Thursday, March 30, 2017
END OF THE ROAD FOR FOSSIL DINOSAURS AND THE ANTI-SCIENCE BRIGADE.
The new US administration has been assumed to be bad news on climate issues. The Trump constituency, and indeed much of the Republican voting base, has been built around an improbable coalition that, inter alia, includes substantial direct vested interests in the form of the oil and coal business lobbies, right-wing ideologies and evangelical movements that reject a now incontrovertible climate science as an “inconvenient truth”, and a significant number of constituencies of the “left behind” in America’s rustbelt, where declining industries have been major employers of labour.
As an aside, there are some unsurprising parallels with the UK – Redwood, Rees-Mogg, and Lawson being just a few of the examples of a virulent and quasi-religious climate science denial, and quite strong fundamentalist views on other political and economic issues. Brexit like Trump represented a coalition of particular "free market" political ideologies and a "left behind" rejection of a perceived elite. The current trio of Brexit ministers - Davis, Fox and Johnson, despite some equivocation for political advantage, have a distinctly flaky record on this subject.
Ironically it has been reported (FT. 27 March 2017) that the ever unpredictable Boris Johnson is trying to persuade Trump not to withdraw from the Paris agreement.
Trump Follow-through on Climate Policies
The recent news on Trump regime activities has been more cheerful than might have been expected. Although his appointment of an apparently rabid sceptic, Scott Pruitt, as Environmental Protection Agency Administrator(EPA), was met with dismay, Pruitt has been refusing to overturn the so-called “endangerment finding" of the agency in 2009, and suffering considerable pressure from conservative Republicans as a result.
There is no doubting Trump’s dislike in principle of climate policies, but as with his dislike of Obamacare, it is proving slightly more difficult to express this in practical terms. His Secretary of State, former ExxonMobil executive Rex Tillerson, wants to keep the US in the Paris Agreement, and ExxonMobil, the world's largest publicly traded oil and gas company, is urging the White House to do just that.
The most powerful argument for the USA not to abrogate Paris is likely to be, sadly not the overwhelming human importance of climate change as an existential threat, but the damage to the US standing in the world, together with the loss of opportunities for US businesses in relation to low carbon technologies.
A Missed Opportunity
There was also an emissions reduction strategy that Trump could have followed to the benefit of his rustbelt constituents. It would have been to target infrastructure spending to the benefit of areas heavily dependent on basic industries and coal in particular. Carbon capture and storage would have been a natural choice and might even have offered a lifeline of sorts to a declining coal industry.
Limitations on Trump Damage
Trump is clearly not good news for ambitious climate policies, so a corollary of his current troubles is some degree of relief among those who do worry about future climate. But, apart from expectations of his possible impotence in key policy areas (cf Obamacare) the following considerations might allow us to be slightly more cheerful.
-The Obama achievements within the US were in any case quite limited. The practical consequences of a possibly quite short Trump presidency are therefore less important than they might have been, particularly if much of the US and indeed US business continues to “get on with the job”
-The real importance of Paris did not reside in achievement of legally binding targets (it failed on this) but in the universal recognition of the issues and the degree of commitment shown, at least in principle.
-US backsliding is unfortunate, but is very unlikely to be copied by China or other major emitters. It will, like most Trump policies, diminish US influence, but it will not derail the Paris process of gradually ratcheting up commitments.
 David Davis 2009. BBC report. He said evidence suggested the earth was cooling, not warming, and that recently leaked e-mails had shown leading scientists "conspiring to rig the figures to support arlly their theories". [a wholly untrue allegation as shown by subsequent inquiry]
Liam Fox has generally voted against measures to mitigate climate change.
Boris Johnson. Telegraph article. I am speaking only as a layman who observes that there is plenty of snow in our winters these days, and who wonders whether it might be time for government to start taking seriously the possibility — however remote — that Corbyn [Brother of Jeremy and well known unofficial weather forecaster and contrarian on this subject] is right.
 The endangerment finding declared that greenhouse gas emissions threaten human health and welfare and made EPA legally responsible for regulating carbon dioxide. It later set in motion much of former President Barack Obama's climate agenda.
