products up for sale and piping out for export.

And then came the Mediterranean and Black Sea seismic surveys and gas prospecting. What was found ? Sweet, sweet gas. Little in the way of sulfur contamination, and continental sea conditions, as opposed to stormy oceans. There are many countries that border both bodies of water that have been rapidly developing Natural Gas projects, eager to jump right in and tap as much as they can from fields, presumably before other countries tap into the same fields from another entry point.

There is some evidence that the primary goal for Russia in invading Crimea in 2014 was to secure control of Ukraine’s Natural Gas production projects in the Black Sea. Ukraine had been at the mercy of Russia’s energy “policy” for decades (which seems to consist mostly of what looks like : threat, supply cuts, blackmail, extortion, compromise, false accusation, unjustifiable price hikes), and now it was about to start developing a new sizeable domestic resource, and could conceivably become energy-independent. It could have been too much for Vladimir Putin to bear, thinking that Ukraine could become the masters and mistresses of their own energy destiny. He wanted the sales of that Natural Gas for himself, and deny Ukraine control over their own economy. Hence what has been described as the “theft” of energy company, oil and gas rigs, other utility holdings and the EEZ maritime exclusive exploitation zone out at sea. Oh Chornomornaftogaz !

If Russia establish control of the whole of Southern Ukraine, recognised or no, they will almost inevitably be seeking to exploit as much of the Black Sea Natural Gas as they can. It will be cleaner than Caspian gas, cheaper than Arctic gas, and easier to export as ship-laden LNG.

So, I ask again, why did Russia invade Ukraine ? To take advantage of ten to fifteen years of sweet, cheap Black Sea Natural Gas ? Is that really what this is actually about ?

The European Union has declared that they will wind down their use of Natural Gas, and develop Renewable Gas instead over the next decade. There will be a divorce from Russian gas, because of this policy, and as a reaction to the invasion of Ukraine.

I would argue however, that this policy is needed not just because of climate change, and not simply as a reaction to unjustifiable horrors of aggression. The future of gas sourced from Russia is either sour or stolen, and so the European Union has no choice but to wean itself away.

To support my theory, I would need to have access to gas composition analysis by the major oil and gas companies of Russia, and the countries surrounding the Caspian, Black Sea, Sea of Azov and Mediterranean Sea, and the companies working on oil and gas projects onshore and offshore in the region.

I have made a few enquiries, but nothing has emerged as yet.

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Jumping off Mount Gideon

[Friends, I have suffered a little writer’s block, so I resolved to spark some creativity in myself by joining a little local writers group. The leader of the group suggested a title, I Googled the allegedly fictional location and found it existed, and that it was near a wind farm; and Google Maps led me to the rest of my research and inspiration for this piece. Caveat Lector : it’s fictional, even though a lot of it is factual. Also, it’s only a draft, but it needs to settle for a while before I can refine/sift it. ]

Jumping Off Mount Gideon [1]
by Jo Abbess
DRAFT

In the blue-green sun-kissed uplands, west of the sediment-spewing Chocolate River sprung at Petitcodiac village, and north of the shrunken Shepody Lake, its feeder tributaries re-engineered hundreds of years ago; north still of the shale flats jutting out into the Bay of Fundy, rises Mount Gideon, shrouded in managed native Canadian spruce, pine and fir. Part of the ranging, half-a-billion-year-old craton of the Caledonian Highlands of New Brunswick, it is solid ground, and its first European inhabitants must have been hardy. Looking up, the early settlers must have seen the once-bare hinterland looming over the mudstone and sandstone shoreline, with its steep gullied waterways carved by the receding pre-historic icesheets, and it must have been redolent of the mountainous “encampments of the just” [2] where the Biblical Gideon of the Book of Judges [3] trained his elite crack troops and plotted his revenge against the hordes of ravaging Midianites. The fur-trappers and gravel miners on the eve of the 18th Century built a community by the bay, and drove a winding road up through Mount Gideon’s ravines and over its heights, a byway long since eroded and erased and replaced by a functional forestry access track. Ethnic cleansing of the first-come Acadians in the summer of 1755 destroyed much of the larger settlements in the region of Chipoudy, henceforth anglicised to Shepody. Two groups of deportation vigilantes, originally tasked with taking prisoners, burned down the infrastructure and put to death those who hadn’t fled to the woods, and since that day, nobody really lives up on the mount, aside from the occasional lumberjack in his trailer home cached off New Ireland Road, and the odd temporary bivouac of touring hippy couples, en route from Hopewell Rocks to Laverty Falls on the Moosehorn Trail in the national park, via the Caledonia Gorge and Black Hole on the Upper Salmon River. These days there is no risk of social crisis, but an insidious slow-moving environmental crisis is underway. Streams falling from Mount Gideon, spider lines scratched on early parish maps, the West River and Beaver Brook, no longer flow year-round, and there’s very little freshwater locally, apart from a few scattered tarns, cradled in the impervious igneous, plutonic rock of the hinterland. Rainwater does support the timber plantations, for now, but drought and beetle are a rising threat, brought on by creeping climate change. Humans may no longer be setting fires, but Nature is, because human beings have interfered with the order of things.

Mount Gideon isn’t really a proper peak : from its summit it’s clear it’s only a local undulation like other protruding spine bones in the broad back of the hills. Its cap sprouts industrial woodland, planted in regular patterns visible from space, reached by gravel-bordered runnelled dirt track. The former ancient water courses that fall away sharply from the highest point on the weald are filled with perilously-rooted trees, leaning haphazardly out from the precipitous banks of the ravines. The plantations and roadside thickets obscure the view of Chignecto Bay and the strong-tided Minas Passage, where the tidal turbine energy project is still being developed. With no coastal horizon, this could be hundreds of kilometres from anywhere, in the centre of an endless Avalonian Terrane. A silvicultural and latterly agroforestry economy that grew from the wealth of wood eventually developed a dependence on fossil fuels, but what thin coal seams locally have long been exhausted, and the metamorphic mass underfoot salts no petroleum oil or gas beneath. Tanker ship and truck brought energy for tractor and homestead for decades, but seeing little future in the black stuff, local sparsely-populated Crown Land was designated for renewable energy. Just to the north of Mount Gideon lie the Kent Hills, a scene of contention and social protest when the wind farm was originally proposed. For some, wind turbines would mechanise the landscape, cause frequency vibration sickness, spark forest fires from glinting blades, induce mass migraine from flickering sweeps of metal. Windmills were seen as monsters, but sense prevailed, through the normal processes of local democracy and municipal authority, and even a wind farm expansion came about. It is true that engineering giants have cornered the market in the first development sweep of wind power – those hoping for small-scale, locally-owned new energy solutions to the carbon crisis have had to relent and accept that only big players have the economic power to kickstart new technologies at scale. There are some who suspect that the anti-turbine groups were sponsored secretly by the very firms who wanted to capitalise on the ensuing vacuum in local energy supply; and that this revolt went too far. There was speculation about sabotage when one of the wind turbine nacelles caught fire a while back and became a sneering viral internet sensation. When the shale gas 1970s extraction technology revival circus came to Nova Scotia, the wind power companies were thought to have been involved in the large protest campaign that resulted in a New Brunswick moratorium on hydraulic fracturing in the coastal lowlands. The geology was anyways largely against an expansion in meaningful fossil fuel mining in the area, and the central Precarboniferous massif would have held no gas of any kind, so this was an easily-won regulation, especially considering the risks to the Chignecto Bay fisheries from mining pollution.

TransAlta, they of “Clean Power, Today and Tomorrow”, sensed an prime moment for expansion. They had already forged useful alliances with the local logging companies during the development of Kent Hills Wind Farm, and so they knew that planning issues could be overcome. However, they wanted to appease the remnant of anti-technologists, so they devised a creative social engagement plan. They invited energy and climate change activists from all over Nova Scotia, Newfoundland, and the rest of Quebec to organise a pro-wind power camp and festival on the top of Mount Gideon. The idea was to celebrate wind power in a creative and co-operative way. The Crown Land was clearcut of trees as the first stage of the wind farm expansion, so the location was ideal. To enable the festival to function, water was piped to the summit, teepees and yurts were erected, and a local food delivery firm was hired to supply. The ambition of the cultural committee was to create an open, welcoming space with plenty of local colour and entertainment, inviting visitors and the media to review plans for the new wind farm. The festival was an international Twitter success, and attracted many North American, European and even Australasian revellers, although a small anarchist group from the French national territory in St Pierre et Miquelon created a bit of a diplomatic incident by accidentally setting fire to some overhanging trees in a ravine during a hash-smoking party.

Unbeknownst to the festival committee, a small and dedicated group of activists used the cover of the camp to plan a Gideon-style resistance to the Energy East pipeline plan. TransCanada wanted to bring heavy tar sands oil, blended with American light petroleum condensate, east from Alberta. The recent history of onshore oil pipelines and rail consignments was not encouraging – major spills had already taken place – and several disastrous accidents, such as the derailment and fireball at Plaster Rock, where the freight was routed by track to Irving Refinery. The original Energy East plan was to bring oil to the Irving Oil Canaport facility at Saint John, but a proposal had been made to extend the pipeline to the Atlantic coast. The new route would have to either make its circuitous way through Moncton, or cross under the Bay of Fundy, in order to be routed to Canso on the eastern side of Nova Scotia. The Energy East pipeline was already being criticised because of its planned route near important waterways and sensitive ecological sites. And the activist group had discovered that TransCanada had contracted a site evaluation at Cape Enrage on the western shore of the bay. Land jutted out into the water from here, making it the shortest crossing point to Nova Scotia. To route a pipeline here would mean it would have to cross Fundy National Park, sensitive fish and bird wading areas on the marshes and mudflats of the Waterside and Little Ridge, and cross over into the Raven Head Wilderness Area.

Gideon’s campaign had succeeded because of three things. His army had been whittled down to a compact, focused, elite force; they had used the element of surprise, and they had used the power of the enemy against itself. The activist group decided on a high level of secrecy about their alliance, but part of their plan was very public. They were divided into three groups : the Wasps, the Eagles and the Hawks. The Wasps would be the hidden force. They would construct and test drones, jumping off Mount Gideon, and flown out at night down the old river gullies, their route hidden by the topography, to spy on the TransCanada surface works. The plan was that when they had had enough practice the team would be ready to do this on a regular basis in future. If TransCanada did start building a pipeline here, the Wasps would be able to come back periodically and transport mudballs by drone to drop in the area. These squidgy payloads of dirt would contain special cultures of bacteria, including methanogens, that produce methane and other volatile chemicals. The environmental monitoring teams at the site would pick up spikes in hydrocarbon emissions, and this would inevitably bring into question the integrity of the pipeline. The Eagles would start a nationwide campaign for legal assistance, asking for lawyers to work pro bono to countermand the Energy East pipeline route, deploying the most recent scientific research on the fossil fuel industry, and all the factors that compromise oil and gas infrastructure. The Hawks would develop relationships with major energy investors, such as pension funds and insurance firms, and use public relations to highlight the risks of fossil fuel energy development, given the risks of climate change and the geological depletion of high quality resources. Nobody should be mining tar sands – the dirtiest form of energy ever devised. If TransCanada wanted to pipeline poisonous, toxic, air-damaging, climate-changing gloop all across the pristine biomes of precious Canada, the Mount Gideon teams were going to resist it in every way possible.

What the Mount Gideon teams did not know, but we know now, was that some of the activists at the camp were actually employees of the New Brunswick dynasties Irving and McCain. These families and their firms had saved the post-Confederation economy of the Maritime Provinces in the 20th Century, through vertical integration. Internally, within the Irving conglomerate, many recognised that fossil fuels had a limited future, even though some of the firms were part of the tar sands oil pipeline project. They were intending to take full advantage of the suspension of the light oil export ban from the United States for the purpose of liquefying Canadian heavy oils to make a more acceptable consumer product, as well as being something that could actually flow through pipes. They had held secret negotiations between their forestry units and the McCain family farming businesses. Research done for the companies had revealed that synthetic, carbon-neutral gas could be made from wood, grains and grasses, and that this would appeal to potential investors more than tar sands projects. They realised that if the Energy East project failed, they could step in to fill the gap in the energy market with their own brand of biomass-sourced renewables. They calculated that the potential for Renewable Gas was an order of magnitude larger than that of wind power, so they stood to profit as low carbon energy gained in popularity. Once again, in energy, big business intended to succeed, but they needed to do so in a way that was not confrontational. What better than to have a bunch of activists direct attention away from carbon-heavy environmentally-damaging energy to allow your clean, green, lean solutions to emerge victorious and virtuous ?

Notes

[1] This is a fictional, marginally futuristic account, but contains a number of factual, current accuracies.
[2] Bible, Psalm 34
[3] Bible, Judges 6-8

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Brexit or Remain ? Evolving Political Realities

I have been looking at some of the finer details of the new BP report – the annual “Statistical Review of World Energy” for 2016. It’s a bit confusing trying to compare it to the 2015 report, to try to see how positions have changed, partly because of the evolving nature of territorial politics of the various countries and their membership of regional blocs. For example, in the 2015 report, the country that calls itself Eire was known as “Republic of Ireland”, but in the 2016 report it is referred to as “Ireland”; and the bloc that BP knew as “Former Soviet Union” is know labelled as “Commonwealth of Independent States”, which has lost Estonia to the European Union, and Georgia, Latvia and Lithuania to the region known as “Europe” – which is not the same as the European Union or OECD Europe. It’s going to take me a few weeks to analyse this report, and compare the data to that available from other sources, such as JODI Oil, which last reported on 20th June 2016.

