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Wind EnergyAuthor(s): ETI
Published: 2017
Publisher: ETI
Author(s): US Department of Energy
Published: 2008
Publisher: US Department of Energy
Author(s): ETI
Published: 2016
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
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): 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): Futter, D.N., Chevalier, R., Gilbert, D., Muguelanez, E., Whittle, M. and Infield, D.
Published: 2013
Publisher: ETI
Author(s): ETI
Published: 2011
Publisher: ETI
Author(s): ETI
Published: 2011
Publisher: ETI
Author(s): ETI
Published: 2016
Publisher: ETI
Author(s): Colechin, M.
Published: 2016
Publisher: ETI
Author(s): Bradley, S.
Published: 2015
Publisher: ETI
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): Subtheme Group
Published: 2019
Publisher: Department of Business, Energy and Industrial Strategy
Author(s): Heaton, C and Milne, S.
Published: 2016
Publisher: ETI
Author(s): ETI
Published: 2017
Publisher: ETI
Author(s): Greenacre, P., Gross, R. and Heptonstall, P.
Published: 2010
Publisher: UKERC
This report was produced by the UK Energy Research Centre’s (UKERC) Technology and Policy Assessment (TPA) function.
The primary objective of the TPA, reflected in this report, is to provide a thorough review of the current state of knowledge. New research, such as modelling or primary data gathering may be carried out when essential. It also aims to explain its findings in a way that is accessible to non-technical readers and is useful to policymakers.
Author(s): ETI
Published: 2011
Publisher: ETI
Author(s): Speirs, J., Gross, R., Contestabile, M., Candelise, C., Houari, Y. and Gross, B.
Published: 2014
Publisher: UKERC
There is increasing concern that future supply of some lesser known critical metals will not be sufficient to meet rising demand in the low-carbon technology sector. A rising global population, significant economic growth in the developing world, and increasing technological sophistication have all contributed to a surge in demand for a broad range of metal resources. In the future, this trend is expected to continue as the growth in low-carbon technologies compounds these other drivers of demand. This report examines the issues surrounding future supply and demand for critical metals - including Cobalt, Gallium, Germanium, Indium, Lithium, Platinum, Selenium, Silver, Tellurium, and Rare earth Metals.
Author(s): Rhodes, A., Heptonstall, P. and Speirs, J.
Published: 2022
Publisher: UKERC
Author(s): Bradley, S.
Published: 2016
Publisher: ETI
Author(s): ETI
Published: 2015
Publisher: ETI
Author(s): Pillai, A.C.,Chick, J., Johanning, L., Khorasanchi, M. and Pelissier, S.
Published: 2015
Publisher: Proceedings of the Twenty-fifth (2015) International Offshore and Polar Engineering Conference, Kona, Big Island, Hawaii, June 21-26 2015
Author(s): Hurley, W.L. and Nortstrom, C.J.
Published: 2015
Publisher: ETI
Author(s): Commentary by Professor David Infield, University of Strathclyde
Published: 2013
Publisher: UKERC
Author(s): Infield, D.G.
Published: 2013
Publisher: UKERC
Author(s): Skea, J. and Infield, D.
Published: 2007
Publisher: UKERC
The following submission is preceded by a tabled summary of the current state of energy research and development and deployment in the UK, technology by technology. This is used as the basis for commentary on the technology potential of:
UKERC offers its views on the research funding landscape. Recommendations are highlighted in bold.
Author(s): Flett, G., Kelly, N. and McGhee, R.
Published: 2018
Publisher: UKERC
Energy System Demonstrators are physical demonstrations testing new technologies for low-carbon energy infrastructure.
A review of energy systems demonstrator projects in the UK was undertaken for UKERC by the Energy Systems Research Unit (ESRU) at the University of Strathclyde. The review encompassed 119 demonstrators and consisted of two phases: 1) the identification of demonstrator projects and 2) an analysis of projects and their outcomes.
The review defined an energy system demonstrator as “the deployment and testing of more than one technology type that could underpin the operation of a low-carbon energy infrastructure in the future”. Only demonstrators that post-date the 2008 Climate Change Act were included and that included a physical demonstration at one or more UK sites. 119 projects were identified that met the search criteria.
There were two phases of review activity. Phase 1 involved identification and documentation of demonstration projects, involving a systematic search to identify and record the details of projects. Phase 2 was a review of project outcomes and outputs, particularly end-of-project evaluations, covering technical, economic and social outcomes where available.
The review outputs (available here) are a final report summarising the findings, 119 demonstrator project summaries (the Phase 1 reports), 119 demonstrator output analyses (the Phase 2 reports) and a GIS (Geographic Information System) map and database showing the locations and project details of the demonstrators.
The final report, attendant project summaries and GIS data are intended to provide policy makers and funding bodies with an overview of the existing demonstrator “landscape”, enabling decisions on future demonstrator calls and the focus of those calls to be made with a clearer knowledge of what has already been done.
Author(s): IEA
Published: 2012
Publisher: International Energy Authority
Author(s): Gross, R., Heptonstall, P., Anderson, D., Green, T., Leach, M. and Skea, J.
Published: 2006
Publisher: UKERC
Author(s): European Wind Energy Association
Published: 2013
Publisher: European Wind Energy Association
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): ETI
Published: 2017
Publisher: ETI
Author(s): Heptonstall, P., Gross, R. and Steiner, F.