Monday, March 27, 2017
The Institute for Public Policy Research (IPPR) is intending shortly to bring out a report on heat networks and the decarbonisation of the heat sector. A recent workshop addressed some of the specifics of this subject and in particular the potential linkages with industrial strategy, a concept that is back in mainstream policy discussions after years in the wilderness. We should support strongly efforts to create a coherent policy for the heat sector but we should not underestimate the scale of the obstacles to achieving the objectives. These include getting a clear direction of travel on the evolution of the power sector, not least on the future of carbon capture, and also the sheer scale of what will be involved in retro-fitting a high proportion of the UK housing stock with connections to a heat network. A national body, with the scope to develop a coherent strategy, encourage best practice, and assist and advise local authority initiatives, should be part of the answer.
This blog has touched on the heat sector before, as it is clearly fundamental to achievement of UK (and other geographies’) low carbon objectives. Heat networks are also an important component of the future options, choices and scenarios considered by a number of bodies that are concerned with energy policy and decarbonisation, including the Energy Technologies Institute (ETI) and Committee on Climate Change (CCC). So this is a subject that matters a lot and has several dimensions.
A first reaction to the introduction of industrial strategy as an additional objective in the decarbonisation agenda should perhaps be caution. Industrial strategy is most often associated with overcoming barriers to the development of new technologies, eg by funding research and development or helping develop supply chains, and is sometimes loosely associated, pejoratively or not, with “picking winners”.
Heat networks, on the other hand, are very large investments in pipes to transport hot water, and then retrofitting buildings to make use of the heat provided. This includes digging trenches, laying pipes, and a lot of construction activity, most likely as a retrofit. The network per se can be to a significant degree technology neutral, and indeed one claimed benefit for heat networks is that there is some flexibility over how they are fuelled. But the networks themselves do not represent any very radical technological shift. Linkages to supply chains and technology choice, the stuff of industrial strategy, are, on this reading of the problems, less obvious issues.
They might instead be more accurately be described as major infrastructure spend, which can have substantial macro-economic benefits, as a stimulus when this is appropriate, and as an instrument in rebalancing the economy, particularly if associated with efforts to prioritise relatively depressed areas. But in the broader context of influencing future patterns of UK manufacturing, the links with industrial strategy are prima facie less clear.
However decisions on future heat networks are also inseparable from other big choices and other big developments within a decarbonisation programme, since these introduce a number of constraints and preferences. For example, one plausible direction of travel is to associate heat networks with generation based on fossil fuel with carbon capture (CCS). In this context the cancellation of support for a CCS programme in November 2015 is very unfortunate. But had it gone ahead, or were it to be reinstated, it would predispose early schemes to proximity with new CO2 gathering networks and facilities. And of course CCS would have had its own “industrial strategy” questions as to whether the UK would be a leader or a follower and an importer or exporter of the technology.
Energy Sector Choices for Decarbonisation
Embarking on a major investment in a new heat network requires, therefore, a clear view of what are the options for sourcing the primary energy input to the scheme. This in turn needs to be consistent with an overall approach to decarbonisation. Industrial strategy enters the equation as soon as we start thinking about management of primary energy sources, most obviously for carbon capture, possibly for “modular nuclear” (an ETI favourite), for hydrogen (if we go down that route), and possibly for heat storage technologies. Those are all areas where industrial strategy might determine whether we lead or follow, and end up as exporters or importers.
Operation of heat networks is correctly seen by IPPR as a function that belongs to a substantial degree with local authorities, and this in turn raises some important questions about the ability of local authorities to finance very substantial capital investments, and also about the subsequent regulation of the sector and the protection of consumers who may have had limited choice over their participation. These are discussed in more depth on the Decarbonising Heat page, but future issues include:
· possible wide divergence between costs and prices in different towns and cities, reflecting geographical advantages (eg density), access to different low carbon technologies, divergences between earlier and later schemes, and so on.
· a high proportion of fixed costs, where there is no obviously “correct” or unique methodology for charging; inter alia this allows significant price discrimination eg in favour of social housing.