In the meantime, the country known as the United Kingdom of Great Britain and Northern Ireland – itself a regional bloc – could well vote to secede from the European Union, an Act which, if carried and enacted by the British Parliament, and overseen by whoever is Prime Minister, would consume all the working hours of all civil servants in all Departments of Government for many years. This would be the administrative spanner-in-the-works to beat all bureaucratic snarl-ups – the unpicking of the UK from the EU – as it would involve extensive and detailed work to rewrite and recode the entire British legislative corpus. There wouldn’t be any time left to actually govern the country, or support action on climate change.

But this is what the so-called “Eurosceptics” want – to hold up progress on climate change action. They are as much climate change science deniers as they are European Union-haters. In fact, leading science-denying politicians may have coerced the Prime Minister into agreeing to the EU Referendum in the first place. It really does matter how the UK voters act on 23rd June 2016 in the polling booths. If the UK votes to remain in the European Union, then the Energy Union will continue, and environmental legislation – including measures to combat climate change – will go ahead – bringing energy and climate security. If the UK votes to leave the European Union, where it plays a vital role, then ministers and civil servants will be locked into discussions attempting to negotiate the UK’s changed relationship with the EU for months and months to come. The government won’t be free to attend to policies to alleviate the effects of global recession on the country, or deal with managing immigration, creating employment, the need for building homes, or bailing out failing industry if they spend all their time over the next few years re-drafting laws to remove the effects of European Union from them. More importantly, the UK Government will be too busy undoing European Union to attend to responsibilities to keep to the UK’s Carbon Budget, or developing the renewable energy industries.

Vote Remain. For climate, for security, for society.

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Cumbria Floods : Climate Defenceless

I fully expect the British Prime Minister, David Cameron, will be more than modicum concerned about public opinion as the full toll of damage to property, businesses, farmland and the loss of life in Cumbria of the December 2015 floods becomes clear. The flooding in the Somerset Levels in the winter of 2013/2014 led to strong public criticism of the government’s management of and investment in flood defences.

The flood defences that were improved in Cumbria after the rainstorm disaster of 2009 were in some cases completely ineffective against the 2015 deluge. It appears that the high water mark at some places in Cumbria was higher in the 2015 floods than ever recorded previously, but that cannot be used as David Cameron’s get-out-of-jail-free clause. These higher flood levels should have been anticipated as a possibility.

However, the real problem is not the height of flooding, but the short recurrence time. Flood defences are designed in a way that admits to a sort of compromise calculus. Measurements from previous floods are used to calculate the likelihood of water levels breaching a particular height within a number of years – for example, a 1-in-20 year flood, or a 1-in-200 year flood. The reinforced flood defences in Cumbria were designed to hold back what was calculated to be something like a 1-in-100 year flood. It could be expected that if within that 100 years, other serious but not overwhelming flooding took place, there would be time for adaptation and restructuring of the defences. However, it has taken less than 10 years for a 1-in-100 year event to recur, and so no adaptation has been possible.

This should suggest to us two possibilities : either the Environment Agency is going about flood defences the wrong way; or the odds for the 1-in-100 year flood should be reset at 1-in-10-or-so years – in other words, the severity profile of flooding is becoming worse – stronger flooding is more frequent – which implies acceptance of climate change.

The anti-science wing of the Conservative Party were quick to construct a campaign against the Environment Agency in the South West of England in early 2014 – distracting people from asking the climate change question. But this time, I think people might be persuaded that they need to consider climate change as being a factor.

Placing the blame for mismanagement of the Somerset Levels at the door of the Environment Agency saved David Cameron’s skin in 2014, but I don’t think he can use that device a second time. People in Cockermouth are apparently in disbelief about the 2015 flooding. They have barely had time to re-establish their homes and lives before Christmas has been cancelled again for another year.

Will the Prime Minister admit to the nation that climate change is potentially a factor in this 2015 waterborne disaster ?

I remember watching in in credulity as the BBC showed the restoration of Cockermouth back in 2010 – it was either Songs of Praise or Countryfile – I forget which. The BBC were trying to portray a town getting back to normal. I remember asking myself – but what if climate change makes this happen again ? What then ? Will the BBC still be mollifying its viewers, lulling them back into a false sense of security about the risks of severe climate change ? What if there is no “normal” to get back to any more ? Is this partly why the Meteorological Office has decided to name winter storms ?

Can future climate-altered floods be escaped – or are the people of Britain to remain defenceless ?

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Energy Security : National Security #4

Previously, I summarised and sketched the situation regarding Europe’s policy of developing the “Southern Gas Corridor”, to provide Natural Gas supplies from resources that are not the Russian Federation and its satellite countries. My conclusion from a British perspective was that the United Kingdom should be very cautious in widening its military engagement in the region to include a proposed bombing campaign against Syria. Increasing violence in the region will harm energy transport projects and damage existing infrastructure. By way of example, renewed conflict between the Turkish government and the Kurdish Workers’ Party or PKK has been suggested as the incentive behind recent destruction of gas pipelines, events that have suspected of being assisted by Russian “forces”, an alliance that appears to have a history.

The British Prime Minister David Cameron has recently made his case for an air campaign in Syria, and it is to this that I turn. It is a political document, and so naturally enough contains language that is contestable. For example, in the first paragraph, the Prime Minister writes, “Whether or not to use military force is one of the most significant decisions that any government takes. The need to do so most often arises because of a government’s first duty: the responsibility to protect its citizens.” The UK is already using military force across the border from Syria, in Iraq, as the document outlines later on, so it is curious that David Cameron feels he has to appeal to the Foreign Affairs Select Committee regarding very similar action in Syria. There is a significant level of evidence to reasonably argue that attacking Islamic State with an air campaign will lead to reprisal attacks in the UK from Islamic State sympathisers, so air strikes against Syria might damage national security in Britain.

To understand this, you would need to understand the appeal that Islamic State philosophy has to a small group of deluded, desperate, brainwashed activists. For those who aren’t Islamic State adherents, it would be hard to understand the “death cult” fundamentalism enshrined in its philosophy, so it would be impossible to understand why there would be anyone prepared to sympathise with Islamic State and wish to support it by the use of massacre and suicide. But if you want to understand how provocation of Islamic State by aerial bombardment could precipitate violent responses on the streets of Europe, all you need to do is look at the evidence from Paris and Brussels coming in the last few weeks. When all the talk was about young people being seduced by the insane rhetoric of Islamic State and running away to fight in Syria, it all seemed harmless enough – although tragic and bewildering for their families. But now European nationals have returned home as secret trained suicide bombers, and recruited their peers and sometimes siblings and other relatives to the Islamic State cause, it’s no longer a sad tale of teenage and twenty-something obsession. To extend the British air campaign into Syria won’t fix this problem, neither will closing borders.

When David Cameron says, “it is … vital that the Government can act to keep this country safe”, he says it in defence of the use of violent attack or “force”, but there are obviously more human, humane, cheaper, cyber, public relations, political ways to keep the UK safe. He writes, “Throughout Britain’s history, we have been called on time and again to make the hardest of decisions in defence of our citizens and our country”, but it appears that he hasn’t learned any lessons from the last century, especially the last 21 years. Every time that the UK has been involved in a major aerial bombardment campaign, things have gone badly, either for British armed forces, or British nationals – not to mention the citizens of other countries, who in some cases, if they’ve survived being carpet bombed, have been documented as starting to hate Britain because of British warfare. It’s a short step from hating Britain to sympathising with a rhetoric of anti-British violence, so it could be relatively rationally explained that British air campaigns of the last few decades have weakened our defences.

David Cameron writes, “Today one of the greatest threats we face to our security is the threat from ISIL. We need a comprehensive response which seeks to deal with the threat that ISIL poses to us directly, not just through the measures we are taking at home, but by dealing with ISIL on the ground in the territory that it controls. It is in Raqqa, Syria, that ISIL has its headquarters, and it is from Raqqa that some of the main threats against this country are planned and orchestrated.” However, bombing Islamic State on the ground in the territory it controls won’t diminish the threats to the United Kingdom from Islamic State trained or inspired “operatives” and disciples who have never even travelled to the Middle East, and in fact, it is unlikely that any of the people living in the territory that Islamic State inhabits would have anything to do with violent attacks against the United Kingdom, inside the United Kingdom. The suicide bombers in Paris were not Syrian or Iraqi. And although Islamic State claimed responsibility for the attacks, it is unclear how Syrian and Iraqi leaders in Islamic State could have orchestrated them. What good would bombing Islamic State in Syria and Iraq do in making Britain safer ?

David Cameron writes, “We must tackle ISIL in Syria, as we are doing in neighbouring Iraq, in order to deal with the threat that ISIL poses to the region and to our security here at home”, but you can’t fight an ideology with guns or silence their extremism with bombs. He also writes, “We have to deny a safe haven for ISIL in Syria. The longer ISIL is allowed to grow in Syria, the greater the threat it will pose”, but the question is, a threat to whom and what ?

This is beginning to sound like the propaganda that was once designed to oppose the man who is still the official leader in Syria, Bashar al-Assad. And in fact, David Cameron’s appeal includes him later, when he says British aims should be to “secure a transition to an inclusive Government in Syria that responds to the needs of all the Syrian people and with which the international community could co-operate fully to help restore peace and stability to the whole country. It means continuing to support the moderate opposition in Syria, so that there is a credible alternative to ISIL and Assad.”

Later again, he writes, “Some have argued that we should ally ourselves with Assad and his regime against the greater threat posed by ISIL, as the ‘lesser of two evils’. But this misunderstands the causes of the problem; and would make matters worse. By inflicting brutal attacks against his own people, Assad has in fact acted as one of ISIL’s greatest recruiting sergeants. We therefore need a political transition in Syria to a government that the international community can work with against ISIL, as we already do with the Government of Iraq.” There is also the comment, “Assad regime’s mass murder of its own people”.

So it seems there has not been a reversal : Assad is still not in favour, despite Assad’s military campaign against Islamic State. Let’s just recap here on the “killing his own people” concept, an accusation levelled at the leaders of both Iraq and Libya before the UK bombed them. In Syria’s case, Assad’s repression of anti-government elements was accepted by the “international community” for some time, until the crackdown on the “Arab Spring” protests which lead to a civil war – during which, arguably, Assad’s forces committed crimes against humanity.

But if you think about it, since the “Arab Spring” was possibly largely a result of the exercise of Internet-fed “soft power” by American intelligence agencies and their allies, it would be logical and reasonable for Assad to attempt to quell it, and to attempt to keep social stability. So how does that make Assad a bad person ? And what justifies the international community demanding that he be removed from power ? And why were no representatives of the Syrian government or any of the Syrian opposition parties – “anti-Assad forces” – invited to the International Syria Support Group (ISSG) in Vienna at the end of October 2015 ? David Cameron should not include the removal of Assad from leadership in his appeal to bomb Islamic State in Syria. The parties in the Syrian civil war need to come to a negotiated settlement, but this is a separate issue to the question of the UK fighting the influence of Islamic State by bombing in Syria.

If Assad is not good enough for Syrian leadership, and the anti-Assad forces are not good enough for Syrian leadership, and Islamic State is not good enough for playing any part in Syrian governance, then what is David Cameron really arguing for ? The clue may lie in this, “putting Britain’s full diplomatic weight, as a full member of an international coalition, behind the new political talks – the Vienna process. It means working through these talks to secure a transition to an inclusive Government in Syria that responds to the needs of all the Syrian people and with which the international community could co-operate fully to help restore peace and stability to the whole country. It means continuing to support the moderate opposition in Syria, so that there is a credible alternative to ISIL and Assad. It means using our aid budget to alleviate the immediate humanitarian suffering. It means insisting, with other countries, on the preparation of a proper stabilisation and reconstruction effort in Syria once the conflict has been brought to an end. And it means continuing, and stepping up, our effort here at home to counter radicalisation.”

Aside from the humour in trying to identify who is “moderate” in the Syrian conflict, since all the opposition groups appear to be belligerent and divisive, there is a commitment within a commitment here. What David Cameron is apparently arguing for is not only the involvement of British forces in an air campaign – but also an occupied Syria – occupied by the armed forces of the economically and politically powerful nations of the world. It’s worked so well in Iraq, of course (not), that it deserves to be replicated (not).

But hang on – this is not Britain’s agenda – this is an American agenda – and it should be resisted.

It would be very costly, not only economically, but also in terms of Britain’s reputation abroad. It could spark further hatred of the United Kingdom, and could lead to further acts of terror and sabotage in Europe. Do we really want to risk that ?

How about a genuinely non-violent response to Islamic State ? Instead of interference with the state of Syria – which could well become destabilising – just look at Iraq and Libya.

A common factor with Iraq and Libya is that energy production, storage, transmission, distribution and supply has obviously been affected by the warfare and uprisings in Syria – and it seems that Islamic State have been selling Syrian oil to finance their resistance to all the other militaries in the region. Some of that money could have been used to finance terrorism in other countries, as well.

An American-led occupation of Syria would obviously assist in stabilising the energy sector, and ensuring safe passage for gas and oil, for example in pipelines and power grids. But Europe’s desire for Natural Gas from non-Russian sources should not be any kind of reason for the UK to bomb and occupy Syria.

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Energy Security : National Security #3

Although the Autumn Statement and the Spending Review are attracting all the media and political attention, I have been more interested by the UK Government’s Security Review – or to give it is full title : the “National Security Strategy and Strategic Defence and Security Review 2015”, or (SDSR), document number Cm 9161.

Its aim is stated in its sub-heading “A Secure and Prosperous United Kingdom”, but on matters of energy, I would suggest it fails to nail down security at all.

