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Policy Briefing PaperAuthor(s): Green. A.
Published: 2017
Publisher: ETI
Author(s): Bradshaw, M.
Published: 2018
Publisher: UKERC
This briefing is based on two propositions.
First, that gas security matters, because today in the UKgas plays a dominant role in the provision of energy services, accounting for almost 40% of total inland primary energy consumption in 2017. Thus, a shortrun failure of gas security would undoubtedly have significant political and economic consequences.
Second, that the current measure is far too narrow to offer a comprehensive assessment of UK gas security, particularly in a post-Brexit context. Discussions at the Gas Security Forum suggested that:the measure of gas securityfocuses only on infrastructure capacity and not supply (capacity does not equal flow); it fails to take account of the time-lag for gas delivery; it does not measure diversity or spare capacity; it ignores the impact of multiple asset failures; and, does not consider the costs associated with ensuring greater security.
It is in this context that this paper seeks to address the following questions:
The thinking behind this paper is that a more extensive approach to measuring UK gas security is needed to address the less dramatic challenges that face UK gas security, as well as the chance of managing a Black Swanevent.
Author(s): Blondeel, M., Bradshaw, M., Froggatt, A. and Kuzemko, C.
Published: 2022
Publisher: UKERC
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2016
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2016
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): Coleman, J. and Haslett, A.
Published: 2015
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
These elements have only just started to penetrate energy, which has been held back significantly by the current governance structures. Energy presents similar challenges to those of finance where changes which should benefit consumers come with new risks. However, giving people more freedom in how they buy and use energy should carry less risk than giving them freedoms over their pensions and other investments.
Author(s): Chilvers, J., Pallet, H., Hargreaves, T., Stephanides, P. and Waller, L.
Published: 2022
Publisher: UKERC
Author(s): Marsden, G., Anable, J., Docherty, I., Brown, L.
Published: 2021
Publisher: CREDS
Author(s): Froggatt, A., Kuzemko, C. and Blondeel, M.
Published: 2022
Publisher: UKERC
Author(s): McEwen, N., McHarg, A., Munro, F., Cairney, P., Turner, K. and Katris, A.
Published: 2019
Publisher: UKERC
This briefing paper examines how renewables in Scotland are shaped by decisions taken by the Scottish Government, the UK Government and the EU. Drawing on interviews with stakeholders, it explores the potential impact of Brexit on Scottish renewables.
Brexit has the potential to disrupt this relatively supportive policy environment in three ways in regulatory and policy frameworks governing renewable energy; access to EU funding streams; and trade in energy and related goods and services.
Our briefing identifies varying levels of concern among key stakeholders in Scotland. Many expect policy continuity, irrespective of the future UK-EU relationship. There is more concern about access to research and project funding, and future research and development collaboration, especially for more innovative renewable technologies. The UK will become a third country forthe purposes of EU funding streams, able to participate, but not lead on renewables projects, and there is scepticism about whether lost EU funding streams will be replaced at domestic levels.
While there is no real risk of being unable to access European markets even in a No-Deal Brexit scenario, trade in both energy and related products and services could become more difficult and more expensive affecting both the import of specialist labour and kit from the EU and the export of knowledge-based services. Scotlands attractiveness for inward investment may also be affected.
Author(s): Butler. C., Parkhill. K. and Pidgeon. N.
Published: 2012
Publisher: UKERC
This briefing note summarises initial findings from qualitative research undertaken as part of a major project investigating public values, attitudes and views on whole energy system change.
A key objective of the project is to identify degrees of public acceptability relating to various aspects of whole energy system transformation and the trade-offs inherent in such transitions. This research has relevance as a research evidence base for informing development of future energy systems, as well as for understanding processes of and potential obstacles to delivery of such transitions.
Author(s): Garvey, A. and Taylor, P.
Published: 2020
Publisher: CREDS
Author(s): Nolden, C., Moya Mose, T., Sugar, K., Kommidi, A. and Fox, S.
Published: 2023
Publisher: UKERC
Author(s): Lowe, R. and Oreszczyn, T.
Published: 2020
Publisher: CREDS
Author(s): Temperton, I.
Published: 2018
Publisher: UKERC
The latest independent report to the UK government on carbon capture use and storage (CCUS) was published in July this year. The CCUS Cost Challenge Task Force (CCTF) reported under the heading “Delivering Clean Growth”.
There have also been new pronouncements on CCS in the Committee on Climate Change’s annual update to Parliament and in the National Infrastructure Commission’s National Infrastructure Assessment.
Like everyone else who works in and around CCS in the UK, Ian Temperton, who is also an Advisory Board Member of UKERC, spends vastly more time writing reports and sitting on committees than he does actually trying to capture, transport and store CO2.
From the perspective of someone who sat on the CCTF and the previous Parliamentary Advisory Group (PAG) on CCS which reported in 2016, he takes a critical look at what these various bodies have said this year and puts them in the context of the many previous reports on the subject.
While CCS needs to be deployed at very large scale for many pathways that restrict global warming to acceptable levels, including those for the UK, progress to date has been negligible.
The UK government seems to have a new enthusiasm for CCS but it is hard to extract a clear strategy from the recent interventions.