These and other questions indicate the desirability of confronting these potential issues at an early stage in order to establish some principles for the future funding in construction and operation of large scale urban heat network schemes.Taken together these issues make a strong case for an expanding role for the existing Heat Networks Development Unit, possibly as a new National Heat Authority, a body with a much greater ability to interact with the other major players in UK decarbonisation, including the energy companies, National Grid, and the Committee on Climate Change.
Tuesday, March 21, 2017
Theresa May’s Conservatives have been rediscovering the virtues of a number of what were once familiar Labour themes, but perhaps their most surprising volte-face is the threat to impose price caps on at least some energy utility tariffs. Populist interventions in what are supposed, in theory at least, to be competitive markets, are often bad news from a perspective of efficient markets and effective policy. And Ed Miliband and Labour were pilloried for this suggestion. On the other hand there is little evidence that the current UK retail market is working effectively, there is evidence that “captive” or “loyal” consumers get a bad deal, and consumers appear to be no happier with their utilities than in the “bad old days” of nationalised industry.
The real problem, at least in the electricity sector, is that there are a number of features of current market arrangements that are seriously dysfunctional. This is in large measure a reflection of “energy only” approaches to the construction of wholesale prices that are “baked in” to much of current thinking. Energy only wholesale prices, based around short run marginal costs, are incapable of rewarding investment. This has been a problem of the UK market since the NETA reforms in 2000, and has become an increasing problem for the rest of Europe. The UK government is now grappling with the resulting problems, including threats to supply security, through the mechanisms of capacity auctions, but these are aimed primarily at incentives for new capacity.
This is by no means a problem unique to the UK. It has been very evident for German companies in the power sector, and has had a number of adverse effects on their balance sheets, and may have damaged their ability to invest in new low carbon or indeed any form of generation, most notably in nuclear power (for RWE and EON).
The fundamental issue is that investors in infrastructure require the support of assurances over their long term revenue stream, support that had in the past normally been provided either by long term contractual or government commitment, or by the security of vertically integrated monopoly. To a significant degree the owners of conventional thermal generating plant lost that support, and found themselves in possession of stranded assets that find it increasingly hard to earn revenue in a world where marginal costs are often zero. Many of the companies anticipated the strategic problem many years ago and found at least a partial solution through vertical integration into the retail business, where market imperfections allowed them to recover some excess profit to compensate for the losses to which they were exposed in respect of their stranded assets.
The utilities, in this interpretation of events, can be viewed as both victims and villains. On the one hand older thermal plant constitutes an asset that has been stranded, at least partly through government policies for the power sector. As victims of this process, their attempt to recover lost ground through vertical integration was a necessary and logical response to that position. However this does imply that vertical integration confers an ability to exploit some form of market power, and is in some sense anti-competitive. The power that accrues to the supply companies comes through the inertia of their customers. That allows them to be portrayed as the villains.
As an illustration of this undue market power, we might contrast typical margins in retail supply with the view taken by previous regulatory bodies. Prior to the introduction of retail competition, supply margins were generally assumed to be very low. Thus a 1995 Monopolies and Mergers Commission Review held that 1.0% margin for Scottish hydro supply business was too high and set it at 0.5%. Retail supply is not capital intensive and the “value added” is limited. In setting price controls in 1998, Offer and Ofgas considered a margin on sales of 1.5% would adequately take into account the increased risks from the introduction of competition.
In the “competitive” UK retail sector, margins have varied but have often been around 4%. Prima facie this looks like the extraction of extra revenue from the consumer for a function, supply, in which the retailer adds next to nothing in the way of extra value. If we add to this some of the extra costs of competing to do business (eg marketing costs) this does not look like good value for the consumer. Suppliers compete aggressively to maintain or gain market share, but a large number of consumers do not want the chore of perpetually searching for the best deal, and would prefer simply to get an uncomplicated service at a fair and reasonable price.
However it seems unlikely that imposition of a government price cap will resolve the deeper underlying issues of the power sector. What we really need is a more fundamental re-think of what we expect from retailers. My own view, expressed in more detail on another page, is that retail supply should be playing a much bigger role in shaping the future of the power sector, and that there are ways in which retail supply could become genuinely innovative and competitive.