In my analysis, having dealt with what appears to be a misunderstanding about the nature of hydrocarbon markets, I then started to address the prospect of Liquefied Natural Gas (LNG) imports from the United States.

My next probe is into the global gas pipeline networks indicated by this mention of the “Southern Gas Corridor” in Section 3.40 : “…measures to protect and diversify sources of [energy] supply will become increasingly important, including the new Southern Corridor pipeline, US liquid natural gas (LNG) exports, further supplies of Australian LNG, and increased supply from Norway and North Africa.”

First of all, and perhaps of secondmost importance, the “Southern Gas Corridor” is more of a European Union policy suite than an individual pipeline. In fact, it’s not just one pipeline – several pipelines are involved, some actual, some under construction, some cancelled, some renamed, some re-routed, and some whose development is threatened by geopolitical struggle and even warfare.

It is this matter of warfare that is the most important in considering the future of Natural Gas being supplied to the European Union from the Caspian Sea region : Turkmenistan, Iran, Kazakhstan, Georgia and Azerbijan. Oh, and we should mention Uzbekistan, and its human rights abuses, before moving on. And Iraq and Syria – where Islamic State sits, brooding.

Natural Gas is probably why we are all friends with Iran again. Our long-lasting dispute with Iran was ostensibly about nuclear power, but actually, it was all about Natural Gas. When Russia were our New Best Friend, Iran had to be isolated. But now Russia is being a tricky trading partner, and being beastly to Ukraine, Iran is who we’ve turned to, to cry on their shoulder, and beg for an alternative source of gas.

So we’ve back-pedalled on the concept of waging economic or military conflict against Iran, so now we have a more southerly option for our massive East-to-West gas delivery pipeline project – a route that takes in Iran, and avoids passing through Georgia and Azerbaijan – where Russia could interfere.

The problem with this plan is that the pipeline would need to pass through Syria and/or southern Turkey at some point. Syria is the country where Islamic State is currently being bombed by the United States and some European countries. And Turkey is the country where there has been a revival of what amounts pretty much to civil war with the Kurdish population – who also live in Iraq (and the edges of Syria and Iran).

Russia is envious of the southerly Southern Gas Corridor plan, and jealous of its own version(s) of the gas-to-Europe project, and influence in Georgia and Azerbaijan. So perhaps we should not be surprised that Russia and Turkey have had several military and political stand-offs in the last few months.

We in the United Kingdom should also be cautious about getting dragged into military action in Syria – if we’re thinking seriously about future energy security. Further destabilisation of the region through military upheaval would make it difficult to complete the Southern Gas Corridor, and make the European Union increasingly dependent on Russia for energy.

In the UK, although we claim to use no Russian gas at all, we do get gas through the interconnectors from The Netherlands and Belgium, and they get gas from Russia, so actually, the UK is using Russian gas. The UK gets over half its Natural Gas from Norway, and Norway has been a strong producer of Natural Gas, so why should we be worried ? Well, it appears that Norwegian Natural Gas production may have peaked. Let’s re-visit Section 3.40 one more time : “…measures to protect and diversify sources of [energy] supply will become increasingly important, including the new Southern Corridor pipeline, US liquid natural gas (LNG) exports, further supplies of Australian LNG, and increased supply from Norway and North Africa.”

The problem is that nobody can fight geology. If Norway has peaked in Natural Gas production, there is little that anyone can do to increase it, and even if production could be raised in Norway through one technique or another (such as carbon dioxide injection into gas wells), it wouldn’t last long, and wouldn’t be very significant. Norway is going to continue to supply gas to its other trading partners besides the UK, so how could the UK commandeer more of the Norwegian supply ? It seems likely that “increased supply from Norway” is just not possible.

But back to the Southern Gas Corridor. It is in the United Kingdom’s security interests to support fresh gas supplies to the European Union. Because we may not be able to depend on Russia, we need the Southern Gas Corridor. Which is why we should think very, very carefully before getting involved in increased military attacks on Syria.

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Energy Security, National Security #2

The UK Government’s Security Review (SDSR), published 23rd November 2015, regrettably shows traces of propaganda not supported by current data.

For example, the report states in Section 3.40 that : “…measures to protect and diversify sources of [energy] supply will become increasingly important, including the new Southern Corridor pipeline, US liquid natural gas (LNG) exports, further supplies of Australian LNG, and increased supply from Norway and North Africa.”

I have already addressed my recommendation that the writers of this report should be more careful to distinguish between Liquefied Natural Gas (LNG) which is a methane-rich product that can substitute for Natural Gas; and Natural Gas Liquids (NGLs) which is a methane-poor product that cannot substitute for Natural Gas.

However, assuming that the writers of the report are talking about cryogenically stored and transported Natural Gas-sourced energy gases, there is a problem in assuming that the United States will be exporting any large amounts of LNG to Europe any time soon. In fact, there are several problems.

Just because the business and political press have been touting the exciting prospect of US LNG exports, doesn’t mean that the data backs up this meme.

First of all, although American Natural Gas production (gross withdrawals from oil and gas wells) continues to grow at a rate that appears unaffected by low Natural Gas prices, the production of shale gas appears to have plateau’d, which might well be related to Natural Gas prices.

Secondly, although exports of Natural Gas as a whole and exports of Natural Gas by pipeline remain healthy, LNG exports have fallen since the heady days of 2010-2011.

Next, although the oil and gas industry proposed lots of LNG export terminals, only a handful are being constructed, and there are already predictions that they will run under-capacity, or won’t get completed.

And further, as regards potential future LNG customers, although China is rejecting LNG imports for a variety of reasons, mostly to do with falling economic growth rates, none of that LNG currently comes from the United States. And China is planning to develop its own onshore Natural Gas and will take LNG from the Australia/Indonesia region.

The bulk of US LNG exports go to Taiwan and Japan, and Japan is unlikely to restart many nuclear power plants, so Japan will continue to need this gas.

On top of all this, the United States is a very minor LNG exporter, so major change should be considered unlikely in the near term.

And it any LNG is heading for Europe, it will probably end up in France, perhaps because they need a better backup plan for their turbulent nuclear power plants.

All of which adds up to a puzzled look on my face. How can the British Government reasonably expect the commencement of significant quantities of American LNG exports to arrive in the UK ? The only reason they believe this is because there has been American propaganda, promulgated through media of all kinds, for the last five or so years, to convince the world that the USA can achieve greater energy independence through the “explosion” in shale gas production.

It’s a story told by many successive US Governments – that the US can achieve greater energy independence, but the reality is very, very different.

The UK Government should not believe any narrative of this nature, in my view, nor include it in national security analyses.

…to be continued…

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Energy Security, National Security #1


Our assiduous government in the United Kingdom has conducted a national security review, as they should, but it appears the collective intelligence on energy of the Prime Minister’s office, the Cabinet Office and the Foreign Commonwealth Office is on a scale of poor to dangerously out of date.

No, LNG doesn’t stand for “liquid natural gas”. LNG stands for Liquefied Natural Gas. I think this report has confused LNG with NGLs.

Natural Gas Liquids, or NGLs, are condensable constituents of gas-prone hydrocarbon wells. In other words, the well in question produces a lot of gas, but at the temperatures and pressures in the well underground, hydrocarbons that would normally be liquid on the surface are in the gas phase, underground. But when they are pumped/drilled out, they are condensed to liquids. So, what are these chemicals ? Well, here are the approximate Boiling Points of various typical fossil hydrocarbons, approximate because some of these molecules have different shapes and arrangements which influences their physical properties :-

Boiling Points of Short-Chain Hydrocarbons
Methane : approximately -161.5 degrees Celsius
Ethane : approximately -89.0 degrees Celsius
Propane : approximattely -42.0 degrees Celsius
Butane : approximately -1.0 degrees Celsius
Pentane : approximately 36.1 degrees Celsius
Heptane : approximately 98.42 degrees Celsius

You would expect NGLs, liquids condensed out of Natural Gas, to be mostly butane and heavier molecules, but depending on the techniques used – which are often cryogenic – some propane and ethane can turn up in NGLs, especially if they are kept cold. The remaining methane together with small amounts of ethane and propane and a trace of higher hydrocarbons is considered “dry” Natural Gas.

By contrast, LNG is produced by a process that chills Natural Gas without separating the methane, until it is liquid, and takes up a much smaller volume, making it practical for transportation. OK, you can see why mistakes are possible. Both processes operate at sub-zero temperatures and result in liquid hydrocarbons. But it is really important to keep these concepts separate – especially as methane-free liquid forms of short-chain hydrocarbons are often used for non-energy purposes.

Amongst other criticisms I have of this report, it is important to note that the UK’s production of crude oil and Natural Gas is not “gradually” declining. It is declining at quite a pace, and so imports are “certain” to grow, not merely “likely”. I note that Natural Gas production decline is not mentioned, only oil.

…to be continued…


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DECCimation

Into the valley of career death rode the junior 200… As Adam Vaughan reported on 10th November 2015, the UK Government Department of Energy and Climate Change (DECC) is to shed 200 of its 1,600 staff as a result of the Spending Review, ordered by George Osborne, Chancellor of the Exchequer, Second Lord of the Treasury. I wonder just where the jobs will be disappearing from.

Obviously, the work on nuclear power plant decommissioning and the disposal of radioactive nuclear waste and radioactive nuclear fuel needs to continue, and it needs to be government-led, as the experiment in privatisation of these functions went spectactularly over-budget, so it had to be brought back into public hands. But would all this work be best handled by a government agency, rather than DECC ? We already have the Nuclear Decommissioning Authority – should all work on decommissioning and waste disposal be delegated to them ? Shouldn’t DECC be concentrating on energy technologies of the future, instead of trying to fix problems from our nuclear past ? Should not the “policy reset” that many are hinting at address the advancement of renewable energies ? That, surely, should be DECC’s core activity.

There are many items of work that DECC could undertake, that don’t cost a penny in subsidy, that would advance the deployment of renewable energy technologies. Developing a model of energy transition that people believe in would be a good first move. Instead of depending heavily on new nuclear power, with its huge price tag, complex support arrangements, heavy public subsidy and long and ill-determined lead times for construction, DECC modelling could show the present reality, and the gradual dropping off of coal-fired power generation and nuclear power plants – revealing an integrated balance of variable renewable energy and flexible Natural Gas for both heating and backup/stopgap/topup electricity generation. New DECC modelling could show what a progressive transition from Natural Gas to Renewable Gas would look like, and how it would meet the climate change carbon emissions reductions budgets. DECC models of the future of UK energy could include the appearance of integrated gas systems – recycling carbon dioxide emissions into new gas fuels. When the wind is blowing and the sun is shining and not all renewable power is consumed, the UK could then be making gas to store for when the sun sets and the sky is becalmed.

It may take a few years before DECC finally realises that there is no future for coal and nuclear power. Massive projects will fail, or go slow. Financing will be uncertain and backers will run away screaming. Coal-fired power plants are already being left aside in National Grid planning for electricity markets. It will not be long before coal goes the way of the dinosaurs. What we will be left with, if we are clever, is a massive improved network of solar and wind power assets, and Natural Gas-fired power generation to back them up – even if these need to be renationalised because they are required to run flexibly – so shareholders cannot be sure of their dividends. The loan guarantees that DECC tried to throw at new nuclear power will be diverted to Natural Gas power plant investment, possibly; but even then, building and operating a gas-fired power plant could not make an economic case.

It is time to recognise that “baseload” always-on power generation is dead, just as the departing chief of National Grid, Steve Holliday, has indicated. Hopefully, he’s not departing National Grid because he doesn’t believe in the future of coal or nuclear. The plain facts, as the data shows, existing coal and nuclear power plants are unreliable and insecure. Investment into new coal and nuclear plants is at best, uncertain, and for many, dubious. It is possible that gas assets will need to be renationalised. We must resort to a gas-and-power future, for transport as well as heating and power generation. And within 20 years, we must transition to low carbon gas. If only DECC could admit this.

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Andrea Leadsom : Energy Quadrilemma #2

Last week’s Energy Live News conference on 5th November 2015 was an opportunity to hear Andrea Leadsom, Minister of State for Energy at the UK Government’s Department of Energy and Climate Change (DECC) speak without notes, and she did a fine job of it. She must really believe what she said, or have been well-conditioned to rehearse what I considered to be a mix of practical reality and nonsense. The nonsense ? Well, for one thing, it appears that the UK Government still adheres to the crazy notion that nuclear power can rescue the country from blackouts.

After commenting on the previous day’s events in connection with the power grid, Andrea Leadom went on to discuss electricity transmission and demand side reduction measures. “Our policy mix is diversity.”, she said, “There is also the issue of transmission networks.” She didn’t say the word “electricity” before the word “transmission”, but that’s what she meant. She is clearly infected with the “energy is electricity” virus – a disease that makes most civil servants and government officials believe that the only energy worth talking about is electricity. Whereas, primary electricity providing energy for the UK amounts to less than 9% of the total. Compare this to the contribution of petroleum oil to the UK economy – at over 36% of primary input energy, and Natural Gas at 33%, and coal at just over 15.5%.

Andrea Leadsom admitted that – as regards electricity transmission networks went – “it was built for two generations ago, when you had a few [centralised] generators. Today, this has massively changed and [the grid] needs to continue to change, to enable local[ised] electricity generation. The other bit that’s vital is to look at our demand side. We’re not going to solve the energy problem by generating more power. Measures that the Government put in place very early to meet needs – demand reduction as well as energy efficiency…” I don’t know which government she was talking about, because the current Conservative Government have promised to support large industrial users of electricity with generous special assistance and the current organogram of DECC doesn’t even mention efficiency. The previous Coalition Government axed very successful home insulation schemes, and adopted the badly-formulated Green Deal, probably the worst policy for energy efficiency. Perhaps the Minister is referring to the efficiency of energy in use, rather than the reduction of energy use by efficiency ? There, I’d have to say that the government has done little to impact energy efficiency, as most of the initiatives that have been taken have been industry-led – commercial companies taking on projects like converting all their lighting. It is true however, that some public sector organisations have pursued energy efficiency, as, for example, the Government departments themselves have to show they are acting on energy use.