The very premise on which the government bases its current approach to CCS looks very much like it wishes to “have its cake and eat it”. The accompanying desire not to look like it is “picking winners” means that recent reports don’t make a particularly compelling case for CCS at all, at least in the medium term.
This challenges the very nature of whole energy systems thinking. CCS, with its potential applications across the energy sector in electricity, heat, transport and heavy industry (not to mention negative emissions) should be, and indeed is, easy to make the whole of system case for. However, being a citizen of the whole energy system makes CCS a citizen of nowhere, and we are no clearer to plotting an efficient route for deployment through the many potential applications of this technology.
The business model for CCS leaves many unanswered questions. What role does regulation have? Should it be publicly or privately financed? How can “full-chain” CCS be delivered? How can we leverage competition (a word which can hardly be spoken in the CCS debate)? How do we create the right incentives for heavy industry? Can we learn from other large infrastructure projects like London’s Super Sewer? And how does CCS fit in an energy system increasingly dominated by low marginal cost sources of supply like renewables?
The paper finds little to suggest that CCS policy in the UK has become any clearer.
Given the need to develop quickly under such high levels of policy uncertainty, and given that the public sector always has, and always will, fund the majority of the costs of developing CCS, the paper argues for the formation of a public Delivery Body. It also suggests that time is short to make the case and develop the plan for such a body ahead of next year’s UK Government Spending Review.
If we are to harness the new government enthusiasm while addressing the same old uncertainties in CCS policy then there is an inevitable and critical role for a Delivery Body.
Author(s): Jones, C.M. and Higginson, S.
Published: 2023
Publisher: UKERC
This briefing note brings together the current state of policy and activities that CREDS and UKERC have undertaken to support data sharing.
Author(s): Morgan, N.
Published: 2012
Publisher: UKERC
Author(s): Morgan, N.
Published: 2011
Publisher: UKERC
Author(s): Wilson, G., Taylor, R. and Rowley, P
Published: 2018
Publisher: UKERC
This briefing note summarises Great Britain’s local gas demand from the 2nd of April 2017 to the 6th of March 2018 and compares this to electrical supply. The data covers the UK cold weather event on the 1st March, providing insights into the scale of hourly energy flows through both networks.
A peak hourly local gas demand of 214 GW occurred at 6pm on the 1st of March, which compared to a peak electrical supply of 53 GW occurring at the same time.
The data highlights a critical challenge – managing the 3-hour difference in demand from 5am to 8am on the local gas network during the heating season. Whilst flexibility in the gas system is provided using a change in pressure to store extra energy in the network to meet increasing demand, the electrical system has no comparable intrinsic equivalent.
The findings add to previous work funded by UKERC on thermal energy storage , heat incumbency, and flexibility of electrical systems to provide insights into the decarbonisation of heat in Britain, helping to inform decision-making, modelling of future networks and highlighting key areas for future research and innovation.
A greater research and innovation focus to reduce the 5am-8am 3-hour difference in heat demand is necessary.
Author(s): Watson, J. and Gross, R.
Published: 2017
Publisher: UKERC
This week, the government’s long awaited Clean Growth Strategy will be published. Like many, we will be looking for details of how UK emissions will continue to be reduced to meet the 4th and 5th carbon budgets. In particular, the Strategy will need to explain how a range of increasingly significant policy gaps will be addressed.
The Strategy is likely to be closely followed by the conclusions of the Review of Energy Costs, led by Professor Dieter Helm. Ahead of the Strategy’s publication, we are publishing a briefing paper that covers four key issues that are central to the terms of reference of the Review of Energy Costs – and to the Clean Growth Strategy itself.
Our starting point is that the primary issue is the cost of energy bills for consumers, rather than only the unit price of energy. It is therefore important to focus on measures that can reduce the quantity of energy required for a given level of service as well as trends that could help to reduce or moderate prices. In line with the terms of reference, our briefing paper focuses on electricity costs since UK electricity prices are higher up the European league table than those for gas.
The role that energy efficiency can play in reducing electricity bills needs to be fully addressed. Significant progress in this area remains to be made; savings of up to 10% can be achieved through well designed standards and investment programmes, and a recent UKERC report highlighted that a 25% reduction in household energy demand is possible through cost effective measures. There is a clear rationale for government intervention, to drive energy efficiency and address the policy gap left behind by the failure of the Green Deal. The case is even clearer when considering the additional economic and social benefits that energy efficiency brings.
The creation of new markets help drive technology cost reductions, as does patient government support. Offshore wind is a case in point - achieving much lower than expected prices in the recent Contracts for Difference auctions. If these projects are delivered, this will place offshore wind amongst the cheapest new sources of electricity generation in the UK.
Policy change is required to drive further innovation, yet with investor confidence low, this needs to build on existing policy instruments. A case has been made for moving low carbon technologies into a single competitive auction. However this technology neutral approach favours technologies close to market, failing those which are less developed. Complex technologies such as carbon capture and storage, which have significant potential but high capital expenditure and associated risk, could require a state-led approach to investment, allowing for competition to drive prices down.
The review’s terms of reference clearly state that a systems approach is required. The consideration of technologies within this perspective is imperative, as is developing energy policy within this context. This is particularly relevant for electricity, where a range of mechanisms and markets are used to balance supply and demand in real time.