Tuesday, March 14, 2017
Deepmind algorithms to manage the Grid could be just the start of a consumer focused revolution in the power sector. The need to manage much more complex low carbon systems means there are strong incentives to manage consumer demand more pro-actively. This could be good news for consumers, offering them more choice, and also defusing some of the concerns that sit around supply security.
Yesterday’s FT reports: Google’s DeepMind is in discussions with the UK’s National Grid to use artificial intelligence to help balance energy supply and demand in Britain. “… It would be amazing if you could save 10 per cent of the country’s energy usage without any new infrastructure, just from optimisation. That’s pretty exciting,” Demis Hassabis, DeepMind’s chief executive told the Financial Times. National Grid’s role in balancing the system has become more difficult in recent years, however, as intermittent renewable sources of electricity — such as wind and solar power — have become a bigger part of Britain's energy mix. DeepMind’s algorithms could more accurately predict demand patterns and help balance the national energy system more efficiently.
This is currently a task that is at least partially delegated to the market. The principle behind most “spot” wholesale markets is that generators declare their marginal costs of generating (per kWh unit of energy produced) and are then selected to run in ascending order of cost (the so-called “merit order”), with the cheapest chosen first, and the most expensive plant that runs setting the price. That principle will be increasingly dysfunctional or inapplicable in the real world, partly because such a high proportion of current and future generating plant has zero or negative marginal costs of operation, and partly because the operational efficiency constraints on the power system are becoming more complex, involving considerations of plant inflexibility, intermittency, and energy storage, rather than just a simple stacking by ascending cost. Sophisticated algorithms are prima facie exactly what is needed to replace a defunct merit order.
This implies moving beyond prediction of demand patterns, for which fairly sophisticated approaches already exist, and addressing predictions of intermittent supply as well. It also means developing algorithms to make operational decisions that make sense in terms of efficiency and the secure operation of the system. The promise of a 10% saving in energy may be an exaggeration, not least because of the dominance of capital costs, and relative insignificance of fuel, in low carbon generation. But the bigger contribution of an algorithmic approach lies in the broader options it creates for the ways that the power system is managed and the ways in which consumption is managed. This could allow leaner systems and also transform the way that we think about electricity as a service.
The conventional utility model has consumers able to treat electrical energy supply as “on tap”, with limited or no differentiation between applications (e.g. as between lighting, heating or mechanical power). Tariffs and prices for the most part approximate to an averaging of the costs of supplying electricity, with limited ability to differentiate on grounds of differing incremental costs, and a common security standard for all consumers and all applications.
Consumer behaviour needs to be incorporated as a much more active component. What is needed is to redefine the “consumer offering”, with electricity as a set of services, rather than a homogeneous commodity. This requires starting with a clean sheet in defining the nature of the services that consumers will want, and the basis on which they pay. So, to take a particularly dramatic example, a consumer wanting to charge electric vehicle batteries might request 75 kWh to be delivered in a specified period, over several hours or even several days (eg a weekend), and the consumer’s terms of supply might specify that this requirement will be met in full but with timing that is “at the supplier’s discretion”. Different arrangements and different tariffs could apply to the purchase of power for heat, and for some other uses, reflecting in each case the nature of the load, the extent to which it could be time-shifted without inconvenience, and the level of reliability for which the consumer was willing to pay. Commitments to individual consumers would be made by energy service companies who would be able to aggregate consumer requests and feed them in to become part of the Grid’s system optimization routines. Such services might even be packaged with the provision of appropriate equipment (eg storage heaters).
The role of suppliers is then to act as aggregators, and their essential function would be to manage the complex interaction between consumer loads and system balancing requirements, including shaping and managing the pattern of consumption. This provides a major opportunity for a much more innovative approach to all aspects of metering and for the terms on which consumers purchase power. Suppliers could at the same time enter into individual contracts with generators, or a system operator or other agency, which would reflect the economic benefits of their ability to shape consumer loads. They would also take responsibility for managing loads within network constraints at lower voltages, ie within local distribution networks.