Andrea Leadsom continued, “The potential for domestic battery systems, and smart [meters], where it will be changes for you [the consumer]. We want technologies to be able to stand on their own two feet as soon as possible. Development policy needs to make sure that renewable energies succeed but at the lowest cost to consumers.” And here’s where the quadrilemma comes into focus : you need to spend capital, in other words, invest, in order to deploy new technologies. You can’t expect anything new to take off without support – whether that support comes from government subsidies or private or sovereign wealth funds or large independent investor funds. People talk about choice : if people want green energy, then green energy will be supplied. Most end users of energy say they want renewable energy, so you’d be forgiven for thinking that the choice has been makde, and that renewable energy technologies will roll out without any market intervention. The problem is that if you keep thinking that the “consumer” in the new energies market is the end user of power, heat and fuel, you’re missing the investment point. The “consumers” of new energies in the economy are the energy distributors. And they won’t buy new technologies with their own capital if they can avoid it. The reason is they need to keep their bargain with their shareholders and provide the highest returns in the form of dividends as possible. Capital investment is set at a low priority. And with any capital invested, there is the downside that, for a while at least, that capital is locked up in development of new energy plant, so almost inevitably, energy prices for consumers will rise to compensate the shareholders. You don’t get something for nothing. The enabler of last resort in energy has been assumed to be the government – who have offered a range of subsidies for renewable energy technologies. This has essentially been a bailout of the energy companies, but it seems clear that, apart from the new nuclear power programme, subsidies are now to be terminated. What, one might be tempted to ask, will precipitate new renewable energy investment, now that the subsidy programme for green power is being abandoned (and the potential for a green gas programme has been contracted) ?

Andrea Leadsom answered critics next, “There hasn’t been a U-turn on onshore wind [power development]. There was a level of concern regarding onshore development – we want[ed] to let local communities decide.”, although they didn’t like it when people in communities protested shale gas development, “We can’t simply say that onshore wind is the lowest cost – or put the cost onto consumers.” Leadsom clearly hasn’t understood the lack of capital investment from the privatised energy industry. Any correction to unpick that lack of investment will inevitably raise energy prices for British consumers – and Brits already pay the highest amount for electricity in Europe. She continued, “The trilemma poses huge issues, but offers huge opportunities.”

Then it was time for questions from the floor : “[Question] : Do you get the impression that some feel let down – [by your government] cutting green energy support ? [Answer] : We’ve been completely clear about de-carbonisation at the lowest cost. In May 2015 there was the decision about the Levy Control Framework,” [the instrument that caps the total amount added to consumer bills arising from the impact of government policy in any one year – expected to be held to ransom by new nuclear power subsidies over the next decade or so], “Those policy costs must paid by consumers, and they were expected to significantly exceed the limits by 2020,” [due to new nuclear power development, rather than new renewable energy projects], “We had to act. We remain committed to de-carbonisation – but it must be at the lowest cost.”

“[Question] : Your government was part of putting in place sweeteners to the energy industry for the purpose of incentivising investment for the last four years. The evidence is this [has worked] to stimulate investment, and they are now being withdrawn from renewable energy. Do you understand the frustration ? [Answer] : You can’t simply take the view that because industry says ‘we’re almost there’ that you need to unfairly burden the consumer. Deployment has exceeded projections…” and this is where Andrea Leadsom demonstrated that she had failed to understand. The projections of renewable energy development required to meet decarbonisation targets were partly based on projections of new nuclear power development. Assumption were made about the growth of new nuclear, within the context of the Levy Control Framework, and so the projections for renewable energies were made to be dependent on that, and consequently, the ambitions for renewable energy deployment were arbitrarily low. There was no “Path B” calculated, which would have taken into account the failure, or problems with the new nuclear power programme and given another level of projection for renewable energy.

Andrea Leadsom continued answering, “We’ve had lots of constructive discussion with industry,” but one wonders which parts of the renewable energy industry she means, and whether that only includes the very large players – as she certainly hasn’t consulted voters or consumers, “looking at other ways rather than throwing money at it [renewable energy]. [Question] : At the start your government colleagues said ‘there will be no subsidies for nuclear’. Now, clearly, there are [loan guarantee payments, Contracts for Difference and so on]. [Answer] : No, there’s been no U-turn on that. Hinkley Point C is a private investment, being funded by partners,” [ignoring the financial ill-health of EdF and Areva], “There will be no cost to the British billpayer until it generates”, [which is not quite accurate, because if the project fails, the government will reimburse the financiers], “You don’t want project risk.” And it is here that I nearly left the room. The design of Hinkley Point C is inherently risky, from safety and construction points of view. And the permission for the project to go ahead should never have been given, as the design is unproven. For the project to never even get built, or if it does get built, never be able to generator power, is the ultimate in project risk ! We need to increase British energy security, not risk it with big new nuclear power plant projects !

Questionners in the room continued, “[Question] : Does Her Majesty’s Treasury now control DECC ? [Answer] : No. It’s fantastic to have a Conservative-led DECC…[for policy direction] I would say demand-led subsidies without cost to the consumer.” Well ? Wouldn’t a “demand-led subsidy without cost to the consumer” amount to a return to the original Renewables Obligation ? Where electricity suppliers had to guarantee that a certain proportion of their supply was green power, and provide the certificates to prove it ? And there was no subsidy support to get this done ?

“[Questionner hammering the point] : Are you [in DECC] saying this is what we want, and George [Osborne, Chancellor of the Exchequer in the Treasury] says no ? [Answer] : All departments have to take cuts in public spending in order to get the economy back on track. We’re working constructively with the Treasury. [As far as past policies go it was a case of] if you throw money at it it will solve it – [but this is] not necessarily [so].” One of the reasons that subsidies for energy companies is a failed policy is because the situation has become one where the energy companies compete not to spend capital by blackmailing the government for subsidies. Nothing changes without subsidy, because the government has not stood firm and ordered mandated regulatory compliance with decarbonisation. In addition, it would need an agreement throughout the European Union to get change on this front – because energy companies would refuse to invest in the UK if the UK stop handing out subsidy candy for renewables.

“[Question from LSE] : Our students are considering careers in renewable energy. [Your government is] handing out £26 billion of fossil fuel subsidies. How will government develop at transition to renewables ? [Answer] : I disagree with you that the renewable energy section of the energy industry is cutting back. There is a massive pipeline of projects including offshore projects [in wind power”, [but smaller scale community and onshore projects have been rejected, which amounts to big energy companies winning all the rights to develop renewables], “What I would really like to see is [the development of] people moving between sectors. [The oil and gas industry has majored in] Aberdeen, [where there is also a] burgeoning offshore wind sector [so people could retrain].”

Then, Andrea Leadsom took a question about the costs of nuclear power, “[Question] : Hinkley Point C – when it finally operates – will be getting £92.50 per MWh [indexed with inflation]. Is this too much ? [Answer] : No. [Nuclear power is] absolutely reliable”, [not it isn’t – I’d recommend a look at performance of the current fleet of nuclear power plants in the UK], “It’s vital to the economy to have reliable sources of baseload power. It’s cheaper than offshore wind. Nuclear is absolutely key to it. France and our old fleets are now producing very, very cheap electricity…” Andrea Leadsom was clearly in a state of spiritual trance, because these are highly contestable factoids. The French government has just had to bail out their nuclear electricity industry, and their policy has turned away from nuclear for future power needs. Andrea Leadsom obviously doesn’t include the costs of decommissioning nuclear power plants and the disposal of the last 60 years of radioactive nuclear waste and radioactive waste nuclear fuel when she talks about the costs of nuclear power. This is a public subsidy that will need to be continued, because nobody else will handle this as there is no profit to be made from it. Well, some companies have tried to make a profit from nuclear waste and waste nuclear fuel in the UK, but it has always ended badly. We cannot just leave radioactive waste on the beach to burn away. We need to actively manage it. And that costs money that isn’t even an investment.

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Andrea Leadsom : Energy Quadrilemma #1

The energy “trilemma” is the dilemma of three dimensions : how to decarbonise the energy system, whilst continuing to provide affordable energy to consumers, at a high security of supply. The unspoken fourth dimension is that of investment : just who is going to invest in British energy, particularly if green energy booster subsidies and regulatory measures are binned ? The UK Government have in the past few years believed that they need to support new investment in new technologies, but it looks likely that this drive is about to lose all its incentives.

Today, Amber Rudd, Secretary of State for Energy and Climate Change, faces an inquiry into Department of Energy and Climate Change (DECC) accounts and budgetary spending, and some say this could be a prelude for the closure or severe contraction of the whole department. If all Climate Change measures were put into abeyance, or passed over to the new Infrastructure Commission, the only remaining function of DECC could be nuclear power plant and nuclear waste decommissioning. It might have to change its name, even.

At last week’s Energy Live News conference, Andrea Leadsom, Minister of State for Energy at the UK Government’s Department of Energy and Climate Change (DECC), headed up the morning, with a bit of a lead in from ELN Editor Sumit Bose. He said that continuing challenges arose from the optimisation of balancing reserves and demand side management in electricity generation. He said that policy had perhaps swung away from the projection of 100% electrification of British energy, as this would require at least 15% more committed capital expenditure – although there would be savings to be had in operational expenditure. He also said that there is an ongoing budgetary conflict going on in government departments about the public money available to spend on investment in infrastructure (including that for energy). Obviously, the announcement of the Infrastructure Commission is going to help in a number of areas – including reaching for full electrification of the railways – a vital project. Then he introduced the Minister.

Andrea Leadsom said, “This government is determined to resolve the energy trilemma, decarbonising at the lowest cost to the consumer whilst keeping the lights on. In the past we did tend to have crazes on different technologies….”. At this point I wondered if she included nuclear power in that set of crazes, but her later remarks confirmed she is still entrenched in that fad.

Leadsom said, “There’s been a big move to renewable energy technologies, and quite rightly too. We need a wide diversity of electricity sources. We need to try and improve the new nuclear programme…”, at which point I thought to myself, “Good luck with that !”. She said, “Renewable energy has trebled. We need [to fund] that transition from unabated coal, [turn on to] gas and renewables. [But] as we saw yesterday – there is an intermittency of renewables.”

Andrea Leadsom was referring to the previous day, when National Grid has issued their first call for surplus top-up power generation since 2012. Owing to a confluence of weather systems over the UK, the atmosphere was becalmed, and wind power output was close to zero. However, this had already been predicted to happen. The lack of wind power was not the problem.

The problem lay in two other areas. Of the completely inflexible nuclear power plants, three generators were out of action for scheduled maintenance (Hunterston B, Reactor 3; Heysham 1, Reactor 1 and Hartlepool Reactor 1). And so when two coal-fired power plants which normally would have been operational were out of action, and one failed apparently between 12:45pm and 12:51pm (Eggborough, Fiddlers and Rugeley according to various sources) dropping approximately 640 megawatts (MW) out of the system (according to BM Reports data), National Grid had to resort to elements of their balancing “toolkit” that they would not normally use.

The operators generating for the National Grid were able to ramp up Combined Cycle Gas Turbine (CCGT), and various large electricity users with special arrangements with National Grid were stopped using power. By around 18:00 6pm the emergency was over, with peak demand for the evening levelling off at around 48 gigawatts (GW).

Although National Grid handled the problem well, there was a serious risk of blackouts, but again, not because of wind power.

If during the period of supply stress, one of the nuclear power plants had suddered an outage, that would have created the “nightmare scenario”, according to Peter Atherton, from Jefferies, quoted in The Guardian newspaper. The reason for this is that the nuclear power plants are large generators, or “baseload” generators. They have suffered from problems of unreliability over the recent years, and whenever they shutdown, either in a planned or an unplanned manner, they cause the power grid a massive headache. The amount of power lost is large, and there’s sometimes no guarantee of when the nuclear generation can be restored. In addition, it takes several hours to ramp up replacement gas-fired power plants to compensate for the power lost from nuclear.

Yes, Andrea Leadsom, more renewable energy is essential to meet decarbonisation goals. Yes, Andrea Leadsom, renewable energy technologies have an inherent intermittency or variability in their output. No, Andrea Leadsom, National Grid’s problems with power generation during the winter months is not caused by wind power on the system – wind power is providing some of the cheapest resources of electricity. No, Andrea Leadsom, insecurity in Britain’s power supply is being caused by ageing nuclear and coal power plants, and the only way to fix that is to create incentives to develop a plethora of differently-scaled generation facilities, including many more decentralised renewable energy utilities, flexible top-up backup gas-fired power plants, including Combined Heat and Power town-scale plants, and Renewable Gas production and storage facilities.

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The Great Policy Reset

Everything in the UK world of energy hit a kind of slow-moving nightmare when the Department of Energy and Climate Change stopped replying to emails a few months ago, claiming they were officially ordered to focus on the “Spending Review” – as known as “The Cuts” – as ordered by George Osborne, Chancellor of Her Majesty’s Treasury.

We now know that this purdah will be terminated on 25th November 2015, when various public announcements will be made, and whatever surprises are in store, one thing is now for certain : all grapevines have been repeating this one word regarding British energy policy : “reset”.

Some are calling it a “soft reset”. Some are predicting the demise of the entire Electricity Market Reform, and all its instruments – which would include the Capacity Auction and the Contracts for Difference – which would almost inevitably throw the new nuclear power ambition into a deep dark forgettery hole.

