UK Large-scale Wind Power Programme from 1970 to 1990: the Carmarthen Bay experiments and the Musgrove Vertical-Axis Turbines

This article describes the development of the Musgrove Vertical Axis Wind Turbine (VAWT) concept, the UK ‘Carmarthen Bay’ wind turbine test programme, and UK government’s wind power programme to 1990. One of the most significant developments in the story of British wind power occurred during the 1970s, 1980s, and 1990s, with the development of the Musgrove vertical axis wind turbine and its inclusion within the UK Government’s wind turbine test programme. Evolving from a supervisor’s idea for an undergraduate project at Reading University, the Musgrove VAWT was once seen as an able competitor to the horizontal axis wind systems that were also being encouraged at the time by both the UK government and the Central Electricity Generating Board, the then nationalised electricity utility for England and Wales. During the 1980s and 1990s the most developed Musgrove VAWT system, along with three other commercial turbine designs was tested at Carmarthen Bay, South Wales as part of a national wind power test programme. From these developmental tests, operational data was collected and lessons learnt, which were incorporated into subsequent wind power operations.http://dx.doi.org/10.1260/03095240677860621

Identifying predictors of attitudes towards local onshore wind development with reference to an English case study

The threats posed by climate change are placing governments under increasing pressure to meet electricity demand from low-carbon sources. In many countries, including the UK, legislation is in place to ensure the continued expansion of renewable energy capacity. Onshore wind turbines are expected to play a key role in achieving these aims. However, despite high levels of public support for onshore wind development in principle, specific projects often experience local opposition. Traditionally this difference in general and specific attitudes has been attributed to NIMBYism (not in my back yard), but evidence is increasingly calling this assumption into question. This study used multiple regression analysis to identify what factors might predict attitudes towards mooted wind development in Sheffield, England. We report on the attitudes of two groups; one group (target) living close to four sites earmarked for development and an unaffected comparison group (comparison). We found little evidence of NIMBYism amongst members of the target group; instead, differences between general and specific attitudes appeared attributable to uncertainty regarding the proposals. The results are discussed with respect to literature highlighting the importance of early, continued and responsive community involvement in combating local opposition and facilitating the deployment of onshore wind turbines. (C) 2009 Elsevier Ltd. All rights reserved

Co-located wind and wave energy farms: Uniformly distributed arrays

publisher: Elsevier articletitle: Co-located wind and wave energy farms: Uniformly distributed arrays journaltitle: Energy articlelink: http://dx.doi.org/10.1016/j.energy.2016.07.069 content_type: article copyright: © 2016 Elsevier Ltd. All rights reserved

Offshore Wind: The Potential to Contribute a Quarter of UK Electricity by 2024

The paper's main conclusion is that by 2024 a major offshore wind programme could be supplying 26% of UK electricity and saving c. 6% of UK carbon emissions. In comparison, by 2024 an expanded nuclear programme of 10 PWRs could supply 23% of current demand and displace c. 5% of carbon emissions. The cost of electricity from offshore wind is likely to be no more than that from nuclear power, including the additional costs of reserve power to cope with the variability of wind. An expanded UK offshore wind industry could support c. 50000 jobs

Renewable Energy Innovation and Governance in Wales: A Regional Innovation System Approach

This paper draws on research commissioned to investigate the regional innovation system of Wales on green innovation, focusing on the renewable energy sub-sectors of wind, solar and biomass. It shows how many innovative firms operate within regional networks, cooperating and interacting not only with other firms such as suppliers, customers and competitors, but also with research and technology resource organizations, innovation support agencies, venture capital funds, and local and regional government bodies. The paper argues that within the region there is the presence of various renewable energy production platforms, usually based on core technologies (wind, solar, biomass, marine, etc.) at different levels of development. They involve a mix of established energy utilities and new sustainable energy businesses that are positioned at different levels within the renewable energy supply chain. The research shows that the regional government is playing an important role in supporting the renewable energy industry; nevertheless, more needs to be done to facilitate planning control, provide skills and create new demands for renewable energy that will further foster business growth and further strengthen the existing manufacturing base and innovation in Wales. The paper identifies some weaknesses in the Welsh energy innovation system, not least that energy is not a devolved responsibility and it argues that there is some scope for the Welsh Assembly Government to further investigate gaps within the green innovation supply chain and act on strengthening regional capabilities within the industry but also to support and investigate further opportunities for inward investment