This has some powerful advantages. First it allows consumers to purchase power for particular usages in ways more akin to their purchase of other goods and services, as opposed to perpetuating the “instantaneous commodity” characteristics that have hitherto been a unique and constraining feature of the power sector. This can reflect what consumers actually want and need from a utility. At the same time it would help make the services more affordable. Consumers could still choose to take some power “on tap” and would normally pay a higher price for this. Many of the issues associated with administrative setting of security standards would become much less significant. Security standards would be chosen in a market, not dictated by a central authority.
This change is enabled by one set of technologies – those that surround metering, remote control, and system optimisation (Deepmind). But it also helps to resolve the problems posed by another set of technologies, those linked to intermittent or inflexible sources of non-fossil generation and distributed generation.
These ideas have also been explored by the author in Double standards for reliability in power supplies. Not such a bad idea. This was a defence of a controversial proposal from Andrew Wright of OFGEM on a proposal for consumers to choose the level of reliability that they want. They have been presented in a broader context in a paper, Markets, policy and regulation in a low carbon future, produced by the author for the Energy Technologies Institute (ETI), which published a number of perspectives on low carbon futures in 2016.
 DeepMind and National Grid in AI talks to balance energy supply. FT 12 March 2017
 “Electricity Markets and Pricing for the Distributed Generation Era”, John Rhys, Malcolm Keay and David Robinson. Published as Chapter 8 in Distributed Generation and its Implications for the Utility Industry, ed. F. Sioshansi, Elsevier, August 2014.
Wednesday, March 8, 2017
House of Lords Select Committee on Economic Affairs. The Price of Power. Reforming the Electricity Market. February 2017.
Perhaps the most controversial element of the Committee’s report lies in those of its recommendations which would have the effect of downgrading the sustainability objective aimed at reducing UK emissions. Whether the Committee might have felt emboldened by the election of climate sceptic Donald Trump, or the success of the Brexit campaign, will no doubt be a matter for political scientists to discuss. A degree of comfort to climate sceptics might even be considered ironic, given the current House of Lords stance in relation to the triggering of Article 50. What is more disturbing is the absence of any serious evidence or analysis in the report to justify such a major change of stance in relation to the “energy trilemma” of sustainability, affordability and security. Ultimately these choices are indeed partly economic, especially in the affordability/ security trade-off, but the main issues in relation to sustainability have become essentially ethical and political, involving as they do, inter alia, considerations of intergenerational equity.
The Committee began with the intention of examining market failure in the power sector. Inadequate means to reflect into actual costs and prices the irreversible environmental damage of CO2 emissions, the “social cost of carbon” externality, is arguably the biggest market failure of all by a significant margin. A number of those giving evidence drew attention to the issue, but the Committee nevertheless proposes a downgrading of the importance of the corresponding policy objective. It does this without solid argument, and perhaps more importantly without having taken much evidence relevant to a comparative assessment of the urgency attaching to climate objectives. In global terms this includes both growing scientific concern with climate change as an existential threat (eg over Arctic ice), and growing political acceptance of the need for urgent action as manifested, despite its shortcomings, in the Paris agreement.
The Committee has preferred instead to retreat to the letter of the 2008 Act and the 2050 target, arguing for a slower pace of emissions reduction towards that single year target. This in itself is somewhat disingenuous, given that attachment to arbitrary target dates is criticised elsewhere in the report. It is a rather obvious truth that the real objective in reducing emissions has to relate primarily to cumulative carbon dioxide in the atmosphere, not to an annual emissions figure for an arbitrary year. Inter alia this tends to imply that current emissions reduction should be valued even more highly than future reductions.
The proposal that the pathway to 2050 can be back-end loaded is beguilingly simple but in reality is very misleading. A globally back-end loaded reduction profile implies substantially higher cumulative emissions, and earlier and bigger climate impacts. Early reduction in emissions in contrast has substantial options value in postponing by several years both cumulative CO2 and climate milestones, as well as the need to spend large sums on adapting to adverse consequences of climate change. In each case this means more time to address the most difficult parts of the emissions reduction problem (eg aviation) and the unknowns associated with adapting to impacts of climate change.
