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Energy EconomicsAuthor(s): Baringa Partners LLP
Published: 2018
Publisher: ETI
Author(s): ETI
Published: 2018
Publisher: ETI
Author(s): Baringa Partners LLP
Published: 2018
Publisher: ETI
Author(s): Baringa Partners LLP
Published: 2018
Publisher: ETI
Author(s): Blondeel, M., Bradshaw, M., Froggatt, A. and Kuzemko, C.
Published: 2022
Publisher: UKERC
Author(s): Blyth, W., Gross, R., Bell, K., MacIver, C. and Nash, S.
Published: 2021
Publisher: UKERC
Author(s): McLachlan, C., Braunholtz-Speight, T., Hawker, G. and Watson, J.
Published: 2018
Publisher: UKERC
UKERC have submitted a reponse to the BEIS call for evidence on the future for small-scale low-carbon generation. This consultation sought to identify the role that small-scale low-carbon generation can play in the UK shift to clean growth by further understanding:
In our submission we responded to the individual points raised in the call, drawing on two streams of work undertaken as part of the UKERC research programme. The first stream concerns community energy, drawing primarily on data from the UKERC Financing Community Energy project. This project has collected and analysed data from a number of sources:
The second stream draws on a number of recent UKERC publications on electricity systems and networks :
Author(s): Froggatt, A., Kuzemko, C. and Blondeel, M.
Published: 2022
Publisher: UKERC
Author(s): Nolden, C., Moya Mose, T., Sugar, K., Kommidi, A. and Fox, S.
Published: 2023
Publisher: UKERC
Author(s): Eyre, N., Anable, J., Barrett, J., Fawcett, T., Foxon, T., Oreszczyn, T. and Webb, J.
Published: 2019
Publisher: CREDS
Author(s): Topouzi, M., Mallaburn, P. and Fawcett, T.
Published: 2023
Publisher: CREDS
Author(s): Stegman, A.
Published: 2017
Publisher: ETI
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): Watson, J., Gross, R., Bell, K., Waddams, C., Temperton, I., Barrett, J., Rhodes, A., Gill, S. and Bays, J
Published: 2017
Publisher: UKERC
We welcome the opportunity to comment on the findings of the Cost of Energy Review, conducted by Professor Dieter Helm. In our response, we address most of the questions set out in the Call for Evidence from BEIS. Before turning to these specific questions, we have three general observations about the Review and the Call for Evidence.
First, whilst the review title focuses on the cost of energy, this is misleading. The terms of reference and the Review report make it clear that the main focus is electricity rather than energy in general.
This distinction is important since the data shows significant differences in the position of UK electricity and gas costs when compared to costs in other countries. There are also differences between relative costs for households and relative costs for business energy consumers. UK electricity prices are higher up the European league table than prices for gas. Electricity prices for energy intensive industries in the UK are particularly high.
Our second comment is that there are important distinctions between prices, costs and bills. Whilst much of the debate focuses on prices, the costs of energy for consumers also depends on their energy consumption. Therefore, it is also important to consider energy efficiency of buildings, appliances and industrial processes since these are a key determinant of costs.
Our third comment is that costs need to be considered for the electricity system as a whole. Whilst the separate questions in the Call for Evidence about generation, networks and retail supply are understandable, costs to consumers partly depend on interactions between these components of the electricity system. This compartmentalised approach to the evidence base could mean that some of these systemic interactions are missed.
Author(s): Cass, N., Lucas, K., Adeel, M., Anable, J., Buchs, M., Lovelace, R., Morgan, M. and Mullen, C.
Published: 2022
Publisher: CREDS
Author(s): Gross, R., Blyth, W., MacIver, C., Green, R., Bell, K. and Jansen, M.
Published: 2022
Publisher: UKERC
UKERCs response provides commentary and analysis on many of the wide range of topics encompassed in the consultation. This includes the overall vision and objectives, case for change, the evaluation criteria defined by BEIS, locational pricing and local markets, lessons from other countries, changes to wholesale markets and incentives for low carbon generation, flexibility and capacity.