System flexibility is key to keeping costs down. The cost of integrating renewables into the grid vary widely, with future cost of integrating intermittent power sources, depending upon the availability of cost effective system flexibility. Incentivising flexibility and reforms to the capacity market will be required to facilitate this, and as the proportion of renewables increases, government will need to decide how to account for system costs including those surrounding intermittency.
Innovation is an important driver for reducing costs and bringing technologies to market. However this non-linear process exists with multiple feedbacks between development, demonstration and deployment. Effectiveness is further dependent on incentives for demonstration and market creation, and UKERC research has shown that innovation in the energy sector tends to take three to four decades from early stage R&D to significant commercial deployment.
Analysis has been undertaken by government to establish this evidence base, yet too often this has focused on discrete technologies, with less attention paid to system innovation. It is this system innovation which will be key to the low carbon transition, alongside effective evaluation, to learn and disseminate lessons.
Eye catching initiatives such as the Faraday Challenge for storage are welcome, as is the UK pledge - as part of Mission Innovation - to double clean energy R&D spending between 2015-2020. Whilst a step in the right direction, when considering the scale of the challenge posed by climate change, many argue that government support for innovation at a greater scale is required.
Download the briefing note to read the full submission to Dieter Helm.
Author(s): Anable, J., Lokesh, K., Marsden, G., Walker, R., McCulloch, S., and Jenkinson, K.
Published: 2020
Publisher: LGA & CREDS
Author(s): Campbell, M., Marsden, G., Walker, R., McCulloch, S., Jenkinson, K., and Anable, J.
Published: 2020
Publisher: LGA & CREDS
Author(s): Marsden, G., Anable, J., Lokesh, K., Walker, R., McCulloch, S. and Jenkinson, K.
Published: 2020
Publisher: LGA & CREDS
Author(s): Lokesh, K., Marsden, G., Walker, R., Anable, J., McCulloch, S., and Jenkinson, K.
Published: 2020
Publisher: LGA & CREDS
Author(s): Walker, R., Campbell, M., Marsden, G., Anable, J., McCulloch, S. and Jenkinson, K.
Published: 2020
Publisher: LGA & CREDS
Author(s): Campbell, M., Walker, R., Marsden, G., McCulloch, S., Jenkinson, K., and Anable, J.
Published: 2020
Publisher: LGA & CREDS
Author(s): Lokesh, K., Anable, J., Marsden, G., Walker, R., McCulloch, S. and Jenkinson, K.
Published: 2020
Publisher: LGA & CREDS
Author(s): Crawley, C., Johnson, C., Calver, P. and Fell, M.J.
Published: 2021
Publisher: CREDS
Author(s): Winskel, M. and Kattirtzi, M.
Published: 2019
Publisher: UKERC
There is an increasing sense of urgency about the global energy system transition. For many observers an urgent energy transition is also a necessarily disruptive one, in that it is only by radically remaking energy systems that an accelerated transition to low carbon and sustainable energy can be achieved.
Closer to home, there has been substantial progress in some parts of the energy system in the decade since the passing of the UK and Scottish Climate Change Acts. Other areas have shown little sign of change, and the transition ahead may well be more disruptive and intrusive than that seen so far. At the same time, there is also an emerging counter-narrative: that repurposing our existing energy assets (physical and social) offers the best and quickest transition path, since there is insufficient time to disrupt and remake.
Attending energy events and keeping up-to-date with emerging evidence can instil a sense of different experts talking past each other. For those involved in whole systems energy research, and working at the research-policy interface, this can be deeply frustrating. To help address this, UKERC – working with ClimateXChange (CXC), Scotland’s Centre of Expertise on Climate Change – has spent two years analysing disruption and continuity in the UK energy system.
As part of that work, we surveyed around 130 experts and stakeholders about disruption and continuity-led change in the UK energy transition. The experts were mostly UK based researchers working on ‘whole systems’ research projects, but also included policymakers, advisory bodies, think tanks, businesses (old and new) and civil society organisations. This report presents the results of this survey work.
Author(s): Gross. R. and Watson. J.
Published: 2015
Publisher: UKERC
Overview
A series of energy policy changes announced since the May election have led to concerns about increasing political risk faced by prospective investors in the UK energy system (ECCC 2015). It has also been suggested that policy needs to be ‘reset’, with less technology-specific intervention and increased resources for longer term research into new technologies (Helm 2015). This paper draws on a large body of analysis from UK Energy Research Centre (UKERC) and Imperial College.
The paper argues that a ‘reset’ approach is unnecessary, will create delays to investment, increase political risks, and hence costs to consumers. Simply put, the government already has the levers it needs to encourage investment in a secure and lower carbon system. Policy can be made more effective by providing investors with greater clarity and a longer term perspective, using the policy framework that is already in place. Auctions for Contracts for Difference (CfDs) have already brought forward significant reductions in the prices paid to low carbon generators. CfDs could be moved progressively to a technology neutral basis, combined with price caps to bear down further on costs.
The paper discusses the infrastructure implications of new sources of energy and notes that government will need to balance the benefits of technology neutral CfD auctions against the need to develop strategic infrastructure in a timely fashion. It also discusses the impacts of variable renewables and explains that whilst it is important for system costs to be allocated cost effectively this does not mean that variable generators should be obliged to self-balance and invest in dedicated back up.