The Committee’s proposal has therefore the potential to be extremely damaging, at least to the UK’s contribution to climate change mitigation, and, if copied elsewhere, on a global scale. The only defence for this position that can be inferred from the report’s approach is that because the UK remains a small contributor to global emissions (c. 3%), it should therefore be willing to free ride on the efforts of others. This is hardly a principled position. The Committee has made itself a cheerleader for those parts of the energy industries that hope if they can postpone effective action for long enough then the problem will go away. It won’t.
Overall, and despite some useful content and evidence, this is a disappointing report, failing to recognise a number of changing paradigms both in the nature of the electricity sector and in the global environmental challenge. But on the key issue of sustainability it is a shortsighted and retrogressive attempt to downgrade the most fundamental challenges for energy policy, the growing existential threats of unmitigated carbon emissions and climate change.
Tuesday, March 7, 2017
SUPPLY SECURITY AND THE PROPOSED ENERGY COMMISSION.
House of Lords Select Committee on Economic Affairs. The Price of Power. Reforming the Electricity Market. February 2017.
The Committee’s investigation began with the expressed wish to examine market failures in the power sector. In spite of some useful evidence and analysis their report ultimately fails to appreciate the fundamental nature of some of the current market failures. Its preference for “getting government out of the market” is at its root an ideological commitment to a market paradigm which will be increasingly untenable as power sectors move towards low carbon technologies. In consequence the report has some inconsistencies. In particular it fails to recognise the fundamental nature of the change brought about in moving away from an energy only market to include a capacity market overseen, implicitly at least, by a new agency, the Energy Commission. This inevitably brings a new “central” agency into all the most important aspects of investment choice. This may well be a good starting point for a solution, but it does not correspond to the unrealistic dream of “getting government out of the market”.
The analysis starts with supply security. The Committee is quick to point the finger at renewables, although there is in principle no reason why security should be an issue in a well-designed low carbon system with adequate storage and load shifting options.
A bigger issue is the inconvenient truth that there has been under existing arrangements for the sector no party in the power sector with a properly constructed statutory or other responsibility for this aspect of supply security – adequate generation capacity. There is no obligation on generating companies; there is no obligation on suppliers; and it has not been the job of the National Grid. This does not have to be a weakness of market led systems. The arrangements put in place at privatisation in 1990 were built around a de facto obligation to supply. Suppliers (then confined to the regional companies) were obliged to meet all demand or pay a penalty related to the value of lost load (VOLL). This value was inserted by administrative means into the pool price, and in principle performed the same function as a capacity market, namely the ability to reward generation capacity. But this approach was abandoned in 2000 and since then generation security has been a matter that for all practical purposes has been left entirely to the market. Blaming government interventions is convenient but by no means the whole story.
This discussion brings together approaches to supply security and the so-called “missing money” problem. This major flaw in the market was pointed out by many commentators and academics warning that failure to reward capacity would ultimately cause security issues. The position was neatly summarised by John Kay in the FT.
“But privatisation failed to provide a stable framework for planning new electricity generation. The initial regime reflected careful thought about appropriate incentives for capacity installation, but this regime was swept away in 2001 in favour of a simpler one modelled on other commodity markets and known as NETA (New Electricity Trading Arrangements), subsequently to be Betta (British Electricity Trading and Transmission Arrangements). As so often in commodity markets, this structure worked rather better in the short run than over the long term.”
The problems were concealed for a long time by an overhang of significant capacity surplus. But the essential point is that the root causes pre-date any significant impact of low carbon policies, good or bad, or the magnifying effect of zero marginal cost renewables. The Committee appears to be using these latter developments as a convenient scapegoat.
Market failure. Capacity markets as the solution.
One possible remedy is the introduction of a capacity market. The Committee focuses on this but does not deal comprehensively with the implications. It is deceptively simple to propose technology neutral capacity markets, appropriately designed, as a solution. It is quite another to deliver such a market, as the scope of the exercise will extend well beyond simple decisions on security standards.