Our response provides detailed and evidence-based analysis on each of these complex topics, drawing on UKERC research and wider outputs. We highlight some of the complex trade-offs involved and argue for a cautious and gradualist approach that builds on the progress already made in some areas.
Author(s): Bell, K., Blyth, W., Bradshaw, M., Green, R., Gross, R., Jansem, M., Ostrovnaya, A. and Webb, J.
Published: 2022
Publisher: UKERC
Author(s): Hamilton. K
Published: 2023
Publisher: UKERC
Author(s): Hanna, R., Heptonstall, P., Gross, R., Wade F. and Webb, J.
Published: 2021
Publisher: UKERC
Author(s): Deller, D., Waddams, C., Errington, E., Fletcher, A., Hargreaves, T., Harker, M., Longhurst, N., Reader, D. and Turner, G.
Published: 2018
Publisher: Centre for Competition Policy (University of East Anglia) and UKERC
Concern about fairness in the retail energy market is clear from media headlines and the passing of legislation to impose a wide price cap in the retail energy market in 2018. Fairness in Retail Energy Markets? Evidence from the UK provides extensive evidence from a range of disciplines to inform this important debate. This report does notattempt to define what constitutes fair or unfair, since this ultimately rests in the eye of the beholder. Nevertheless, its message is clear: development of the retail energy market in the UK can only be understood by recognising the political economy around questions of distribution and fairness.
A multi-disciplinary perspective
The publication reports research conducted at the Centre for Competition Policy, University of East Anglia, as part of the UK Energy Research Centres programme. The research is multi-disciplinary, drawing together researchers from a range of disciplines: economists, legal scholars, human geographers and a policy analyst. This range of specialisms provides a rare opportunity to consider fairness and retail energy markets in the round. The research team is both unusually broad and academically independent. The reports five main chapters present findings from different disciplines and methodologies to stimulate consideration of evidence which is rarely encountered together. In assembling this evidence the researchers are grateful to our partners Broadland Housing Association, Cornwall Energy and Ofgem, as well as to the Parliamentary Archive and all our interviewees.
The report presents findings under five broad themes: (i) how long-term outcomes contextualise the retail energy markets political salience; (ii) how distributional objectives feed into institutions; (iii) the multi-faceted nature of engagement with energy; (iv) the detailed experiences of those at risk of FP; and (v) how data/statistics can be improved.
Together the evidence raises fundamental issues for the future governance of the market. The traditional focus of economics on efficiency has never claimed that markets are effective tools for delivering equitable outcomes, and the traditional framework of pure economic regulation is challenged by the focus on fairness. Can the market ever escape political intervention when energy prices rise substantially? This question is particularly relevant when key affordability support policies the Winter Fuel Payment and the initial Fuel Poverty Strategy were introduced as energy was approaching its mostaffordable level over a 30-year time horizon.
Energys political salience has meant that the independence of the market regulator, Ofgem, has evolved in a way not originally envisioned. Government has increased the number and complexity of Ofgems statutory duties. The resulting ambiguity regarding how to prioritise the regulators different duties has led to increased government-regulator communication and the potential for government to exert pressure on the regulator through less formal channels.
We present evidence indicating that there are problems with implementing the main frame used to address energy fairness in the UK, namely fuel poverty. We suggest that the approach to analysing fuel poverty, and the associated policymaking, would benefit from a change of direction, towards a focus on the directly observable real-world phenomenawhich underpin this complex problem, rather than on the official fuel poverty statistics. Such an approach would help to recognise that energy efficiency interventions are unlikely to solve all the energy affordability challenges facing households.
Author(s): Cairns, I., Hannon, M., Braunholtz-Speight, T., Hardy, J., McLachan, C., Mander, S., Manderson, E. and Sharmina, M.
Published: 2020
Publisher: UKERC
Commencing in 2016, the Financing Community Energy project provides a comprehensive quantitative and qualitative analysis of the role of finance in the evolution of the UK community energy sector. This report presents the final of our four case studies of UK community energy organisations, exploring how these organisations have sought to finance their projects against a backdrop of diminishing government support for grassroots sustainable development.