The paper also explains that whilst greater investment in innovation would be welcome, forthcoming research shows the timescales associated with invention, demonstration and deployment of technology are long. Whilst improvements to technologies are hugely important, the emergence of entirely new technologies remains very uncertain. Support for innovation should not be premised on wishful thinking about silver bullet technologies. Many of the technologies we need to decarbonise already exist and have done so for several decades. The challenge is to drive costs down and encourage network innovation to better suit new sources of power.
Finally, the paper argues that whilst more effective carbon pricing would bring many benefits it is not a sufficient condition for significant energy system change. Regulation iv UK Energy Research Centre of emissions from existing coal fired power stations after 2025 would aid investor clarity and improve the prospects for investment in both low carbon and gas-fired generation.
Author(s): Colechin, M.
Published: 2016
Publisher: ETI
Author(s): Colechin, M.
Published: 2016
Publisher: ETI
Author(s): Lipson. M.
Published: 2015
Publisher: ETI
Author(s): ETI
Published: 2013
Publisher: ETI
Author(s): ETI
Published: 2015
Publisher: ETI
Author(s): Day, G.
Published: 2015
Publisher: ETI
Author(s): Newton-Cross, G. and Evans, H.
Published: 2015
Publisher: ETI
Author(s): Batterbee, J.
Published: 2018
Publisher: ETI
Author(s): Haslett, A.
Published: 2016
Publisher: ETI
Author(s): Lipson, M.
Published: 2018
Publisher: ETI
Author(s): Newton-Cross, G.
Published: 2015
Publisher: ETI
Author(s): Bradley, S.
Published: 2015
Publisher: ETI
Author(s): Middleton, M.
Published: 2016
Publisher: ETI
Author(s): Evans, H. and Newton-Cross, G.
Published: 2016
Publisher: ETI
Author(s): ETI
Published: 2016
Publisher: ETI
Author(s): Douglas, J.
Published: 2015
Publisher: ETI
Author(s): Bradley, S.
Published: 2017
Publisher: ETI
Author(s): Newton-Cross, G. and Gammer, D.
Published: 2016
Publisher: ETI
Author(s): Middleton, M.
Published: 2015
Publisher: ETI
Author(s): ETI
Published: 2015
Publisher: ETI
Author(s): Bradley, S.
Published: 2015
Publisher: ETI
Author(s): Lidstone, L.
Published: 2016
Publisher: ETI
Author(s): Lidstone, L.
Published: 2016
Publisher: ETI
Author(s): Lidstone, L.
Published: 2016
Publisher: ETI
Author(s): Lidstone, L.
Published: 2016
Publisher: ETI
Author(s): Bradley, S.
Published: 2015
Publisher: ETI
Author(s): Colechin, M.
Published: 2016
Publisher: ETI
Author(s): Li, P. and Strachan, N.
Published: 2021
Publisher: UKERC
Author(s): Li, P. and Strachan, N.
Published: 2021
Publisher: UKERC
Author(s): Strachan, N. and Li, P.
Published: 2021
Publisher: UKERC
Author(s): Eyre, N.
Published: 2013
Publisher: UKERC
Energy saving feed-in tariffs (ESFITs) are a relatively new concept and are designed to use the same principles as Feed in Tariffs for renewable energy (REFITs). They offer a promising way of improving electricity efficiency and reducing electricity demand, thereby decreasing carbon emissions.
The Electricity Market Reform proposals which form part of the 2012 Energy Bill provide a bias towards investment in new supply that could be addressed using ESFITs.
In the context of EMR, ESFITs offer a means of delivering decarbonisation with a lower impact on consumer bills.
Because ESFITs do not rely on energy companies, they would provide incentives for innovation in project delivery in a much wider range of actors including householders, community groups, local authorities and small businesses.
The concept of ESFITs is simple, but there are policy design issues that still need to be addressed.
Author(s): Wilson, G. and Rowley, P.
Published: 2019
Publisher: UKERC
This briefing note describes the amount of gas contained within Great Britain’s gas transmission and distribution networks, and how this changes over a day to support variations in demand. The hourly data covers the 63-month period from 2013-01-01 to 2018-03-07.
The amount of gas contained within the higher-pressure tiers of Britain’s gas transmission and distribution network is termed ‘linepack’; literally, it is the amount of gas packed into the pipelines.
Linepack is proportional to the pressure of the gas in the pipelines, increasing the pressure increases the amount of gas, and thus the energy contained therein. The amount of linepack changes throughout the day due to the varying levels of pipeline pressure. This flexing of pressure provides a method to help match the supply and demand for gas within a day.
The scale of energy that can be stored and released by varying linepack highlights its importance as a means of operational flexibility, helping to balance the changes in national primary energy demand.
The scale of the within-day flexibility currently provided by the natural gas transmission and distribution networks points to a formidable energy systems challenge; how to provide low-carbon within-day flexibility to future energy systems at a reasonable cost.
Author(s): Barrett, J., Owen, A. and Taylor, P
Published: 2018
Publisher: UKERC
To recover the cost of energy policies which support the transition towards a low carbon energy system, levies are applied to household and business energy bills. This briefing note focuses on the levies applied to households.