Published: 2017
Publisher: UKERC
When the UKERC TPA team completed its first assessment of the evidence on the costs and impacts of intermittent generation on the British electricity system, the conclusion was that the additional costs would be relatively low, adding around 5-8 per MWh to the cost of the renewable electricity generated. This was based on a review of the available evidence, most of which did not envisage more than 20% of electricity to be sourced from intermittent renewables.
Since then, the UKs targets for renewable generation have been set considerably higher than this, and a number of significant new studies have been carried out into the likely effects of a much higher proportion of renewable electricity in the UK mix.
This project provides an update to the original 2006 UKERC report, reviewing the new evidence for the impacts associated with higher shares ofrenewable generation and
Author(s): Antonutti, R., Peyrard, C., Johanning, L., Incecik, A. and Ingram, D.
Published: 2014
Publisher: Renewable Energy, 88: 83-94
Author(s): HM Government
Published: 2020
Publisher: UK Government
Author(s): Blyth, W., Gross, R., Jansen, M., Rickman, J., MacIver, C. and Bell, K.
Published: 2023
Publisher: UKERC
This working paper is an update to our November 2021 briefing paper: Risk and investment in zero-carbon electricity markets.
Author(s): Tunga, I
Published: 2017
Publisher: ETI
Author(s): Halliday, J.A. and Ruddell, A.J.
Published: 2013
Publisher: UKERC
This UKERC Research Landscape provides an overview of the competencies and publicly funded activities in wind energy research, development and demonstration (RD&D) in the UK. It covers the main funding streams, research providers, infrastructure, networks and UK participation in international activities.
UKERC ENERGY RESEARCH LANDSCAPE: WIND ENERGY
Author(s): Compiled by Samantha Quinn, University of Edinburgh
Published: 2014
Publisher: UKERC
Author(s): Greenacre, P.
Published: 2012
Publisher: UKERC
Offshore wind is widely expected to play a major role in UK compliance with the EU Renewables Directive. Projections from a range of analysts suggest the UK may need at least 15 to 20 GW of offshore wind capacity by 2020 (HoL, 2008) . Though the government has not set a specific target, the central range in its Renewable Energy Roadmap is that up to 18 GW could be installed by 2020 (DECC, 2011) with aspirations to go well beyond that in the decades that follow.
Development rights in the UK have been awarded by the Crown Estate (the owner of the seabed) in 4 rounds to date. Rounds 1 and 2, which commenced in 2001 and 2003 respectively, granted rights for a total of circa 8 GW of development. Round 2.5 gave Round 2 developers the rights to an additional 1.5 GW, whilst Round 3 rights, awarded in 2010, were for over 30 GW of potential development (The Crown Estate, 2010a, The Crown Estate, 2010b, Douglas-Westwood, 2010).
Given the substantial ambitions for UK offshore wind deployment the issue of cost and cost reduction has therefore been the subject of considerable interest. Drawing heavily on the data and analyses of UKERC TPA’s 2010 report (Greenacre et al., 2010), this paper examines cost trends in offshore wind energy, comparing past forecasts with outcomes to date, and analysing the main reasons for the disparity between them. The rationale for the study is to support and inform Chapter 5 of the UKERC TPA report ‘Presenting the Future: An assessment of future cost estimation methodologies in the electricity generation sector’. The case study has three specific aims:
Author(s): Jones, F.
Published: 2012
Publisher: UKERC
By 2020, it is projected that there will be 170GW of onshore wind capacity in the European Union, and 120GW in China (IEA, 2011), whilst America is expected to deliver 12GW of wind per year on average within this decade (Emerging Energy Research, 2009). Meanwhile within the UK, the Department of Energy and Climate Change (DECC) envisages a total of 13GW of onshore wind capacity over the same timeframe (DECC, 2011) However, although not as expensive as its offshore counterpart, the cost-effectiveness of onshore wind has been challenged within the UK. In February 2012 over one hundred MPs wrote to the Prime Minister expressing their concern about the subsidies required to support the technology (Middleton, 2012).
This case study contributes to a UK Energy Research Centre (UKERC, 2011) project on electricity generation cost estimation methodologies by:
The analysis focuses on the capex costs and levelised cost of energy (LCOE) of onshore wind. The cost data was collected from over 40 sources from a range of countries, with full details found in the Appendix.
Author(s): Hardy, J.
Published: 2008
Publisher: UKERC
Author(s): Hardy, J and Infield, D
Published: 2008
Publisher: UKERC
To meet the EU 15% renewable energy target will be a significant challenge for the UK. It is important to understand that reductions in the UKs total energy demand will produce proportional reductions in the renewable contribution required. Although self-evident, this simple fact is often overlooked. Indeed the UK has to date failed to achieve any reductions in energy use, in fact the reverse is true: energy consumption in the key sectors of electricity and energy for transport continues to rise steadily.
In addition to reducing the demand for energy, there will need to be a massive increase in the contribution of renewables to transport fuel (predominately biofuels), heat and electricity. This submission concentrates on renewable electricity because UKERC has core competency this area. In Table 1, below, UKERC presents an illustrative scenario for the contribution of renew
Author(s): Baker, P., Chaudry, M., Mitchell, C, Woodman, B., Jenkins, N., Strbac, G. and Hardy, J.
Published: 2010
Publisher: UKERC
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:
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