Established in 2013, Brighton and Hove Energy Services (BHESCo) primary focus was to develop both renewable energy and energy efficiency projects, whilst also ensuring people have equal access to energy. BHESCo is rather unlike our other community energy case studies in that it operates very much like an Energy Services Company (ESCo), where they accept some degree of responsibility to provide the energy service that its customers ultimately desire (e.g. lighting, ambient temperature), rather than the straightforward supply of heat or electricity.
Author(s): Cairns, I., Hannon, M., Braunholtz-Speight, T., Hardy, J., McLachan, C., Mander, S., Manderson, E. and Sharmina, M.
Published: 2020
Publisher: UKERC
This report presents a case study of Edinburgh Community Solar Cooperative, exploring how it financed the project against a backdrop of diminishing government support for grassroots sustainable development.
This report presents the first of four case studies of UK community energy organisations, exploring how these organisations have sought to finance their projects against a backdrop of diminishing government support for grassroots sustainable development.
Edinburgh Community Solar Cooperative (ECSC) is a Community Benefit Society (BenCom). Its objectives are a combination of environmental and social, with an explicit focus on reducing emissions, alleviating fuel poverty, improving energy security and promoting sustainable development education.
ECSC quickly settled on renewable power generation as a means of delivering this combination of environmental andsocial value. Today it operates 1.4 MW of solar PV panels on the roofs of 24 council-owned properties in Edinburgh, including schools, leisure centres and community halls.
Author(s): Cairns, I., Hannon, M., Braunholtz-Speight, T., Hardy, J., McLachan, C., Mander, S., Manderson, E., Sharmina, M.
Published: 2020
Publisher: UKERC
Commencing in 2016, the Financing Community Energy project provides a comprehensive quantitative and qualitative analysis of the role of finance in the evolution of the UK community energy sector. This report presents the second of four case studies of UK community energy organisations, exploring how these organisations have sought to finance their projects against a backdrop of diminishing government support for grassroots sustainable development.
Green Energy Mull (GEM) is a Community Benefit Company (BenCom) that owns and operates Garmony Hydro; a 400 kW run-of-the-river hydro scheme on the island of Mull, off the west coast of Scotland.
Author(s): Cairns, I., Hannon, M., Braunholtz-Speight, Tim., Hardy, J., Mclachan, C., Mander, S., Manderson, E., Sharmina, M.
Published: 2020
Publisher: UKERC
Commencing in 2016, the Financing Community Energy project provides a comprehensive quantitative and qualitative analysis of the role of finance in the evolution of the UK community energy sector. This report presents the third of four case studies of UK community energy organisations, exploring how these organisations have sought to finance their projects against a backdrop of diminishing government support for grassroots sustainable development.
Gwent Energy (Wales) was formed in 2009 to deliver environmental benefit and cost savings to its local community. It aims to help local consumers save money on their energy bills through a combination of renewable energy, efficiency, storage and electric vehicle charging interventions, whilst simultaneously generating a surplus to fund local community initiatives.
Author(s): Lowe, R.
Published: 2020
Publisher: CREDS
Author(s): Cairns, S. and Buchs, M.
Published: 2021
Publisher: CREDS
Author(s): Barnes, J.
Published: 2023
Publisher: CREDS
Author(s): Barrett, M. and Gallo Cassarino, T.
Published: 2021
Publisher: CREDS
Author(s): Haf, S. and Robison, R.
Published: 2020
Publisher: UKERC
Local Authorities role in the energy transition and working with their citizens in doing so, has been recognised as crucial to paving transition paths. Material collated within this report is intended to better inform Energy Cities and its partners, Local Authorities and Municipalities, civil society groups and others interested in how citizens can be supported and encouraged to participate in energy system developments as a part of the energy transition. The findings in this report are therefore intended to directly help Local Authorities across Europe in implementing more participative approaches to their governance practices in energy systems.
Delivered as part of the Energy-PIECES project, this report was developed during a secondment with Energy Cities.
Author(s): Gross, R., Bradshaw, M., Blyth, W., Bell, K., Webb, J., Taylor, P., Gailani, A., Rattle, I., Cooper, S., Allen, S., Brand, C., Strachan, N., Wu, J., Qadrdan, M., Britton, J., Dodds, P., Bays, J., Jones, C., Halliday, J., Armstrong, A., Chilvers, J. and Pallet, H.