Household energy policy costs
Energy policy costs are applied to household electricity and gas bills, equating to 132, or 13% of the average energy bill in 2016. This research highlights how low-income households are hit hardest by the current arrangements as the poorest households spend 10% of their income on heat and power in their homes, whereas the richest households only spend 3%, so any increase in prices hits the poor disproportionately.
Energy service demands in the UK
Household electricity and gas use represents only 12% of total final UK energy use. Total energy use includes all the energy used to provide househ
Author(s): Bradshaw, M.
Published: 2018
Publisher: UKERC
The Midstream Infrastructure briefing considers the critical infrastructures - both hard and soft - that are necessary to link gas suppliers to end users. In many ways this is the most complex, least studied and most important part of the UK's gas supply chain. This briefing describes the various elements of the Midstream, assesses their current status, considers the potential impact on Brexit, and the challenges they pose in relation to future UK gas security.
The key challenge that the Midstream has to manage is the strong seasonality of UK gas demand, which is driven largely by winter demand for domestic heating. However, in recent years the growth of low-carbon generation (wind and solar) has introduced the additional complexity of intermittency, which is resulting in swings in gas demand on a much shorter time-frame. This is a challenge that is only going to increase in the future as coal-fired generation closes (by 2025) and intermittent low-carbon generation continues to grow.
Author(s): Bradshaw, M,
Published: 2018
Publisher: UKERC
The majority of studies of energy security focus on upstream security of supply. More recently, as the low-carbon transition has gathered momentum, there has been increasing interest in security of future demand as a challenge to the integrity of the gas supply chain.
This briefing is divided into five sections. The first section examines the current role of natural gas in the UK energy mix, as well as recent trends in power generation. The second section reports on recent research by UKERC on the future role of gas in the UK. The third section examines what National Grid’s (2017a) most recent Future Energy Scenarios have to say about the future role of gas. The fourth section reviews other industry analyses about the future role of gas. The fifth, and final section, examines the ways in which Brexit complicates the situation. The briefing concludes by highlighting the policy challenges in relation to future
Author(s): Bradshaw, M.
Published: 2017
Publisher: UKERC
This briefing reports the findings of the first UK Gas Security Forum, which brings together a range of stakeholders
from government, business, think-tanks and academia to consider the impact of Brexit on the UK gas industry. The aim of the Forum is to inform the Brexit negotiations and the formulation of a Post-Brexit UK Gas Security Strategy.
The Forum builds on previous research funded by UKERC on:The UKs Global Gas Challenge(Bradshaw et al. 2014) andThe Future Role of Natural Gas in the UK(McGlade et al. 2016). The approach adopted combines a supply chain analysis of energy security with a whole system approach, that places gas security within the wider context of the decarbonisation of the UK energy system. In keeping with the wider framing of UK energy policy within the energy trilemma, it is assumed that a future UK gas strategy must de
Author(s): Hanna, R., Heptonstall, P. and Gross, R.
Published: 2022
Publisher: UKERC
Author(s): Barnes, J.
Published: 2023
Publisher: CREDS
Author(s): Lowes, R. and Woodman, B.
Published: 2018
Publisher: UKERC
This briefing paper summarises the key policy implications from the last of three working papers published by the Heat Incumbency Transitions Team. This research has investigated the role and behaviour of heat market incumbents in relation to the decarbonisation of heat.
Key messages
Author(s): Snell, C. and Bevan, M.
Published: 2018
Publisher: UKERC
Despite disabled people and low-income families with children being defined in policy as vulnerable to fuel poverty, there is very little evidence about how the needs of these groups are recognised or incorporated into policy decisions. There is alsono clear evidence on how energy efficiency policies actually affect these groups, and whether policy outcomes are consistent across the UK.
This policy briefingauthored by University of Yorks Department of Social Policy and Social Work (SPSW) and ACE Research, explores some of the key gaps in knowledge regarding justice in energy efficiency policy in the UK. The focus was on the impact of energy efficiency policies on disabled people, those with long-term illnesses and low-income households with children.
The delivery of energy efciency policy is variable and patchy, with vulnerable groups ingreatest need not always eligible for support, or receiving support which fails to reflect their additional needs. To improve access for vulnerable groups and to meet their needs more effectively, the authors recommenda greater recognition of the needs of vulnerable groups, more consistent approaches across the UK and better cooperation with non-energy sectors.
The researchidentifies five key barriers to accessing vital fuel poverty support mechanisms and suggests ways in which access and outcomes can be improved for all.
Author(s): Ekins. P., Keppo. I., Skea. J., Strachan. N., Usher. W. and Anandarajah. G.
Published: 2013
Publisher: UKERC
This briefing draws out the key messages from the UKERC report The UK Energy System in 2050: comparing low-carbon resilient scenarios, – which describes and compares a series of model runs, implemented through the UK MARKAL modelling system, which was developed through UKERC with funding from the Research Councils’ Energy Programme. This has revealed some consistent patterns showing how the UK energy system might develop in future, which are discussed in detail in the full report.
Author(s): Rhodes, A., Heptonstall, P. and Speirs, J.
Published: 2022
Publisher: UKERC
Author(s): Chaudry M, Hawker G, Qadrdan M, Broad O, Webb J, Wade F, Britton J, Wu J.