A report back from a whispering colleague regarding the Energy Utilities Forum at the House of Lords on 4th November 2015 included these items of interest :-

“…the cost of battery power has dropped to 10% of its value of a few years ago. National Grid has a tender out for micro-second response back up products – everyone assumes this is aimed at batteries but they are agnostic … There will be what is called a “soft reset” in the energy markets announced by the government in the next few weeks – no one knows what this means but obviously yet more tinkering with regulations … On the basis that diesel fuel to Afghanistan is the most expensive in the world (true), it has to be flown in, it has been seriously proposed to fly in Small Modular Nuclear reactors to generate power. What planet are these people living on I wonder ? … A lot more inter connectors are being planned to UK from Germany, Belgium Holland and Norway I think taking it up to 12 GWe … ”

Alistair Phillips-Davies, the CEO of SSE (Scottish and Southern Energy), took part in a panel discussion at Energy Live News on 5th November 2015, in which he said that he was expecing a “reset” on the Electricity Market Reform (EMR), and that the UK Government were apparently focussing on consumers and robust carbon pricing. One view expressed was that the EMR could be moved away from market mechanisms. In other discussions, it was mentioned that the EMR Capacity Market Auction had focussed too much on energy supply, and that the second round would see a wider range of participants – including those offering demand side solutions.

Energy efficiency, and electricity demand profile flattening, were still vital to get progress on, as the power grid is going to be more efficient if it can operate within a narrower band of demand – say 30 to 40 GW daily, rather than the currently daily swing of 20 to 50 GW. There was talk of offering changing flexible, personal tariffs to smooth out the 5pm 17:00 power demand peak, as price signalling is likely to be the only way to make this happen, and comments were made about how many computer geeks would be needed to analyse all the power consumption data.

The question was asked whether the smart meter rollout could have the same demand smoothing effect as the Economy 7 tariff had in the past.

The view was expressed that the capacity market had not provided enough by way of long-term price signals – particularly for investment in low carbon energy. One question raised during the day was whether it wouldn’t be better just to set a Europe-wide price on carbon and then let markets and the energy industry decide what to put in place ?

So, in what ways could the British Government “reset” the Electricity Market Reform instruments in order to get improved results – better for pocket, planet and energy provision ? This is what I think :-

1. Keep the Capacity Mechanism for gas

The Capacity Mechanism was originally designed to keep efficient gas-fired power plants (combined cycle gas turbine, or CCGT) from closing, and to make sure that new ones were built. In the current power generation portfolio, more renewable energy, and the drive to push coal-fired power plants to their limits before they need to be closed, has meant that gas-fired generation has been sidelined, kept for infrequent use. This has damaged the economics of CCGT, both to build and to operate. This phenomenon has been seen all across Europe, and the Capacity Market was supposed to fix this. However, the auction was opened to all current power generators as well as investors in new plant, so inevitably some of the cash that was meant for gas has been snaffled up by coal and nuclear.

2. Deflate strike prices after maximum lead time to generation

No Contracts for Difference should be agreed without specifying a maximum lead time to initial generation. There is no good reason why nuclear power plants, for example, that are anticipated to take longer than 5 years to build and start generating should be promised fixed power prices – indexed to inflation. If they take longer than that to build, the power prices should be degressed for every year they are late, which should provide an incentive to complete the projects on time. These projects with their long lead times and uncertain completion dates are hogging all the potential funds for investment, and this is leading to inflexibility in planning.

3. Offer Negative Contracts for Difference

To try to re-establish a proper buildings insulation programme of works, projects should be offered an incentive in the form of contracts-for-energy-savings – in other words, aggregated heat savings from any insulation project should be offered an investment reward related to the size of the savings. This will not be rewarding energy production, but energy use reduction. Any tempering of gas demand will improve the UK’s balance of payments and lead to a healthier economy.

4. Abandon all ambition for carbon pricing

Trends in energy prices are likely to hold surprises for some decades to come. To attempt to set a price on carbon, as an aid to incentivising low carbon energy investment is likely to fail to set an appropriate investment differential in this environment of general energy pricing volatility. That is : the carbon price would be a market signal lost in a sea of other effects. Added to which, carbon costs are likely to be passed on to energy consumers before they would affect the investment decisions of energy companies.

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A Partial Meeting of Engineering Minds

So I met somebody last week, at their invitation, to talk a little bit about my research into Renewable Gas.

I can’t say who it was, as I didn’t get their permission to do so. I can probably (caveat emptor) safely say that they are a fairly significant player in the energy engineering sector.

I think they were trying to assess whether my work was a bankable asset yet, but I think they quickly realised that I am nowhere near a full proposal for a Renewable Gas system.

Although there were some technologies and options over which we had a meeting of minds, I was quite disappointed by their opinions in connection with a number of energy projects in the United Kingdom.

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Nuclear Power Is Not An Energy Policy

The British Government do not have an energy policy. They may think they have one, and they may regularly tell us that they have one, but in reality, they don’t. There are a number of elements of regulatory work and market intervention that they are engaged with, but none of these by itself is significant enough to count as a policy for energy. Moreover, all of these elements taken together do not add up to energy security, energy efficiency, decarbonisation and affordable energy.

What it takes to have an energy policy is a clear understanding of what is a realistic strategy for reinvestment in energy after the dry years of privatisation, and a focus on energy efficiency, and getting sufficient low carbon energy built to meet the Carbon Budget on time. Current British Government ambitions on energy are not realistic, will not attract sufficient investment, will not promote increased energy efficiency and will not achieve the right scale and speed of decarbonisation.

I’m going to break down my critique into a series of small chunks. The first one is a quick look at the numbers and outcomes arising from the British Government’s obsessive promotion of nuclear power, a fantasy science fiction that is out of reach, not least because the industry is dog-tired and motheaten.

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Shell and BP : from “Delay and Deny” to “Delay and Distract”

Shell, BP and some of their confederates in the European oil and gas industry have inched, or perhaps “centimetred”, forward in their narrative on climate change. Previously, the major oil and gas companies were regularly outed as deniers of climate change science; either because of their own public statements, or because of secretive support of organisations active in denying climate change science. It does seem, finally, that Shell in particular has decided to drop this counter-productive “playing of both sides”. Not that there are any “sides” to climate change science. The science on climate change is unequivocal : changes are taking place across the world, and recent global warming is unprecedented, and has almost definitely been attributed to the burning of fossil fuels and land use change.

So Shell and BP have finally realised that they need to shed the mantle of subtle or not-so-subtle denial, although they cling to the shreds of dispute when they utter doubts about the actual numbers or impacts of global warming (for example : https://www.joabbess.com/2015/06/01/shells-public-relations-offensive/). However, we have to grant them a little leeway on that, because although petrogeologists need to understand the science of global warming in order to know where to prospect for oil and gas, their corporate superiors in the organisation may not be scientists at all, and have no understanding of the global carbon cycle and why it’s so disruptive to dig up all that oil and gas hydrocarbon and burn it into the sky. So we should cut the CEOs of Shell and BP a little slack on where they plump for in the spectrum of climate change narrative – from “utter outright doom” to “trifling perturbation”. The central point is that they have stopped denying climate change. In fact, they’re being open that climate change is happening. It’s a miracle ! They have seen the light !

But not that much light, though. Shell and BP’s former position of “scepticism” of the gravity and actuality of global warming and climate change was deployed to great effect in delaying any major change in their business strategies. Obviously, it would have been unseemly to attempt to transmogrify into renewable energy businesses, which is why anybody in the executive branches who showed signs of becoming pro-green has been shunted. There are a number of fairly decent scalps on the fortress pikes, much to their shame. Shell and BP have a continuing duty to their shareholders – to make a profit from selling dirt – and this has shelved any intention to transition to lower carbon energy producers. Granted, both Shell and BP have attempted to reform their internal businesses by applying an actual or virtual price on carbon dioxide emissions, and in some aspects have cleaned up and tidied up their mining and chemical processing. The worsening chemistry of the cheaper fossil fuel resources they have started to use has had implications on their own internal emissions control, but you have to give them credit for trying to do better than they used to do. However, despite their internal adjustments, their external-facing position of denial of the seriousness of climate change has supported them in delaying major change.

With these recent public admissions of accepting climate change as a fact (although CEOs without appropriate science degrees irritatingly disagree with some of the numbers on global warming), it seems possible that Shell and BP have moved from an outright “delay and deny” position, which is to be applauded.

However, they might have moved from “delay and deny” to “delay and distract”. Since the commencement of the global climate talks, from about the 1980s, Shell and BP have said the equivalent of “if the world is serious about acting on global warming (if global warming exists, and global warming is caused by fossil fuels), then the world should agree policy for a framework, and then we will work within that framework.” This is in effect nothing more than the United Nations Framework Convention on Climate Change (UNFCCC) has put forward, so nobody has noticed that Shell and BP are avoiding taking any action themselves here, by making action somebody else’s responsibility.

Shell and BP have known that it would take some considerable time to get unanimity between governments on the reality and severity of climate change. Shell and BP knew that it would take even longer to set up a market in carbon, or a system of carbon dioxide emissions taxation. Shell and BP knew right from the outset that if they kept pushing the ball back to the United Nations, nothing would transpire. The proof of the success of this strategy was the Copenhagen conference in 2009. The next proof of the durability of this delaying tactic will be the outcomes of the Paris 2015 conference. The most that can come out of Paris is another set of slightly improved targets from governments, but no mechanism for translating these into real change.

Shell and BP and the other oil and gas companies have pushed the argument towards a price on carbon, and a market in carbon, and expensive Carbon Capture and Storage technologies. Not that a price on carbon is likely to be anywhere near high enough to pay for Carbon Capture and Storage. But anyway, the point is that these are all distractions. What really needs to happen is that Shell and BP and the rest need to change their products from high carbon to low carbon. They’ve delayed long enough. Now is the time for the United Nations to demand that the fossil fuel companies change their products.

This demand is not just about protecting the survival of the human race, or indeed, the whole biome. Everybody is basically on the same page on this : the Earth should remain liveable-inable. This demand for change is about the survival of Shell and BP as energy companies. They have already started to talk about moving their businesses away from oil to gas. There are high profile companies developing gas-powered cars, trains, ships and possibly even planes. But this will only be a first step. Natural Gas needs to be a bridge to a fully zero carbon world. The oil and gas companies need to transition from oil to gas, and then they need to transition to low carbon gas.

Renewable Gas is not merely “vapourware” – the techniques and technologies for making low carbon gas are available, and have been for decades, or in some cases, centuries. Shell and BP know they can manufacture gas instead of digging it up. They know they can do the chemistry because they already have to do much of the same chemistry in processing fossil hydrocarbons now to meet environmental and performance criteria. BP has known since the 1970s or before that it can recycle carbon in energy systems. Shell is currently producing hydrogen from biomass, and they could do more. A price on carbon is not going to make this transition to low carbon gas. While Shell and BP are delaying the low carbon transition by placing focus on the price of carbon, they could lose a lot of shareholders who shy away from the “carbon bubble” risk of hydrocarbon investment. Shell and BP need to decide for themselves that they want to survive as energy companies, and go public with their plans to transition to low carbon gas, instead of continuing to distract attention away from themselves.

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Why Shell is Wrong

So, some people do not understand why I am opposed to the proposal for a price on carbon put forward by Royal Dutch Shell and their oil and gas company confederates.

Those who have been following developments in climate change policy and the energy sector know that the oil and gas companies have been proposing a price on carbon for decades; and yet little has been achieved in cutting carbon dioxide emissions, even though carbon markets and taxes have been instituted in several regions.

Supporters of pricing carbon dioxide emissions urge the “give it time” approach, believing that continuing down the road of tweaking the price of energy in the global economy will cause a significant change in the types of resources being extracted.

My view is that economic policy and the strengthening of carbon markets and cross-border carbon taxes cannot provide a framework for timely and major shifts in the carbon intensity of energy resources, and here’s a brief analysis of why.

1.   A price on carbon shifts the locus of action on to the energy consumer and investor

A price on carbon could be expected to alter the profitability of certain fossil fuel mining, drilling and processing operations. For example, the carbon dioxide emissions of a “tank of gas” from a well-to-wheel or mine-to-wheel perspective, could be made to show up in the price on the fuel station forecourt pump. Leaving aside the question of how the carbon tax or unit price would be applied and redistributed for the moment, a price on carbon dioxide emissions could result in fuel A being more expensive than fuel B at the point of sale. Fuel A could expect to fall in popularity, and its sales could falter, and this could filter its effect back up the chain of production, and have implications on the capital expenditure on the production of Fuel A, and the confidence of the investors in investing in Fuel A, and so the oil and gas company would pull out of Fuel A.

However, the business decisions of the oil and gas company are assumed to be dependent on the consumer and the investor. By bowing to the might god of unit price, Shell and its confederates are essentially arguing that they will act only when the energy consumers and energy investors act. There are problems with this declaration of “we only do what we are told by the market” position. What if the unit price of Fuel A is only marginally affected by the price on carbon ? What if Fuel A is regarded as a superior product because of its premium price or other marketing factors ? This situation actually exists – the sales of petroleum oil-based gasoline and diesel are very healthy, despite the fact that running a car on Natural Gas, biogas or electricity could be far cheaper. Apart from the fact that so many motor cars in the global fleet have liquid fuel-oriented engines, what else is keeping people purchasing oil-based fuels when they are frequently more costly than the alternative options ?