Published: 2024
Publisher: UKERC
Author(s): Buro Happold
Published: 2016
Publisher: ETI
Author(s): Brown, D., Jaccarini, C., Foxon, T., Mininni, G., Copeland, C., Brisbois, M.C., Stack- Maddox, S., Aguirre Martinez, B. and Lacey-Barnacle, M.
Published: 2023
Publisher: CREDS
Author(s): Dicks, J., McGovern, M., Pollitt, H., Downing, C. and Eyre,N.
Published: 2021
Publisher: CREDS
Author(s): Smith, W., Pidgeon, N., Demski, C. and Becker, S.
Published: 2024
Publisher: UKERC
Author(s): Hardt, L., Brockway, P., Taylor, P., Barrett, J., Gross, R. and Heptonstall, P.
Published: 2019
Publisher: UKERC
Under the UK Climate Change Act 2008, the government is legally bound to reduce greenhouse gas (GHG) emissions by 80% by 2050 relative to 1990 levels.
Historically, the focus of energy policy in the UK has been on supply-side policies, such as decarbonisation of electricity generation through greater use of low carbon technologies like wind and solar. Increasingly, however, demand-side energy policies are being recognised as having important contributions to make to achieving emission reduction targets, through reducing energy demand or by making energy demand more flexible and compatible with variable renewable energy sources. Such demand-side policies can seek to promote a wide range of technologies and behaviours, for example improved buildinginsulation, reduction in the use of energy intensive materials and increases in teleworking to reduce commuting.
To fully realise the potential of demand-side energy policies, it is important that they can be adequately represented in quantitative energy models, because such models play an important role in informing UK energy policy. However, we do not currently have a good understanding of how well the different energy models that inform UK government energy policy represent energy demand and demand-side energy policies.
Therefore we have undertaken a Rapid Evidence Assessment (a constrained form of systematic review) to examine the energy models that have informed energy policy documents published by the UK government between 2007 and 2017. The overarching question this review seeks to address is:
How suitableare the energy models used toinform UK government energy policy for exploring the full range of contributions that demand-side energy policies can make to climate change mitigation?
Our Rapid Evidence Assessment reveals that the core strength of current energy modelling is the detailed representation of technologies, with many models featuring information on hundreds of potential technological options for increasing energy efficiency. Although uncertainties exist around these technological options, these models allow us to gain a coherent and realistic understanding of how different combinations of technologies could satisfy our future energy service demands under different low-carbon scenarios.
However, the modelling landscape reveals two key limitations with regard to the representationof non-technological drivers of energy demand:
Author(s): Beaumont, N., Bell, K., Flower, J., Gross, R., Hanna, R., Qadrdan, M., Rhodes, A., Speirs, J., Taylor, P., Webb, J. and Wu. J.
Published: 2022
Publisher: UKERC
Author(s): Brinker, L.
Published: 2018
Publisher: UKERC
This response provides recommendations on the reform of the energy supply market, based on research on “energy retail market governance” undertaken within UKERC.
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): Hurley, W.L. and Nortstrom, C.J.
Published: 2015
Publisher: ETI
Author(s): Bonsall, P., Cross, J., and Shepherd, J.
Published: 2011
Publisher: ETI
Author(s): Cross, J., Reid, R., Butcher, N., Bonsall, P. and Shepherd, S.
Published: 2011
Publisher: ETI
Author(s): Guest, P., Anelli, D., Jakeman, N. and Ballardin, G.
Published: 2011
Publisher: ETI
Author(s): ETI
Published: 2011
Publisher: ETI
Author(s): Cross, J., and Guri, N.
Published: 2011
Publisher: ETI
Author(s): Cross, J.
Published: 2011
Publisher: ETI
Author(s): ETI
Published: 2011
Publisher: ETI
Author(s): Reid, R., Bonsall, P. and Butcher, N.
Published: 2011
Publisher: ETI
Author(s): Britton, J. and Webb, J.
Published: 2024
Publisher: UKERC
Author(s): Hirmer, S.A. and Robison, R.