A fundamental feature of capacity auctions is that they require someone to run them. Inter alia this means determining and setting a level of security, and hence the quantity of required capacity. That in itself represents a major market intervention, which can really only be decided by a public or quasi-public agency, and confirms the reality that security of supply is no longer being “decided by the market”. This is just the beginning. The complex tasks of defining capacity, and measuring and monitoring its delivery, will necessarily fall to the same agency.
This task becomes even more complex in the context of a growing proportion of low carbon generation, which has entirely different technical and economic characteristics from those of relatively homogenous fossil plant. We shall in the future be dealing with a diverse collection of generation and storage technologies, each with its own complex mix of technical, operating and economic characteristics. This diversity of low carbon generation militates against simple application of technological neutrality in plant choice. Balancing the “capacity parameters” of different technologies may require complex auctions in order to differentiate between very different technologies.
The Committee partially recognises this in its proposal for an Energy Commission to oversee energy policy and hence implicitly the process of capacity auctions. This can be viewed as a step in the right direction, towards a technically competent “arm’s length” agency with the responsibility for determining the investment mix, but the report seemingly fails to recognise just what a radical departure this will involve. It is prima facie at odds with the Committee’s apparent preference for minimising the role of government. The Energy Commission will be forced to consider numerous complex planning issues, and become a de facto central purchasing agency. In my evidence I proposed establishment of a technically competent agency to take on that role. If that is what the Committee has in mind for the Energy Commission, then it can be applauded as a sensible recommendation. But a lot of people will not view it as removing government from the market, in fact an unrealistic ambition.
 even citing my submission that “a system heavily dependent on renewables … could face longer periods of sustained shortage”. The report fails to qualify with the context and hypothetical nature of this observation, or my comment that this was “possible but not likely in the near term”.
 These are too numerous to list but certainly include Dieter Helm who gave evidence to the Committee.
 John Kay. FT. July 2013.
 A recent blog expands on this theme in the context of UK and New Zealand experience
 I have for some time pursued the line that there are a larger number of market failures, and that they all need to be addressed in order to have a well-functioning power sector that can still make the best use of market disciplines to produce efficient outcomes. One summary of this more general debate, which includes other aspects of market failure the Committee could have addressed, can be read on a separate page of this blog, LOW CARBON POWER.
 A typical example of the need for some form of central coordination is the need to maximise the capacity provision from offshore wind by capturing the benefits of weather diversity. The economically efficient outcome requires a spread across multiple locations, not just those with the most wind or the shallowest water. Similar arguments will apply in the context of tidal lagoons.
Monday, March 6, 2017
House of Lords Select Committee on Economic Affairs. The Price of Power. Reforming the Electricity Market. February 2017.
The HoL Select Committee report on the electricity market is a serious document that deserves discussion on several counts, and I intend to examine over a number of blogs whether the Committee has really grasped the extent to which market paradigms for the sector are changing. One of the many elements deserving discussion is its comparison of electricity prices and the international context. Two significant features are the comparison of electricity prices for large industrial consumers, and the alleged implication of flawed energy policies in the comparatively high prices observed for the UK.
An overstated problem. High prices for large energy users.
The Committee was clearly subjected to some intensive lobbying on this subject, but remained intelligently agnostic on the extent to which industry was badly affected, and on the familiar issue of carbon leakage. In an earlier blog I quoted
“It’s a lament that rarely holds up under examination of the facts. All too often, these complaints are part of a lobbying campaign that is essentially political. And when that’s not the case, we usually find there’s a lot of money at stake in industries that are reluctant to invest in adjusting to future challenges. And even when corporate leaders know that these investments are necessary, a majority of them still believe the cost should be paid by the taxpayer. That leads them to threaten using their deadliest weapon, the threat of job cuts and the relocation abroad of their factories and production operations.”
This might have been an opinion put in evidence to the Committee as a remark about UK lobbying. Or it might have been a response to a recent Donald Trump attack on the supposedly high costs of US industry. In fact the context is the competitiveness of European and especially German industry in relation to a low energy cost USA, and was written by a former German environment minister in 2014. The tendency of energy intensive industry to blame energy markets and lobby for lower prices is a universal one.