Published: 2022
Publisher: UKERC
Author(s): Lane, M.
Published: 2021
Publisher: CREDS
Author(s): Mallaburn, P.
Published: 2022
Publisher: CREDS
Author(s): Williams, L.
Published: 2022
Publisher: CREDS
Author(s): Demski, C., Pidgeon, N., Evensen, D. and Becker, S.
Published: 2019
Publisher: UKERC
Under the UK Climate Change Act 2008, the government has committed to reduce greenhouse gas emissions by 80% by 2050 relative to 1990 levels (Climate Change Act, 2008). This will require a large shift in the UK’s energy system, ranging from energy production, across transmission to consumption.
The public are implicated in the transition process as energy users, increasingly also as energy producers and as active members of society who might support or oppose energy projects and policies. Previous research (Demski et al., 2015; Parkhill et al., 2013) has shown that there is widespread public support for transitioning to a low-carbon, affordable and reliable energy system – however, this change is associated with costs and it remains to be seen how these costs will be covered.
This research explores the views of the British public on how the energy transition should be financed. Drawing on a survey of 3,150 respondents and focus groups in 4 locations across Great Britain, it investigates what responsibility members of the public assign to government, energy companies and the general public for financing energy system change.
The results highlight widespread support for an energy system that ensures affordability, reliability and low carbon energy sources. Energy companies and the government were assigned primary responsibility for contributing financially to energy transition, as they were seen to have the structural power and financial means to implement necessary changes. Respondents also indicated that the general public ought to contribute as well, although the public was perceived to be paying over the odds already (through bills to the energy companies and levies to the government). Nonetheless, research participants expressed willingness to accept between 9-13% of their energy bills going towards environmental and social levies.
Willingness to contribute financially towards the energy transition was also found to be dependent on the perception that energy companies and government are contributing financially and showing real commitment to energy system change. It was also notable that this condition was not currently thought to be met; distrust in this regard was particularly evident in focus group discussions.
Distrust in companies: People believe that the majority of energy companies are driven primarily by profit motives leading to inadequate commitments with regards to energy transition goals such as investing in low-carbon energy and ensuring energy affordability.
Distrust in government: The government, and politicians in particular, are seen as too closely connected to the energy industry, leading to inadequate and ineffective regulation of energy companies and their opaque practices.
Examining what underlies people’s distrust, it is evident that the public has a number of justice and fairness concerns that need to be addressed. In particular, beliefs concerning distributive justice (i.e. how costs are distributed across society) and procedural justice (i.e. respectful treatment, transparent practices and decision-making) are important for public acceptance of responsibility and costs.
Addressing the issues underlying the trust deficit will be challenging, but this is nonetheless important if we are to ensure that there is to be broad societal consent and engagement with the low-carbon energy transition. To begin this process, the briefing includes the following recommendations:
Author(s): Eyre, N and Fawcett, T.
Published: 2020
Publisher: CREDS
Author(s): Stevens, I., Garvey, A., Barrett, J. and Norman, J.
Published: 2022
Publisher: CREDS
Author(s): Maximov, S.,Rickman, J., Gross, R. and Ameli, N.
Published: 2024
Publisher: UKERC
Author(s): Jenkinson, K., Eyre, N and Barrett, J.
Published: 2021
Publisher: CREDS
Author(s): Chilvers, J., Pallett, H. and Hargreaves, T.
Published: 2017
Publisher: UKERC
This paper examines public engagement with energy in the UK.
Using mapping techniques, the paper investigates instances of engagement with energy between 2010-2015.
The paper concludes with a number of practical recommendations to assist the move towards a broader, whole systems approach to engaging society in low carbon transitions.
Read Jason Chilvers' blog about the project here.
Author(s): Philo, G.
Published: 2012
Publisher: UKERC
Author(s): Chiu, L.F. and Lowe, R.
Published: 2020
Publisher: CREDS
Author(s): Garvey, A., Norman, J. and Barrett, J.
Published: 2022
Publisher: CREDS
Author(s): Watson, J., Ekins, P., Gross, R., Froggatt, A., Barrett, J., Bell, K., Darby, S., Webb, J., Bradshaw, M., Anable, J., Brand, C., Pidgeon, N., Demski, C. and Evensen, D.,
Published: 2017
Publisher: UKERC
UKERCs 2017 Review of Energy Policy, appraises energy policy change over the last 12 months, and makes a series of recommendations to help meet the objectives of the governments Clean Growth Plan.
Our main recommendations are:
Author(s): Watson, J., Bradshaw, M., Froggat, A., Kuzemko, C., Webb, J., Beaumont, N., Armstrong, A., Agnolucci, P., Hastings, A., Holland, R., Day, B., Delafield, G., Eigenbrod, F., Taylor, G., Lovett, A., Shepard, A., Hooper, T., Wu, J., Lowes, R., Qadrdan, M., Anable, J., Brand, C., Mullen, C., Bell, K., Taylor, P. and Allen, S.
Published: 2019
Publisher: UKERC
Author(s): Gross, R., Bell, K., Brand, C., Wade, F., Hanna, R., Heptonstall, P., Kuzemko, C., Froggatt, A., Bradshaw, M., Lowes, R., Webb, J., Dodds, P., Chilvers, J. and Hargreaves, T.