Published: 2020
Publisher: UKERC
Energy is a crucial element for development in almost every aspect of community life such as education, health, food, and security, and it can contribute to farming productivity, income generation, and the creation of networks that enable youth to work from their villages. Despite this, around 1 billion people globally do not have access to sustainable energy sources, and 80% of those people live in rural areas across 20 countries in Asia and sub-Saharan Africa. To decrease this energy access gap, and to improve rural livelihoods and increase economic opportunities in rural areas, Productive Uses of Energy (PUE) offer an untapped opportunity: examples of PUE include irrigation and post-harvest processing.
Despite the benefits of PUE, they are often not considered in the planning off-grid rural electrification developments. This may be partially attributed to a lack of capital; riskyframework conditions; and a lack of clear policy guidelines available on the subject. The latter of which was the focus of this research project.
Delivered as part of the Energy-PIECES project, this report was developed during a secondment with Practical Action.
Author(s): Maximov, S.,Rickman, J., Gross, R. and Ameli, N.
Published: 2024
Publisher: UKERC
Author(s): Lidstone, L.
Published: 2017
Publisher: ETI
Author(s): Garvey, A., Norman, J. and Barrett, J.
Published: 2022
Publisher: CREDS
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): 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): Blyth, W., Gross, R., Nash, S., Jansen, M., Rickman, J. and Bell, K.
Published: 2021
Publisher: UKERC
Author(s): Watson, J., Winskel, M., Bell, K., Hawker, G., Webb, J., Tingey, M., Dodds, P., Chilvers, J., Pallett, H., Pidgeon, N., Demski, C., Morton, C., Scott, K., Roelich, K., Sakai, M., Cotton, I., Sambrook, K., Giesekam, J. and Barrett, J.
Published: 2017
Publisher: UKERC
UKERC welcomes the Scottish Government's energy and climate policy ambition, and applaud the valuable lead it is taking on energy. This has the potential to bring economic and social advantages - for example, the development of low carbon industrial capability with export potential and jobs, and improved air quality with associated health benefits. However, it is also important to ensure that the scale and pace of the transition minimises the additional costs for consumers. This can be achieved by supporting technological innovaiton that further reduces the costs of low carbon technologies and by maximising investments in energy efficiency.
Author(s): Winskel, M., Watson, J., Gross, R., Dodds, P. and Bell, K.
Published: 2018
Publisher: UKERC
UKERC have submitted a reponse to the Scottish GovernmentFinance and Constitution Committee's call for evidence on the Financial Memorandum that accompanies the Climate Change Bill.
This bill was introduced in May 2018 andamends the Climate Change (Scotland) Act 2009 to make provision for setting targets for the reduction of greenhouse gases emissions and to make provision about advice, plans and reports in relation to those targets.
Author(s): Froggatt, A., Wright, G. and Lockwood, M
Published: 2017
Publisher: Chatham House, the Royal Institute of International Affairs
• Negotiations over the terms of ‘Brexit’ are likely to be lengthy, complex and difficult. Energy is one policy area in which it may be easier for the UK and future EU27 to find common ground
• Energy cooperation over the past decades has helped European countries to enhance their geopolitical security, respond to growing climate threats, and create a competitive pan-European energy market. Maintaining close cooperation in this field, and the UK’s integration in the European internal energy market (IEM), will be important for the UK and the EU27 post-Brexit.
• Strong UK–EU27 energy cooperation could help ensure that existing and future interconnectors – physical pipes and cables that transfer energy across borders – between the UK, Ireland and the continent are used as efficiently as possible. As European economies, including the UK, look to decarbonize further, interconnectors will help minimize the costs of operating low-carbon electricity systems, and help lower electricity prices for UK consumers.
• The UK and the EU27 have identified the special relations between the UK and the Republic of Ireland as a priority for negotiations. Any future agreement needs to maintain the Single Electricity Market (SEM) across the island of Ireland, as failure to do so could result in an expensive duplication of infrastructure and governance.