The complaint by European industry lobbyists, that energy costs are putting them at a “destructive” competitive disadvantage, simply doesn’t stand up to scrutiny. Industry lobbyists will say either that the costs of labour are too high, or that their big problem is the price of energy. America’s historically low gas prices are at present the cause of yet more European moaning.
The facts show how wrong they are. Energy costs account on average for less than 3% of gross production costs in Germany, whereas staffing costs account for about 20%. Even if you look at shares of gross value creation, the energy costs don’t exceed the 10% mark. Yet, industrial lobbies and trade associations continue to prophesy the end of the Western world.
The House of Lords agnosticism is fully justified in respect of their questions about loss of industrial capacity in the UK and energy costs as a possible cause.
But UK prices really are higher
The report does highlight a real divergence in UK prices. There is, unfortunately, a flaw in its choice of comparative statistics however which significantly impacts the comparisons. The latest statistics quoted in the report are for the first half of 2016 (H1). The 23rd June referendum resulted in a depreciation of the UK currency by up to 20% against other currencies, and this is not expected to reverse any time soon. This has a corresponding effect on any price comparisons relevant to the present and immediate future. It is prima facie larger than any of the supposed disadvantages imposed by low carbon policies. Moreover this depreciation makes the UK substantially more competitive across a range of costs, including labour and other locally incurred costs, which are a much higher proportion of total costs, even for energy intensive industries.
Even if the report exaggerates current divergences, it is useful to highlight just how much higher UK prices are (for large industry at least) by international standards. The UK has been a world leader in liberalised market reform, and notwithstanding some of the implications of the report, has arguably continued to maintain an aggressively market and competition-based approach. So if one has confidence in the superiority of the basic UK market model, then why should its prices, of which the wholesale cost component is the largest part, been so far out of line? Other EU countries have been slow and incomplete in following the example of UK liberalisation, but this does not seem to have damaged their “competitiveness”. This ought to caution against an uncritical acceptance of the assumptions of a liberalised market ideology in the power sector.
The Committee attempts to pin the blame on excessive UK devotion to a low carbon objective, but this does not really hold water, as much of the evidence shows. Robert Gross of Imperial College is rather scathing on this point. Moreover while the UK may have made mistakes in promoting renewable energies, it is hardly alone in this. Germany is usually quoted as a fine example of how not to do it. The French achieved a much lower carbon footprint much earlier, at very low cost, without the benefit of a liberalised market and with a monolithic state-run power sector. Again this is an inconvenient truth for an ideological approach to energy policy.
A better understanding of UK comparative costs really would be a worthwhile exercise for the Committee. There are numerous other explanations that are a priori plausible. They are not considered, and play less well with the Committee’s predilection for blaming low carbon policies and small government.
Without prejudice to what some good research might uncover, and in addition to the many well-known difficulties of international data comparisons, I would suggest examining the following possibilities:
- whether the UK has lesser natural endowments in power generation resources; it does not benefit from ownership of French nuclear or Norwegian hydro. Moreover compared to many EU countries it has less interconnection and hence less market access to low cost production elsewhere.
- some other countries have substantial implicit or concealed subsidies that impact on industrial energy prices; Germany for example has a long tradition of cross-subsidising industry.
- the effect of different market and regulatory conditions, and whether generation in other countries benefits from a lower cost of capital; what is particularly important in this respect is the degree of regulatory and policy security offered to investors (the report touches on this but only in a UK context)
- the operation of market forces in a UK system that is approaching supply/demand balance or “tight” capacity. More purist advocates of “free” energy only markets argue that high “scarcity” market prices are a necessary part of inducing investment, and that a capacity market is per se an unwanted intrusion by government. Higher prices, on this reading of the market, are simply part of the market process that is necessary to induce new investment. But market fundamentalists rarely emphasise this point in public debate.
 Robert Gross of UKERC and Imperial College Why we can’t afford to move post truth in energy policy