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.
In June 2016, ETI’s Strategy Manager Chris Heaton presented “Energy system modelling of the UK energy policy reset – a multi-sector analysis” at an Energy Systems Conference.The presentation focused in particular on a multi-sector analysis of CCS
Geothermal energy today is mainly known for its reliable production of base-load power – the power needed to meet minimum demands – in areas where geological conditions permit fluids to transfer heat from the Earth to the surface in self-flowing wells at high temperatures. However, geothermal resources at moderate temperatures can be found in aquifers that are widespread. Such resources can be used in binary power plants, combined heat and power plants or in heat-only applications. Emerging geothermal technologies that extract energy from the hot rock resources found everywhere in the world hold much promise for expanding the production of geothermal power and heat.
This UKERC Research Landscape provides an overview of the competencies and publicly funded activities ingeothermal 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: GEOTHERMAL ENERGY
Section 1: An overview which includes a broad characterisation of research activity in the sector and the key research challenges
Section 2: An assessment of UK capabilities in relation to wider international activities, in the context of market potential
Section 3: Major funding streams and providers of basic research along with a brief commentary
Section 4: Major funding streams and providers of applied research along with a brief commentary
Section 5: Major funding streams for demonstration activity along with major projects and a brief commentary
Section 6: Research infrastructure and other major research assets (e.g. databases, models)
Section 7: Research networks, mainly in the UK, but also European networks not covered by the EU Framework Research and Technology Development (RTD) Programmes
Section 8: UK participation in energy-related EU Framework Research and Technology Development (RTD) Programmes
Section 9: UK participation in wider international initiatives, including those supported by the International Energy Agency
The UK Energy Research Centre welcomes this opportunity to provide input to the BERR Consultation on the UK Renewable Energy Strategy. We have addressed a number of the questions posed in the consultation document calling on all UKERC members for input.
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
Without the adoption of a more holistic approach that addresses BETTA structural reform and network regulation, it is difficult to see how a satisfactory resolution of the transmission access issue can be achieved.
It is proposed that more strategic and unified development of the onshore and offshore network together with the provision of interconnection would be encouraged through common or at least zonal ownership of offshore transmission assets, while cost-effectiveness and the efficient delivery of assets could be achieved through tendering and outsourcing construction.
Modern distribution networks are not typically designed to accommodate generation; a number of technical and operational challenges will need to be addressed in order for the connection of significant amounts of distributed generation on these networks.
The consequences of intermittency or variability of input will need to be managed by a combination of retaining conventional plant and developing demand response. Additionally, interconnection with adjacent transmission systems and improved forecasting of wind resource and maintaining geographic diversity of wind generation could also reduce the impacts of intermittency.
The role of smart grids will be to enhance the capacity and utilisation of the electricity grid (both transmission and distribution) by means other than investing in traditional transmission assets and, via the deployment of smart metering, massively increase the contribution of the demand side to system security and the decarbonisation of the heat and transport sectors.
UKERC is concerned that a major opportunity will be missed unless there is a timely change to a regulatory regime that encourages objective and costefficient choices between investment and smart grid solutions.
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:
We suggest that greater attention should be paid to city/town/settlement scale infrastructure for a low carbon energy system, including area based upgrading of the built environment and low carbon heating infrastructure. Heat and energy efficiency for a low energy building stock are crucial to meeting Welsh and UK Government legally binding targets for carbon abatement.
At national scale, Wales has opportunities for sharing risk, costs and benefits of energy developments – i.e. the direct benefit to the citizens of Wales through public ownership and the aggregate costs across society of decarbonisation.
Local Authority planning and ownership could be considered further as key components to securing greater local control and accountability, and achieving Welsh Government objectives. Our research indicates that further developing specific roles, powers, resources and responsibilities of local institutional actors in energy planning and ownership, especially Local Authorities would also add value to Welsh society and economy.
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