• EU funds and European Investment Bank (EIB) loans account for around £2.5 billion of the UK’s energy-related infrastructure, climate change mitigation, and research and development (R&D) funding per year. Replacing these sources of finance will be necessary to ensure that the UK’s energy sector remains competitive and innovative.
• The UK intends to leave Euratom, the treaty which established the European Atomic Energy Community and which governs the EU’s nuclear industry. This process – dubbed ‘Brexatom’ – will have a significant impact on the functioning of the UK’s nuclear industry, particularly in respect to nuclear material safeguards, safety, supply, movement across borders and R&D. Achieving this within the two-year Brexit time frame will be extremely difficult. The UK will need to establish a framework that it can fall back on to ensure nuclear safety and security.
• Remaining fully integrated with the IEM would require the UK’s compliance with current and future EU energy market rules, as well with some EU environmental legislation. The UK government, British companies and other relevant stakeholders will need to maintain an active presence in Brussels and European energy forums, so that constructive and informed engagement can be sustained.
• Without a willingness to abide by the jurisdiction of the European Court of Justice (ECJ), and in the absence of a new joint UK–EU compliance mechanism, the UK may be required to leave the EU Emissions Trading System (ETS) – an instrument in the UK’s and EU’s fight against climate change. Leaving the ETS would be complicated, even more so if the UK leaves before the end of the ETS’s current phase (2013–20). To maintain carbon pricing in some form outside of the ETS, the UK would need to either establish its own emissions trading scheme, which would be complicated and time-consuming; or build on the carbon floor price and introduce a carbon tax. Either of these potential solutions would need political longevity to be effective.
• It is in both the UK’s and the EU27’s interests for the UK to continue to collaborate on energy policy with EU and non-EU member states. The best way to achieve this would be to establish a robust new pan-European energy partnership: an enlarged European Energy Union. In particular, such a partnership could offer a useful platform for aligning EU policies with those of third countries, including the UK, Norway and Switzerland, while allowing them to fully access the IEM and push forward common initiatives. Experience suggests that the EU27 would be more receptive to working within an existing framework or multilateral approach (as with the European Energy Community) than to adopting a bilateral approach (as the EU currently does in its energy relations with Switzerland).
Author(s): Humphry, L. and Greenleaf, J.
Published: 2016
Publisher: ETI
Author(s): Eyre, N., Oreszczyn, T., Anable, J., Barrett, J. and Torriti, J.
Published: 2018
Publisher: CREDS
Author(s): Braunholtz-Speight, T., Mander, S., Hannon, M., Hardy, J., McLachlan, C., Manderson, E. and Sharmina, M.
Published: 2018
Publisher: UKERC
It argues that, since its emergence in the UK in the late 1990s, community energy has grown through finding opportunities for smaller scale, decentralised energy activities in the UKs highly centralised energy system. The combination of development of renewable energy technologies, and the launch of the governments Feed-In Tariff Scheme (FITS) in 2010, produced a boom in the sector, especially around solar electricity generation.
Recent cuts to FITS rates and other policy changes place community energy at a crossroads. Some renewables activity will continue, but groups are exploring a wide range of activities, partnerships, and business models. We are engaging with the sector around outputs from our research, which include a survey and case studies, to co-develop recommendations and pathways for the future.
Author(s): Ross, A.G., Allan, G., Figus,G., McGregor, P.G., Roy, G., Swales, J.K. and Turner, K.
Published: 2018
Publisher: UKERC
The wider impacts of energy policy on the macro-economy are increasingly recognised in the academic and policy-oriented literatures. Additionally, the interdependence of energy and economy implies that a (policy) change in the non-energy system impacts on the energy system. However, such spillovers on the energy system have not been extensively researched. We begin by analysing the impacts of export promotion policies - a key element of the UKs Industrial Strategy - on the energy system and energy policy goals. As the impacts of such policies are, in large part, transmitted via their effects on the economy, we adopt a computable general equilibrium model - UK-ENVI - that fully captures such interdependence. Our results suggest that an across-the-board stimulus to exports increases total energy use significantly. This does not come directly through energy exports, but indirectly through the energy sectors linkages to other sectors. Export led growth therefore impacts on energy use - and significantly so. This in turn is likely to have an adverse impact on emission targets. Policy makers should be aware of the fact that a successful implementation of the Industrial Strategy may create significant tensions with the UKs Clean Growth Strategy, for example, and with the goals of energy policy more generally. The importance of this effect will in practice depend upon: the mix of goods and services that are exported (an issue that we shall address once the export strategy is published); the success of low-carbon policies. Ultimately, a knowledge of the nature and scale of these spillover effects of economic policies on the energy system creates the potential for more effective and efficient policy making
Author(s): Eyre, N. and Oreszczyn, T.