And what about investment ? Fuel A might become more costly to produce with a price on carbon, but it will also be more expensive when it is sold, and this could create an extra margin of profit for the producers of Fuel A, and they could then return higher dividends to their shareholders. Why should investors stop holding stocks in Fuel A when their rates of return are higher ?

If neither consumers nor investors are going to change their practice because Fuel A becomes more costly than Fuel B because of a price on carbon, then the oil and gas company are not going to transition out of Fuel A resources.

For Shell to urge a price on carbon therefore, is a delegation of responsibility for change to other actors. This is irresponsible. Shell needs to lead on emissions reduction, not insist that other people change.

2.   A price on carbon will not change overall prices or purchasing decsions

In economic theory, choices about products, goods and services are based on key factors such as trust in the supplier, confidence in the product, availability and sustainability of the service, and, of course, the price. Price is a major determinant in most markets, and artificially altering the price of a vital commodity will certainly alter purchasing decisions – unless, that is, the price of the commodity in question increases across the board. If all the players in the field start offering a more expensive product, for example, because of supply chain issues felt across the market, then consumers will not change their choices.

Now consider the global markets in energy. Upwards of 80% of all energy consumed in the global economy is fossil fuel-based. Putting a price on carbon will raise the prices of energy pretty much universally. There will not be enough cleaner, greener product to purchase, so most purchasing decisions will remain the same. Price differentiation in the energy market will not be established by asserting a price on carbon.

A key part of Shell’s argument is that price differentiation will occur because of a price on carbon, and that this will drive behaviour change, and yet there is nothing to suggest it could do that effectively.

3.   A price on carbon will not enable Carbon Capture and Storage

Athough a key part of Shell’s argument about a price on carbon is the rationale that it would stimulate the growth in Carbon Capture and Storage (CCS), it seems unlikely that the world will ever agree to a price on carbon that would be sufficient to stimulate significant levels of CCS. A price on carbon will be deemed to be high enough when it creates a difference in the marginal extra production cost of a unit of one energy resource compared to another. A carbon price can only be argued for on the basis of this optimisation process – after all – a carbon price will be expected to be cost-efficient, and not punitive to markets. In other words, carbon prices will be tolerated if they tickle the final cost of energy, but not if they mangle with it. However, CCS could imply the use of 20% to 45% extra energy consumption at a facility or plant. In other words, CCS would create a parasitic load on energy resources that is not slim enough to be supported by a cost-optimal carbon price.

Some argue that the technology for CCS is improving, and that the parasitic load of CCS at installations could be reduced to around 10% to 15% extra energy consumption. However, it is hard to imagine a price on carbon that would pay even for this. And additionally, CCS will continue to require higher levels of energy consumption which is highly inefficient in the use of resources.

Shell’s argument that CCS is vital, and that a price on carbon can support CCS, is invalidated by this simple analysis.

4.   Shell needs to be fully engaged in energy transition

Calling for a price on carbon diverts attention from the fact that Shell itself needs to transition out of fossil fuels in order for the world to decarbonise its energy.

Shell rightly says that they should stick to their “core capabilities” – in other words geology and chemistry, instead of wind power and solar power. However, they need to demonstrate that they are willing to act within their central business activities.

Prior to the explosion in the exploitation of deep geological hydrocarbon resources for liquid and gas fuels, there was an energy economy that used coal and chemistry to manufacture gas and liquid fuels. Manufactured gas could still replace Natural Gas, if there are climate, economic or technological limits to how much Natural Gas can be resourced or safely deployed. Of course, to meet climate policy goals, coal chemistry would need to be replaced by biomass chemistry, and significant development of Renewable Hydrogen technologies.

Within its own production facilities, Shell has the answers to meet this challenge. Instead of telling the rest of the world to change its economy and its behaviour, Shell should take up the baton of transition, and perfect its production of low carbon manufactured gas.

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The Price on Carbon

Although The Guardian newspaper employs intelligent people, sometimes they don’t realise they’ve been duped into acting as a mouthpiece for corporate propaganda. The “strapline” for the organisation is “Owned by no one. Free to say anything.”, and so it seemed like a major coup to be granted an interview with Ben Van Beurden of Royal Dutch Shell, recorded for a podcast that was uploaded on 29th May 2015.

However, the journalists, outoing editor Alan Rusbridger, Damian Carrington and Terry McAllister probably didn’t fully appreciate that this was part of an orchestrated piece of public relations. The same day as the podcast was published, Shell, along with five other oil and gas companies wrote a letter to officials of the United Nations Framework Convention on Climate Change (UNFCCC).

Favourable copy appeared in various places, for example, at Climate Central, The Daily Telegraph and in the Financial Times where a letter also appeared.

In the letter to Christiana Figueres and Laurent Fabius of the UNFCCC, Shell and fellow companies BP, BG Group, Eni, Total and Statoil, wrote that they appreciate the risks of the “critical challenge” of climate change and that they “stand ready to play their part”. After listing their contributions towards a lower carbon energy economy, they wrote :-

“For us to do more, we need governments across the world to provide us with clear, stable, long-term, ambitious policy frameworks. This would reduce uncertainty and help stimulate investments in the right low carbon technologies and the right resources at the right pace.”

“We believe that a price on carbon should be a key element of these frameworks. If governments act to price carbon, this discourages high carbon options and encourages the most efficient ways of reducing emissions widely, including reduced demand for the most carbon intensive fossil fuels, greater energy efficiency, the use of natural gas in place of coal, increased investment in carbon capture and storage, renewable energy, smart buildings and grids, off-grid access to energy, cleaner cars and new mobility business models and behaviors.”

The obvious problem with this call is that the oil and gas companies are pushing responsibility for change out to other actors in the economy, namely, the governments; yet the governments have been stymied at every turn by the lobbying of the oil and gas companies – a non-virtuous cycle of pressure. Where is the commitment by the oil and gas companies to act regardless of regulatory framework ?

I think that many of the technological and efficiency gains mentioned above can be achieved without pricing carbon, and I also think that efforts to assert a price on carbon dioxide emissions will fail to achieve significant change. Here are my top five reasons :-

1. Large portions of the economy will probably be ringfenced from participating in a carbon market or have exemptions from paying a carbon tax. There will always be special pleading, and it is likely that large industrial concerns, and centralised transportation such as aviation, will be able to beat back at a liability for paying for carbon dioxide emissions. Large industrial manufacture will be able to claim that their business is essential in sustaining the economy, so they should not be subject to a price on carbon. International industry and aviation, because of its international nature, will be able to claim that a carbon tax or a market in carbon could infringe their cross-border rights to trade without punitive regulatory charges.

2. Those who dig up carbon will not pay the carbon price. Fossil fuel producers will pass any carbon costs placed on them to the end consumers of fossil fuels. A price on carbon will inevitably make the cost of energy more expensive for every consumer, since somewhere in the region of 80% of global energy is fossil fuel-derived. Customers do not have a non-carbon option to turn to, so will be forced to pay the carbon charges.

3. A price on carbon dioxide emissions will not stop energy producers digging up carbon. An artificial re-levelising of the costs of high carbon energy will certainly deter some projects from going ahead, as they will become unprofitable – such as heavy oil, tar sands and remote oil, such as in the Arctic. However, even with jiggled energy prices from a price on carbon, fossil fuel producers will continue to dig up carbon and sell it to be burned into the sky.

4. A price on carbon dioxide emissions is being touted as a way to incentivise carbon capture and storage (CCS) by the authors of the letter – and we’ve known since they first started talking about CCS in the 1990s that they believe CCS can wring great change. Yet CCS will only be viable at centralised facilities, such as mines and power plants. It will not be possible to apply CCS in transport, or in millions of homes with gas-fired boilers.

5. A price on carbon dioxide emissions will not cause the real change that is needed – the world should as far as possible stop digging up carbon and burning it into the sky. What fossil carbon that still enters energy systems should be recycled where possible, using Renewable Gas technologies, and any other carbon that enters the energy systems should be sourced from renewable resources such as biomass.

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Shell’s Public Relations Offensive #2

And so it has begun – Shell’s public relations offensive ahead of the 2015 Paris climate talks. The substance of their “advocacy” – and for a heavyweight corporation, it’s less lobbying than badgering – is that the rest of the world should adapt. Policymakers should set a price on carbon, according to Shell. A price on carbon might make some dirty, polluting energy projects unprofitable, and there’s some value in that. A price on carbon might also stimulate a certain amount of Carbon Capture and Storage, or CCS, the capturing and permanent underground sequestration of carbon dioxide at large mines, industrial plant and power stations. But how much CCS could be incentivised by pricing carbon is still unclear. Egging on the rest of the world to price carbon would give Shell the room to carry on digging up carbon and burning it and then capturing it and burying it – because energy prices would inevitably rise to cover this cost. Shell continues with the line that they started in the 1990s – that they should continue to dig up carbon and burn it, or sell it to other people to burn, and that the rest of the world should continue to pay for the carbon to be captured and buried – but Shell has not answered a basic problem. As any physicist could tell you, CCS is incredibly energy-inefficient, which makes it cost-inefficient. A price on carbon wouldn’t solve that. It would be far more energy-efficient, and therefore cost-efficient, to either not dig up the carbon in the first place, or, failing that, recycle carbon dioxide into new energy. Shell have the chemical prowess to recycle carbon dioxide into Renewable Gas, but they are still not planning to do it. They are continuing to offer us the worst of all possible worlds. They are absolutely right to stick to their “core capabilities” – other corporations can ramp up renewable electricity such as wind and solar farms – but Shell does chemistry, so it is appropriate for them to manufacture Renewable Gas. They are already using most of the basic process steps in their production of synthetic crude in Canada, and their processing of coal and biomass in The Netherlands. They need to join the dots and aim for Renewable Gas. This will be far less expensive, and much more efficient, than Carbon Capture and Storage. The world does not need to shoulder the expense and effort of setting a price on carbon. Shell and its fellow fossil fuel companies need to transition out to Renewable Gas.

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Amber Rudd : First Skirmish

As if to provide proof for the sneaking suspicion that Great Britain is run by the wealthy, rather than by the people, and that energy policy is decided by a close-knit circle of privileged dynasties, up bubbles Amber Rudd MP’s first whirl of skirmish as Secretary of State for Energy and Climate Change : her brother Roland is chairperson of a lobbying firm, Finsbury, which is seeking to get state approval for a controversial gas storage scheme at Preesall, near Fleetwood, on behalf of the developers, Halite Energy of Preston, Lancashire.

Whilst some claim there is a starkly obvious conflict of interest for Rudd to take part in the decision-making process, the Department of Energy and Climate Change (DECC) could have denied it, but have instead confirmed that the potential reversal of a 2013 decision will be made, not by Rudd, but by Lord Bourne.

New gas storage in the United Kingdom is a crucial piece of the energy infrastructure provision, as recognised by successive governments. Developments have been ongoing, such as the opening of the Holford facility at Byley in Cheshire. Besides new gas storage, there are anticipated improvements for interconnectors with mainland Europe. These are needed for raising the volume of Natural Gas available to the British market, and for optimising Natural Gas flows and sales in the European regional context – a part of the EC’s “Energy Union”.

An underlying issue not much aired is that increased gas infrastructure is necessary not just to improve competition in the energy markets – it is also to compensate for Peak Natural Gas in the North Sea – something many commentators regularly strive to deny. The new Conservative Government policy on energy is not fit to meet this challenge. The new Secretary of State has gone public about the UK Government’s continued commitment to the exploitation of shale gas – a resource that even her own experts can tell her is unlikely to produce more than a footnote to annual gas supplies for several decades. In addition, should David Cameron be forced to usher in a Referendum on Europe, and the voters petulantly pull out of the Europe project, Britain’s control over Natural Gas imports is likely to suffer, either because of the failure of the “Energy Union” in markets and infrastructure, or because of cost perturbations.

Amber Rudd MP is sitting on a mountain of trouble, undergirded by energy policy vapourware : the promotion of shale gas is not going to solve Britain’s gas import surge; the devotion to new nuclear power is not going to bring new atomic electrons to the grid for decades, and the UK Continental Shelf is going to be expensive for the Treasury to incentivise to mine. What Amber needs is a proper energy policy, based on focused support for low carbon technologies, such as wind power, solar power and Renewable Gas to back up renewable electricity when the sun is not shining and wind is not blowing.

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What we need is DNUDE

The UK Government’s so-called Department of Energy and Climate Change (DECC) is a complete misnomer : for example, a very large proportion of its budget is expended on anti-energy – the decommissioning of end-of-life nuclear power plants and the safe disposal or reprocessing of the radioactive waste and radioactive spent nuclear fuel. This department needs to be broken up in my view, mainly because key policy and budgetary aims are conflictual, and poor choices in expenditure could be precipitated as the Treasury is insisting on further central budget cuts. Additionally, the new Conservative Government is showing signs of continuing with the plan to support the mining for shale gas and shale oil onshore in the UK, and this is neither an energy policy nor a Climate Change policy.

First of all, I propose a Department for Nuclear Decommissioning, or DNUDE. The main reason for this is that this function has little to do with the production of energy, and has more to accomplish as the safeguard of public health and safety, not to mention national security, in the years ahead. Cuts to this department should be kept to a bare minimum, as nuclear decommissioning is a vital task. Misspending and mismanagement in this area is legendary, so focusing on these activities separately to the other DECC functions could help channel the proper attention to expenditure, contracts and the right choice of engineering solutions. This department could also assist with the shelving of plans for new nuclear power plants, which are becoming increasingly unworkable, as it becomes patently obvious that the nuclear engineering industry is unfit to deliver.