Published: 2020
Publisher: UKERC
In this issue of UKERCs annual Review of Energy Policy, we discuss some of the effects of COVID-19 on the energy system and how the unprecedented events of 2020 might impact energy use and climate policy in the future.
Focusing on electricity demand, transport, green jobs and skills, Brexit, heat, and societal engagement, the Review reflects on the past year and looks forward, highlighting key priorities for the Government.
Key recommendations
Electricity
The scale of investment in the power system required over the coming decade is huge. A big challenge is market design. We need a market that can incentivise investment in low carbon power and networks at least cost whilst also providing incentives for flexibility. Output from wind and solar farms will sometimes exceed demand and other timesfallto low levels. The right mix of flexible resources must be established to deal with variable output from renewables, with the right market signals and interventions in place to do this at least cost.
Mobility
The end of the sale of fossil fuel cars and vans by 2030 must be greeted with enthusiasm. Yet if this is to play its part in a Paris-compliant pathway to zero emissions, it must be one of many policy changes to decarbonise UK transport. Earlier action is paramount, and we recommend a market transformation approach targeting the highest emitting vehicles now, not just from 2030. Phasing-in of the phase-out will save millions of tons of CO2 thus reducing the need for radical action later on. The forthcoming Transport Decarbonisation Plan has a lot to deliver.
Green jobs and skills
COVID-19 recoverypackages offer the potential to combine job creation with emissions reduction. A national housing retrofit programme would be a triple win, creating jobs, reducing carbon emissions and make our homes more comfortable and affordable to heat. However, UKERC research finds that there are significant skills gaps associated with energy efficient buildings and low carbon heat. UKERC calls for a national programme of retraining and reskilling that takes advantage of the COVID downturn to re-equip building service professions with the skills needed for net zero.
Brexit
As the UK leaves the EU on the 1st January it will lose many of the advantages of integration. With new regimes for carbon pricing, trading, and interconnection yet to be agreed, there will be a high degree of uncertainty in the near to medium term. Given upward pressure on energy costs,delays to policy, and this uncertainty surrounding new rules, the overall effects of Brexit are not positive for UK energy decarbonisation.
Heat
UKERC research calls for action on heat to deliver the net zero technologies that we know work - insulating buildings and rolling out proven options. We need to end delay or speculation about less-proven options. Analysis is consistent with recent advice from the CCC that heat policy should focus on electrification whilst exploring options for hydrogen. We need to break the pattern of ad hoc and disjointed policy measures for heat and buildings, and develop a coherent, long-term strategy. This would be best achieved as an integral part of local and regional energy plans, involving local governments as coordinating agents. The aspirations for heat cant be realised unless we also take actionon the skills gap.
Societal engagement with energy
Achieving net zero in 2050 will entail significant changes to the way we live, what we eat and how we heat our homes. The COVID-19 pandemic has shown that when faced with a threat, society can change rapidly. Engaging society with the net zero transition also needs to change, it needs to be to be more ambitious, diverse, joined-up and system-wide, and recognise the many different ways that citizens engage with these issues on an ongoing basis.
Author(s): Gross, R., Bradshaw, M., Bridge, G., Weszkalnys, G., Rattle, I., Taylor, P., Lowes, R., Qadrdan, M., Wu, J., Anable,J., Beaumont, N., Hastings, A., Holland, R., Lovett, A., Shepherd, A..
Published: 2021
Publisher: UKERC
With a focus on gas and the UK continental shelf, industrial decarbonisation, heat, mobility and the environment, we look at developments both at home and internationally and ask whether the UK is a leader in decarbonisation, and if the transition is being managed as well as it could be.
Author(s): Gross, R., Webb, J., Bradshaw, M., Bell, K., Taylor, P., Gailani, A., Rattle, I., Brand, C., Anable, J., Kuzemko, C. and Froggatt, A.
Published: 2022
Publisher: UKERC
Author(s): Taylor, P., Bays, J., Bradshaw, M., Webb, J., Britton, J., Bolton, R., Chaudry, M., Qadrdan, M., Wu, J., Anable, J., Brand, C., Rattle, I., Gailani, A., Bell K., Halliday, C., Shepherd, A., Watson, S., Lovett, A. and Hastings, A.
Published: 2023
Publisher: UKERC
Author(s): Watson, J., Ekins, P., Bradshaw, M., Wilson, G., Webb, J., Lowes, R., Bell, K., Demski, C., Snell, C., Bevan, M., Waddams, C., Anable, J. and Brand, C.
Published: 2018
Publisher: UKERC
As we reach the end of 2018, the scorecard for UK energy policy is mixed. Optimists can point to rapid emissions reductions, cost falls in renewables and the centrality of clean energy within the Industrial Strategy. Ten years after the Climate Change Act was passed, UK greenhouse gas emissions have fallen by 43% from the level in 1990. The UK is on the way to meeting the first three carbon budgets, and a transformation of the power sector is well underway.
However, if we turn our attention from the rear view mirror, the outlook is more pessimistic. As the Committee on Climate Change pointed out in June, there are an increasing number of policy gaps and uncertainties. If not addressed promptly, meeting future carbon budgets will be much more challenging. For some of these gaps, there is a particularly clear and immediate economic case for action.