Published: 2022
Publisher: CREDS
Author(s): McGlade. C., Pye. S., Watson. J., Bradshaw. M., Ekins. P.
Published: 2016
Publisher: UKERC
Author(s): UKERC
Published: 2020
Publisher: UKERC
The UK Energy Research Centre (UKERC) is in its fourth five-year phase of research and engagement activities, which will run until April 2024. In addition to the core programme of research, a number of mechanisms have been put in place to ensure that participation in UKERC is broad, flexible and addresses the needs of the wider UK research community.
A Flexible Fund of around £3m (valued at 80% FEC) has been set up in order to commission new research and facilitate the integration of the existing programme. The Fund is overseen by UKERC’s independent Research Committee. The key aims of the Fund are:
This report presents the outputs of two key consultation activities on potential Flexible Fund topics :
Author(s): Chaudry. M., Usher. W., Ekins. P., Strachan. N., Jenkins. N., Baker. P., Skea. J. and Hardy J
Published: 2009
Publisher: UKERC
Author(s): Turner, K., Katris, A., Calvillo., Stewart, J. and Zhou, L.
Published: 2023
Publisher: UKERC
Author(s): Frontier Economics
Published: 2014
Publisher: ETI
Author(s): Frontier Economics
Published: 2015
Publisher: ETI
Overall, we find that HEMS and cavity wall insulation are the only interventions which are likely to have payback periods within such a window given BMET default assumptions.
This document was prepared at the time to contribute to ETI internal thinking and planning only.
Author(s): Frontier Economics
Published: 2015
Publisher: ETI
Author(s): Frontier Economics
Published: 2015
Publisher: ETI
Author(s): ETI
Published: 2012
Publisher: ETI
Author(s): Tingey, M., Braunholtz-Speight, T., Hawkey, D., McLachlan, C. and Webb, J.
Published: 2018
Publisher: UKERC
We welcome the Welsh Government’s interest in locally owned renewable energy. Our response draws on a range of research undertaken by the Heat and the City research group at the University of Edinburgh, including a UK-wide study of local authorities and energy; and on the Financing Community Energy research project being led by Tyndall Manchester.
In our response we made the following general comments, before responding to individual points raised in the call:
Author(s): Heptonstall, P. and Gross, R.
Published: 2018
Publisher: UKERC
The prices paid for electricity by domestic customers in the UK has been a regular discussion point in both policy debate and the media. A particular concern is the contribution that policies to incentivise low-carbon generation and energy saving make to the bills paid by householders. In response to these concerns, the UK Energy Research Centre’s Technology and Policy Assessment team examined in detail the data available on prices in the UK and other countries to address the question: How do the impacts of government policies funded through consumer electricity bills differ between countries?
This report reviews evidence on electricity prices paid by household (i.e. domestic) consumers with a focus on the UK and selected case study countries (Germany, France, Sweden and Australia), supplemented by consolidated EU-wide data to provide a broader context. Gas prices were not examined in detail because to date, policy has generally had a much greater impact on electricity prices, and UK gas prices are in the lower quartile of the EU range for all domestic consumers and almost all commercial and industrial consumers.
Electricity price formation is complex and affected by policies in the UK and all of the case studies considered in this review. Different policy approaches, geographical factors and mixes of power generation mean that comparison requires considerable caution, avoiding over-simplification. Nevertheless there is no evidence to support the contention that policy costs are either the principal source of high domestic power prices in the UK or are high compared to the country case studies or indeed the majority of Western European nations.
Author(s): Hampton, S., Eadson, W., Blundel, R. and Sugar, K.
Published: 2024
Publisher: UKERC
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