Next, I propose a Department of Low Carbon Initiatives, or DLOCIN. Going on past form, very little is expected to be spent by the new Conservative Government on clean, green technology, energy conservation, and renewable energy. Paying for renewable energy is going to be shunted onto power consumer bills, and the Government expects energy and engineering companies to use capital expenditure to invest in new low carbon power plants and other low carbon installations. DECC has not been a Department for Energy, it’s been a Department for Markets in Energy : but with the budgetary cuts ahead, all of that will die. DLOCIN could be a preppy, chirpy, communications-focused department, with obviously little money to spread around and lots of website graphics in bold colours. One thing they could usefully do is promote energy efficiency, whilst not actually spending any money, something the previous Government Coalition of the Conservatives and Liberal Democrats showed via the Green Deal could be magnificently effective in not achieving much in the way of energy efficiency at all.

Then, I suggest the UK Government should have a Department of Fossil Fuels or DOFFF. It should be made obvious by this separation that new energy resources that come out of the ground, such as shale gas and shale oil, and new North Sea petroleum and Natural Gas are not a solution for Climate Change. Having shale gas exploitation pushed by the existing Department of Energy and Climate Change or DECC is deeply cognitively dissonant, and such conflicts should be removed. DOFFF should be planted in the UK Treasury, as there is a symbiotic relationship between fossil fuel production and central taxation. The North Sea is depleting, and onshore oil and gas could take decades to ramp up. As the UK Government gets increasingly desperate to stimulate fresh UK production of oil and gas, the Treasury will be offering juicier and fruitier sweeteners, in the form of tax breaks, loans and other financing instruments. Additionally, as it becomes clearer that the UK is becoming increasingly dependent on imports of oil and gas, DOFFF will need to be under the wing of the Ministry of War, sorry, I mean the Ministry of Defence, as the UK starts to deploy troops to maintain access to vital fossil fuel resources in any country that can supply them. An added bonus of cleaving DECC to produce DOFFF will be that the moribund coal industry can be hooked into it, preventing it from draining resources and patience from other departments.

Finally, I suggest the UK Government should merge its Climate Change functions into what is now known as Defra – the Department for Environment, Food and Rural Affairs. Why ? Because with this Conservative Government, acting on Climate Change is going to be pared down to contingency and adaptational responses, such as dredging rivers and repairing flood defences.

The UK Government would end up without any Department for Energy – apart from the teetering antiquated fossil fuel section. It would also end up without a Department clearly committed to action on Climate Change. At least this would be more honest and truthful than keeping the E and CC in DECC.

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The Great Transition to Gas

Hello, hello; what have we here then ? Royal Dutch Shell buying out BG Group (formerly known as British Gas). Is this the start of the great transition out of petroleum oil into gas fuels ?

Volatile crude petroleum oil commodity prices over the last decade have played some undoubted havoc with oil and gas company strategy. High crude prices have pushed the choice of refinery feedstocks towards cheap heavy and immature gunk; influenced decisions about the choices for new petrorefineries and caused ripples of panic amongst trade and transport chiefs : you can’t keep the engine of globalisation ticking over if the key fuel is getting considerably more expensive, and you can’t meet your carbon budgets without restricting supplies.

Low crude commodity prices have surely caused oil and gas corporation leaders to break out into the proverbial sweat. Heavy oil, deep oil, and complicated oil suddenly become unprofitable to mine, drill and pump. Because the economic balance of refinery shifts. Because low commodity prices must translate into low end user refined product prices.

There maybe isn’t an ideal commodity price for crude oil. All the while, as crude oil commodity prices jump around like a medieval flea, the price of Natural Gas, and the gassy “light ends” of slightly unconventional and deep crude oil, stay quite cheap to produce and cheap to use. It’s a shame that there are so many vehicles on the road/sea/rails that use liquid fuels…all this is very likely to change.

Shell appear to be consolidating their future gas business by buying out the competition. Hurrah for common sense ! The next stage of their evolution, after the transition of all oil applications to gas, will be to ramp up Renewable Gas production : low carbon gas supplies will decarbonise every part of the economy, from power generation, to transport, to heating, to industrial chemistry.

This is a viable low carbon solution – to accelerate the use of renewable electricity – wind power and solar principally – and at the same time, transition the oil and gas companies to become gas companies, and thence to Renewable Gas companies.

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ETI, ESME and Engagement

This evening I attended an interesting meeting hosted by the Energy Institute, and held at the Royal College of Nursing in Cavendish Square, London. The speaker for the event was Dr Scott Milne, of the Energy Technologies Institute (ETI), who introduced us in a “meet the public” way to the recent launch of two sample scenarios for the future of Britain’s energy : “Clockwork” and “Patchwork” from the ETI’s Energy System Modelling Environment (ESME).

What follows is me typing up my notes that I made this evening. It is not intended to be a literal or verbatim, word-for-word record of Dr Milne’s words, as I took the notes longhand and slowly. Where I have put things in square brackets ( [ ] ), they are my additions.


[ Before the talk, I chat with somebody whose name I didn’t catch, who in all honesty asked me whether I thought fusion nuclear energy would be a likely energy technology choice by 2050. ]

So, what is the ETI ? It’s a public-private partnership, aimed at de-risking various technologies and technology families. We receive funding from BP, Shell, EdF, Caterpillar, Rolls-Royce […] We have a large number of stakeholders who take the work we put out for tender to be done. We aim to build internally-consistent models – using “exogenous assumptions” [ externally-imposed ]. We have about 250 profiles in the model – costs are added in. The ESME modelling is policy-neutral – unless where we intervene to state otherwise – for example, to say no nuclear power, or Carbon Capture and Storage (CCS) to be applied later rather than sooner. Our starting point is existing stocks of energy installations as of 2010, which are gradually retired out, and we are subject to supply chain constraints in replacing them. How quickly can we deploy new solutions ? We have a “spatial disaggregation” in the model – with 12 separate regions of the UK. We have offshore nodes, and storage points, and carbon dioxide capture and storage is pushed offshore. Our modelling is not as finely detailed as the National Grid’s power dispatch model. We have seasons, and five parts of a day – a model suitable for load balancing purposes. We assume a 1-in-20 risk of a cold snap – a “peak day” of consumption. There is a probabilistic element for each technology on cost, and the modelling is done using the Monte Carlo method (repeated random model runs). This helps us to identify which technologies are optimal. Our partners DECC (Her Majesty’s Government Department of Energy and Climate Change) and CCC (Committee on Climate Change) are users of the model, and the model provides an evidence base for them. The low carbon energy research models (ESME) are used by some academic groups. We came public with these for the first time this year, and we launched on 4th March 2015.

In the “Clockwork” scenario, transport continues to be liquid fuel options as we have today, and using carbon offsets from elsewhere in the energy system. There are a few things we need to believe as part of this scenario. We need to accept the “negative emissions” possibilities of Carbon Capture and Storage combined with biomass (Biomass+CCS) – this is still certainly open to question. By 2050 there should be ultra-low carbon vehicles. These two scenarios “Clockwork” and “Patchwork” are not extremes as in some modelling done elsewhere – they are more balanced between the two. The “Clockwork” scenario is not about decisions made at the household level – whereas “Patchwork” is – it involves engagement from householders, and includes influences and constraints besides decarbonisation – for example, the cost of energy and air quality. In the “Patchwork” scenario there is a limited role for biomass in space heating, and you see a greater push for low carbon transport. Plus, space heating is decarbonised in parallel [ partly through demand reduction ].

In “Patchwork” there is less central governance. You see experimentation in different regions, and only at the end see which technologies have been picked. There is a stronger burden on households in “Patchwork”, and more emphasis on renewable energy. Coal is switched off in both scenarios by 2030, and it is not replaced by coal-with-Carbon-Capture-and-Storage (Coal+CCS) but with Natural-Gas-with-Carbon-Capture-and-Storage (Gas+CCS). In the “Clockwork” scenario there is still a role for renewable energy, but not so significant. Hydrogen gas turbine generation takes over the “peaker plant” (on-the-spot generation at peak demand) role from Gas+CCS. The hydrogen comes from Biomass+CCS. There is large scale geological storage of hydrogen. In the “Patchwork” scenario, offshore wind plays a major role – the model assumes that the land available for onshore wind is capped (that’s a choice). Solar power is also a big factor in “Patchwork”, but still making a fairly modest contribution by 2050. Also, there is an assumption that biomass contributes directly for power generation. In the “Patchwork” scenario, solar power makes a major contribution to capacity (gigawatts) but less to generation (terawatt hours).

As regards space heating (the heating of the insides of buildings) : in the “Clockwork” scenario, heat pumps make a major contribution – and there are big step changes in the final decades compared to “Patchwork”. Gas boilers are being built for the 1-in-20 year cold snaps – but not for the home [ – for district heating ]. There is a high demand for heat in the “Clockwork” scenario – where householders are “comfort takers” and homes may be heated to 21 degrees Celsius. In the “Patchwork” scenario, people have more engagement with the management of energy, better at managing their use of energy at home, and so less heat is used. There is a strong role for retrofits [ for insulation for energy demand reduction ] behind the scenes. Population continues to grow and the number of individual households continues to grow.

As regards transport : Heavy Goods Vehicles (HGV) and Light Duty Vehicles (LDV) are important (although the graph only shows cars). In “Patchwork” there is a move towards urban living – and so people will be thinking more about how transport can be done – car pooling and car sharing. In “Clockwork”, we are seeing aspirations – people flash the cash – and pay more to do more. The Biomass+CCS carbon dioxide emissions offsets create more headroom for transport emissions in “Clockwork”. The model could explore lowering demand for transport – through a shift to gas from liquid fuels – fuel/gas hybrids actually [dual fuel]. There are implications for liquid fuel – significant in both cases. There are therefore implications for fuell stations – for example, if cars are coming to the forecourt less often for fuel because of vehicle fuel use efficiency. We need to maintain the liquid fuelling infrastructure – but we need electric vehicle charging and give hydrogen refuelling infrastructure as well. There is quite an overlap in investment. Even if we stop selling liquid fuel vehicles, they will stay on the road for some time – we assume 13 years.

In terms of what it means – in terms of cost compared to its fossil fuel “dark cousin” [ business as usual trajectory ] : “Patchwork” works out to be more expensive – these graphs show capex only [ capital expenditure on investment in assets and infrastructure ]. For “Patchwork” [ although capex is higher ], the resource cost is less [ owing to more renewable energy being sourced. ] These graphs give an idea of when money needs to be spent and how much – it’s not insignificant [ between 1.4 and 1.6 % of GDP ? ] To make the investments, buildings and space heating could be considered infrastructure [ and need central spending ? ] The costs of transport are heavier in “Patchwork”. Both have “negative emissions” (from Biomass+CCS). By having “negative emissions”, you are allowed to have some of these fossil fuel options. This is important as air travel and shipping will need fossil fuels. You cannot fly aeroplanes on hydrogen, for example. The outlook for industry takes a bit more explaining.

Taking action over the next decade is a no-regrets option. We need to replace energy installations – replacing them with low carbon options gives only a marginal extra cost. We lose very little by hedging – even if carbon action doesn’t take place. Developing the technologies enhances export capability – at least we will not be an importer. If we wait to implement low carbon technologies, we have less time for the transition. This model operates over a timescale of 35 years. Development of the technologies will involve some degree of redundancy [ not all developments will be useful going forward ], but we need to prove them up, cost them out. If we wait until it is clear we must act, we will have to jump to things that are not yet costed up. If there are no technological solutions worked out, we might have to slash energy demand – which would politically be very challenging – you can imagine how people would react to having a cap on the energy they are permitted to use at home. If we attempt to make an 80% reduction in carbon dioxide emissions later on, we will have higher cumulative [ overall ] emissions – and as a result we would need tougher carbon emissions cuts.

Things we have concluded from this modelling : we are not yet at a stage where we need to say definitively what needs to be used, for example, decide for nuclear power, CCS etc. Biomass+CCS is challenging – there are questions around the lifecycle carbon dioxide emissions. But if we don’t have it, it doubles the abatement cost. We have shown that a high level of intermittent renewable energy in the power sector is quite manageable – we can use the excess in renewable electricity generation for building up renewable heat – for example hydrogen electrolysis for hydrogen production [ “Power to Gas” or “WindGas” ] – which is not modelled. We hope these two scenarios can be a starting point.

[ Questions and Answers ]

[ Question from the floor ]

[ Answer from Dr Milne ] …For solar power we assumed the lowest cost profile. There are various studies for LCOE – Levelised Cost of Energy [ Levelised Cost of Electricity ] – they are not showing wider system integration costs – for example, the extra storage needed [ for excess generation that needs to be stored somehow for later use, when the sun has set ]. “Counterfactuals” – is this useful in this case or that case or … ? Model a whole range of scenarios around that.

[ Question from William Orchard ] Results all depend on assumptions in the models. How doees it treat waste fossil heat [ heat from burning fossil fuels for power generation at centralised power plants ] ? The European Union treats renewable heat dumped in the sea as renewable [ ? ] but considers waste heat in […] as non-renewable – the difference is significant. It also depends on your COPs [ coefficient of performance ] in district heating networks. Did you model nuclear reactor CHP [ combined heat and power ] ? What COPs did you use for the heat networks ? How did you treat biomass emissions ?

[ Answer from Dr Milne ] We don’t have to consider what the EU thinks. We do have an option to meet the RED targets [ Renewable Energy Directive ]. Waste heat from large scale power plants plays a huge role in our model – free heat. We build pipelines to link waste heat sources to networks. Question – how to build the heat network ? We need to justify building big pipelines to transport heat. [ Why not transport the heat in the form of gas ? That is, use the waste power plant heat to manufacture gas to distribute to local CHP schemes via a much smaller pipeline than a heat pipeline would need ? ] For Biomass CHP, we considered a range of scales. We gave it a 92% carbon credit. We also have biomass imports in the scenario – a 67% carbon credit. It’s a “pump”. Do we think we can ? We take an off-model view first of all and then apply it to the model.