The government needs to take urgent action to ensure that the UK continues to meet statutory emissions reduction targets, and goes further to achieve net zero emissions. This not only requires new policies to fill looming gaps in the portfolio, it also requires much greater emphasis on sharing the benefits and costs of the low carbon transition more equitably. Our main recommendations are:
Author(s): Watson, J., Ekins, P., Wright, L., Eyre, N., Bell, K., Darby, S., Bradshaw, M., Webb, J., Gross, R., Anable, J., Brand, C., Chilvers, J., and Pidgeon, N.
Published: 2016
Publisher: UKERC
This review takes stock of UK energy policy ahead of the Autumn Statement, Industrial Strategy and new Emissions Reduction Plan. Its main recommendations are:
Author(s): Eadson, W., Hampton, S., Sugar, K., Blundel, R. and Northall, P.
Published: 2024
Publisher: UKERC
Author(s): UKSAP
Published: 2012
Publisher: ETI
Author(s): Crawley, J., Higginson, S., Moore, G. and Eyre, N.
Published: 2023
Publisher: CREDS
Author(s): Snell, C. and Bevan, M.
Published: 2018
Publisher: UKERC
Too often fuel poverty is thought of as an issue that only impacts older disabled people, but the reality is that fuel poverty blights the lives of disabled people of any age: from children, to adults of working age, to older people.
The evidence gathered through the Policy Pathways to Justice in Energy Efficiency project is based on in-depth research conducted with national policy makers, with stakeholders who implement energy efficiency policy and with households on low incomes. It provides a clear picture of the energy needs of families on low incomes and of what needs to happen to make a real difference in their lives.
This guide for practitioners takes these findings and turns them into practical steps for people working in the fuel poverty and energy efficiency sectors supporting disabled people.
Author(s): Snell, C. and Bevan, M.
Published: 2018
Publisher: UKERC
Fuel poverty remains a pressing issue for over 4 million households in the UK today. Families with children living on low incomes are at particular risk of experiencing fuel poverty, and its effects can penetrate deep into everyday life and into the practical, social and emotional worlds of those who encounter it.
The evidence gathered through the Policy Pathways to Justice in Energy Efficiency project is based on in-depth research conducted with national policy makers, with stakeholders who implement energy efficiency policy and with households on low incomes. It provides a clear picture of the energy needs of families on low incomes and of what needs to happen to make a real difference in their lives.
This guide for practitioners takes these findings and turns them into practical steps for people working in the fuel poverty and energy efficiency sectors.
Author(s): Brand, C. and Anable, J.
Published: 2017
Publisher: UKERC
Evidence breifing from ESRC drawing upon research from the UK Energy Research Centre, outlined in the paper Modelling the uptake of plug-in vehicles, examines the timing, scale and impacts of the uptake of plug-in vehicles in the UK car market from a consumer perspective. The results show the importance of accounting for the varied and segmented nature of the car market, social and environmental factors, as well as considering how different uptake scenarios affect wider lifecycle emissions.
Author(s): Cairney, P., Munro, F., McHarg, A., McEwen, N., Turner, K. and Katris, A.
Published: 2019
Publisher: UKERC
This briefing paper uses the example of a changing UK/Scottish government relationship after Brexit to demonstratehow to analyse the role of politics and policymaking in the transformation of energy systems.
Brexit will create a new division of policymaking responsibilities between EU, UK, and devolved governments.
In this paper we divide energy policy competences according to levels of government. Initially, it suggests that we cangenerate a clear picture of multi-level policymaking. However, the formal allocation of competences only tells a partialstory, because actual powers may operate differently from the strict legal picture. These blurry boundaries betweenresponsibilities may be further complicated by Brexit, even if it looks like the removal of a layer of government willsimplify matters.Instead of imagining clearlines of accountability, think of energy policy as part of a complex policymaking system in which the link between powers, practices, and outcomes is unclear and an energy system, in which government isonly one of many influences on outcomes.
Key findings
Author(s): Eyre, N. and Oreszczyn, T.
Published: 2022
Publisher: CREDS
Author(s): Rosenow, J., Lowes, R., Broad, O., Hawker, G., Wu, J,. Qadrdan, M. and Gross, R.
Published: 2020
Publisher: UKERC
Author(s): Eyre, N.
Published: 2023
Publisher: CREDS
Author(s): Rosenow, J., Guertler, P., Sorrell, S. and Eyre, N.
Published: 2017
Publisher: UKERC
Author(s): Turner, K., Katris, A., Calvillo., Stewart, J. and Zhou, L.
Published: 2023
Publisher: UKERC
Author(s): Simcock, N., Jenkins, K., Mattioli, G., Lacey-Barnacle, M., Bouzarovski, S. and Martiskainen, M.
Published: 2020
Publisher: CREDS
Author(s): Bays, J., Nduka, E., Jimoh, M., Liu, L., Silva, N., Liu, X., Bharucha, Z., Khalid, R., Caprotti, F., Bobbins, K., Pailman, W., Bookbinder, R., Garret, J. and Gul, M.
Published: 2024
Publisher: UKERC
Author(s): Philips, I., Anable, J. and Chatterton, T.
Published: 2020
Publisher: CREDS
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