[ Question from the floor ] This work is well overdue. Thank you for doing it. You say you will change from coal to gas. Why are you not considering more offshore wind – you can expect to bring on nuclear power more slowly ? I’m worried when you put in 60 more years of gas when you put Gas+CCS in. Have you considered fracking [ for shale gas ] ?

[ Answer from Dr Milne ] In the “Clockwork” scenario, it relies on [ strong early development in ] nuclear and CCS mostly – there is a stronger role for renewable energy in “Patchwork”. “Patchwork” is the more moderate speed [ of development of nuclear power and CCS ] as old capacity retires – this is why there is a role and space for other technologies. What the model wants is gas – but it’s not saying where that gas is coming from.

[ Question from the floor ] Have you put any cap on gas ?

[ Answer from Dr Milne ] The only new gas built is CCGT+CCS (Natural Gas-fired Combined Cycle Gas Turbine plus CCS). As you get more [ stringent carbon controls ] will need hydrogen turbines.

[ Question from the floor ] What are the key parameters that break the model ? That you can’t do without ?

[ Answer from Dr Milne ] Biomass+CCS for sure. If you make a lot of assumptions – such as no extra energy demand – then yeah, we’ll be fine. Otherwise, we need Biomass+CCS.

[ Question from the floor ] Where do you get your metrics from ? Isn’t District Heating less efficient than people say ? Isn’t there an anti-competition issue – as District Heating is a single source of supply ? And what about the parasitic loads ? And what happens if there’s not such a big demand for heat [ for example, due to high levels of building insulation ] ?

[ Answer from Dr Milne ] We used central projections from government – we test the cost of energy. Our members used to build some of this stuff. We replace data sets with studies – more independent sources. We have diversified out data set over time. The District Heating networks – it will need a different way of doing markets. It may not be policies that stop you… We assume that 90% of the housing stock remains – we see “difficult households” – not “low-hanging fruits” [ ripe for change ]. We envisage these will need complex packages – if you think it’s going to be received. We need to work this up more.

[ Question from the floor ] Have you calculated the carbon emissions ?

[ Answer from Dr Milne ] Zero or negative. The power sector is 100% de-carbonised by 2030. I can get the figures from our database – gCO2/kWh

[ Question from William Orchard ] MARKAL (previously favourite energy modelling tool) was not fit for purpose for modelling heat networks… MacKay…

[ Answer from Dr Milne ] MARKAL has been shelved, replaced by UK-TIMES…

[ Question from William Orchard ] …fundamentally has the same problem as MARKAL – uses the same algorithms. It wasn’t able to generate appropriate answers to the question of whether it was cost-effective to build heat networks…

[ Answer from Dr Milne ] We use the Biomass Value Chain Model (BVCM). This is new and includes hydrogen and CCS. We include the “tortuosity factor” (kinkiness) of pipeline layout. We model 9 types of buildings. With a hydrogen network – would you want to start small, for example with distributing cannisters… ?

[ Wrap up ]

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Renewable Gas : A Presentation #2

So, this is the second slide from my presentation at Birkbeck, University of London, last week.

When making an argument, it is best to start from consensus and well-accredited data, so I started with government analysis of the energy sector of the economy in the United Kingdom. Production of Natural Gas in the UK is declining, and imports are rising.

I did not go into much detail about this chart, but there is a wealth of analysis out there that I would recommend people check out.

Despite continued investment in oil and gas, North Sea production is declining, and it is generally accepted that this basin or province as a whole is depleting – that is – “running out”.

Here, for example, is more DECC data. The Summary of UK Estimated Remaining Recoverable Hydrocarbon Resources, published in 2014, had these numbers for UK Oil and Gas Reserves :-

billion barrels of oil equivalentLowerCentralUpper
Oil and Gas Reserves4.58.212.1
Potential Additional Resources1.43.46.4
Undiscovered Resources2.16.19.2

The summary concluded with the estimate of remaining recoverable hydrocarbons from the UK Continental Shelf (offshore) resources would be between 11.1 and 21 billion barrels of oil equivalent (bboe).

Other data in the report showed estimates of cumuluative and annual oil production :-

billion barrels of oil equivalentCumulative productionAnnual production
To date to end 201241.30.6 (in 2012)
To date to end 201241.80.5 (in 2013)
Additional production 2013 to 20307.00.44 (average 2014 to 2030)
Additional production 2013 to 20409.10.21 (average 2031 to 2040)
Additional production 2013 to 205010.40.13 (average 2041 to 2050)

Another source of estimates on remaining oil and gas resources, reserves and yet-to-find potential is from the Wood Review of 2014 :-

billion barrels of oil equivalentLow caseMid-caseHigh case
DECC reference122235
Wood Review1224

So it’s clear that British oil and gas production is in decline, and that also, reserves and resources to exploit are depleting. The Wood Review made several recommendations to pump up production, and maximise the total recoverable quantities. Some interpreted this as an indication that good times were ahead. However, increased production in the near future is only going to deplete these resources faster.

OK, so the UK is finding the North Sea running dry, but what about other countries ? This from the BP Statistical Review of Energy, 2014 :-

Oil – proved reserves
Thousand million barrels

At end 1993

At end 2003

At end 2012
United Kingdom4.54.33.0
Denmark0.71.30.7
Norway9.610.19.2

Natural gas – Proved Reserves
Trillion cubic metres

At end 1993

At end 2003

At end 2012
United Kingdom0.60.90.2
Denmark0.10.1
Netherlands1.71.40.9
Norway1.42.52.1
Germany0.20.20.1

Oil and gas chief executives may be in denial about a peak in global crude oil production, but they don’t challenge geology on the North Sea. Here’s what BP’s CEO Bob Dudley said on 17th February 2015, during a presentation of the BP Energy Outlook 2035 :-

“The North sea is a very mature oil and gas province and it will inevitably go through a decline. It peaked in 1999 at around 2.9 millions barrels per day and our projections are that it will be half a million barrels in 2035”.

That’s “inevitably” regardless of the application of innovation and new technology. New kit might bring on production sooner, but won’t replenish the final count of reserves to exploit.

So what are the likely dates for Peak Oil and Peak Natural Gas production in the North Sea bordering countries ?

Norway : by 2030.

The Netherlands : peaked already. Due to become a net importer of Natural Gas by 2025.

Denmark : net importer of oil and gas by 2030.

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Zero Careers In Plainspeaking

There are many ways to make a living, but there appear to be zero careers in plainspeaking.

I mean, who could I justify working with, or for ? And would any of them be prepared to accept me speaking my mind ?

Much of what I’ve been saying over the last ten years has been along the lines of “that will never work”, but people generally don’t get consulted or hired for picking holes in an organisation’s pet projects or business models.

Could I imagine myself taking on a role in the British Government ? Short answer : no.

The slightly longer answer : The British Government Department of Energy and Climate Change (DECC) ? No, they’re still hooked on the failed technology of nuclear power, the stupendously expensive and out-of-reach Carbon Capture and Storage (CCS), and the mythical beast of shale gas. OK, so they have a regular “coffee club” about Green Hydrogen (whatever that turns out to be according to their collective ruminations), and they’ve commissioned reports on synthetic methane, but I just couldn’t imagine they’re ever going to work up a serious plan on Renewable Gas. The British Government Department for Transport ? No, they still haven’t adopted a clear vision of the transition of the transport sector to low carbon energy. They’re still chipping away at things instead of coming up with a strategy.

Could I imagine myself taking on a role with a British oil and gas multinational ? Short and very terse and emphatic answer : no.

The extended answer : The oil and gas companies have had generous support and understanding from the world’s governments, and are respected and acclaimed. Yet they are in denial about “unburnable carbon” assets, and have dismissed the need for Energy Change that is the outcome of Peak Oil (whether on the supply or the demand side). Sneakily, they have also played both sides on Climate Change. Several major oil and gas companies have funded or in other ways supported Climate Change science denial. Additionally, the policy recommendations coming from the oil and gas companies are what I call a “delayer’s game”. For example, BP continues to recommend the adoption of a strong price on carbon, yet they know this would be politically unpalatable and take decades (if ever) to bring into effect. Shell continues to argue for extensive public subsidy support for Carbon Capture and Storage (CCS), knowing this would involve such huge sums of money, so it’s never going to happen, at least not for several decades. How on Earth could I work on any project with these corporations unless they adopt, from the centre, a genuine plan for transition out of fossil fuels ? I’m willing to accept that transition necessitates the continued use of Natural Gas and some petroleum for some decades, but BP and Royal Dutch Shell do need to have an actual plan for a transition to Renewable Gas and renewable power, otherwise I would be compromising everything I know by working with them.

Could I imagine myself taking on a role with a large engineering firm, such as Siemens, GE, or Alstom, taking part in a project on manufactured low carbon gas ? I suppose so. I mean, I’ve done an IT project with Siemens before. However, they would need to demonstrate that they are driving for a Renewable Gas transition before I could join a gas project with them. They might not want to be so bold and up-front about it, because they could risk the wrath of the oil and gas companies, whose business model would be destroyed by engineered gas and fuel solutions.

Could I imagine myself building fuel cells, or designing methanation catalysts, or improving hydrogen production, biocoke/biocoal manufacture or carbon dioxide capture from the oceans… with a university project ? Yes, but the research would need to be funded by companies (because all applied academic research is funded by companies) with a clear picture on Energy Change and their own published strategy on transition out of fossil fuels.

Could I imagine myself working on rolling out gas cars, buses and trucks ? Yes. The transition of the transport sector is the most difficult problem in Energy Change. However, apart from projects that are jumping straight to new vehicles running entirely on Hydrogen or Natural Gas, the good options for transition involve converting existing diesel engine vehicles to running mostly on Natural Gas, such as “dual fuel”, still needing roughly 20% of liquid diesel fuel for ignition purposes. So I would need to be involved with a project that aims to supply biodiesel, and have a plan to transition from Natural Gas to Renewable Gas.

Could I imagine myself working with a team that has extensive computing capabilities to model carbon dioxide recycling in power generation plant ? Yes.

Could I imagine myself modelling the use of hydrogen in petroleum refinery, and making technological recommendations for the oil and gas industry to manufacture Renewable Hydrogen ? Possibly. But I would need to be clear that I’m doing it to enable Energy Change, and not to prop up the fossil fuel paradigm – a game that is actually already bust and needs helping towards transition.

Could I imagine myself continuing to research the growth in Renewable Gas – both Renewable Hydrogen and Renewable Methane – in various countries and sectors ? Possibly. It’s my kind of fun, talking to engineers.

But whatever future work I consider myself doing, repeatedly I come up against this problem – whoever asked me to work with them would need to be aware that I do not tolerate non-solutions. I will continue to say what doesn’t work, and what cannot work.

If people want to pay me to tell them that what they’re doing isn’t working, and won’t work, then fine, I’ll take the role.

I’d much rather stay positive, though, and forge a role where I can promote the things that do work, can work and will work.

The project that I’m suitable for doesn’t exist yet, I feel. I’m probably going to continue in one way or another in research, and after that, since I cannot see a role that I could fit easily or ethically, I can see I’m going to have to write my own job description.

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Renewable Gas : A Presentation #1

Last week, on the invitation of Dr Paul Elsner at Birkbeck, University of London, I gave a brief address of my research so far into Renewable Gas to this year’s Energy and Climate Change class, and asked and answered lots of questions before demolishing the mythical expert/student hierarchy paradigm – another incarnation of the “information deficit model”, perhaps – and proposed everyone work in breakout groups on how a transition from fossil fuel gas to Renewable Gas could be done.

A presentation of information was important before discussing strategies, as we had to cover ground from very disparate disciplines such as chemical process engineering, the petroleum industry, energy statistics, and energy technologies, to make sure everybody had a foundational framework. I tried to condense the engineering into just a few slides, following the general concept of UML – Unified Modelling Language – keeping everything really simple – especially as processing, or work flow (workflow) concepts can be hard to describe in words, so diagrams can really help get round the inevitable terminology confusions.

But before I dropped the class right into chemical engineering, I thought a good place to start would be in numbers, and in particular the relative contributions to energy in the United Kingdom from gas and electricity. Hence the first slide.

The first key point to notice is that most heat demand in the UK in winter is still provided by Natural Gas, whether Natural Gas in home boilers, or electricity generated using Natural Gas.

The second is that heat demand in energy terms is much larger than power demand in the cold months, and much larger than both power and heat demand in the warm months.

The third is that power demand when viewed on annual basis seems pretty regular (despite the finer grain view having issues with twice-daily peaks and weekday demand being much higher than weekends).

The reflection I gave was that it would make no sense to attempt to provide all that deep winter heat demand with electricity, as the UK would need an enormous amount of extra power generation, and in addition, much of this capacity would do nothing for most of the rest of the year.

The point I didn’t make was that nuclear power currently provides – according to official figures – less than 20% of UK electricity, however, this works out as only 7.48% of total UK primary energy demand (DUKES, 2014, Table 1.1.1, Mtoe basis). The contribution to total national primary energy demand from Natural Gas by contrast is 35.31%. The generation from nuclear power plants has been falling unevenly, and the plan to replace nuclear reactors that have reached their end of life is not going smoothly. The UK Government Department of Energy and Climate Change have been pushing for new nuclear power, and project that all heating will convert to electricity, and that nuclear power will provide for much of this (75 GW by 2050). But if their plan relies on nuclear power, and nuclear power development is unreliable, it is hard to imagine that it will succeed.