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ACCESSIBLE SOLAR ENERGY TECHNOLOGY FOR DOMESTIC APPLICATIONS IN THE UK: EDGE SOLAR

Published online by Cambridge University Press:  19 June 2023

Alex Heaton ,
Kyungeun Sung  and
Patrick Isherwood
Alex Heaton
Affiliation:
HiB Ltd, UK;
Kyungeun Sung*
Affiliation:
De Montfort University, UK;
Patrick Isherwood
Affiliation:
Loughborough University, UK
*
Sung, Kyungeun, De Montfort University, United Kingdom, [email protected]

Abstract

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Renewable energy is increasingly used and promoted. In the UK, for example, large scale renewable energy farms have been used to supply electricity with great effect. Given the large number of homes, there is considerable impact to be made by small scale residential renewable energy systems. Despite solar panels being the most common form of residential renewable energy technology, only 4% of buildings in the UK support solar technology of any kind. For direct electricity generation, silicon-based photovoltaic (PV) arrays are the most utilised, and when used in a residential setting, they are typically mounted on the sloped roofs. This is where the problem lies. The technology comes with a high cost, and there is further financial burden of installation and maintenance, making solar energy inaccessible for many UK homeowners. This paper presents a research and design innovation project to make PV technology more accessible in the UK. Edge Solar, the innovative, affordable, new PV system concept for UK homes may become a promising solution to significantly improve the accessibility to the PV technology and renewable energy at the household level in the UK and beyond with further development and commercialisation.

Keywords

Conceptual designDesign engineeringInnovationPhotovoltaic technologyRenewable energy
Type
Article
Information
Proceedings of the Design Society , Volume 3: ICED23 , July 2023 , pp. 445 - 454
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - ND
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use or in order to create a derivative work.
Copyright
The Author(s), 2023. Published by Cambridge University Press

References

Ahmad, L., Khordehgah, N., Malinauskaite, J. and Jouhara, H. (2020). “Recent advances and applications of solar photovoltaics and thermal technologies”. Energy, 207, 118254.CrossRefGoogle Scholar
Behar, O., Khellaf, A. and Mohammedi, K., (2013). ”A review of studies on central receiver solar thermal power plants”, Renewable and Sustainable Energy Reviews, 23, 1239.CrossRefGoogle Scholar
BEIS. (2011). UK Renewable Energy Roadmap. [online] Department for Business, Energy and Industrial Strategy. Available at: (https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/48128/2167-uk-renewable-energy-roadmap.pdf) (17/11/2022).Google Scholar
BEIS. (2021). UK ENERGY IN BRIEF 2021. https://www.gov.uk/government/statistics/uk-energy-in-brief-2021Google Scholar
Bolton, P. (2018). Energy imports and exports. [online] House of Commons Library. Available at: (chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://researchbriefings.files.parliament.uk/documents/SN04046/SN04046.pdf) (17/11/2022).Google Scholar
Bruce, J. (2022). Are Solar Panels Worth It In The UK? Solar PV In UK. [online] Solar Empower. Available at: (https://www.solarempower.com/blog/are-solar-panels-worth-it-in-the-uk-solar-pv-in-uk/) (17/11/2022).Google Scholar
DeegeSolar. (2022). The UK's 5 biggest solar farms. [online] Deege Solar. Available at: (https://www.deegesolar.co.uk/uks_biggest_solar_farms/) (17/11/2022).Google Scholar
EIA. (2021). Solar explained Solar thermal collectors. [online] USA Energy Information Administration. Available at: (https://www.eia.gov/energyexplained/solar/solar-thermal-collectors.php) (17/11/2022).Google Scholar
HIES. (2022). Home Wind Turbines. [online] HIES. Available at: (https://www.hiesscheme.org.uk/renewable-energy/home-wind-turbines/) (17/11/2022).Google Scholar
Inderberg, T.H.J., Tews, K. and Turner, B. (2018). “Is there a prosumer pathway? Exploring household solar energy development in Germany, Norway, and the United Kingdom”, Energy Research & Social Science, 42, 258269.CrossRefGoogle Scholar
Kainiemi, L., Eloneva, S. and Levänen, J. (2019). “Transition towards a decentralised energy system: analysing prospects for innovation facilitation and regime destabilisation in Finland”, Technology Analysis & Strategic Management, 31(9), 10031015.CrossRefGoogle Scholar
Kemausuor, F., Sedzro, M.D. and Osei, I. (2018). “Decentralised energy systems in Africa: coordination and integration of off-grid and grid power systems—review of planning tools to identify renewable energy deployment options for rural electrification in Africa”, Current Sustainable/Renewable Energy Reports, 5(4), 214223.CrossRefGoogle Scholar
Liu, M., He, Y., Baumann, Z., Zhang, Q., Jing, X., Mason, R.P., Xie, H., Shen, H., Chen, L. and Zhang, W. (2020). “The impact of the Three Gorges Dam on the fate of metal contaminants across the river–ocean continuum”, Water Research, 185, 116295.CrossRefGoogle ScholarPubMed
Moner-Girona, M., Bender, A., Becker, W., Bódis, K., Szabó, S., Kararach, A.G. and Anadon, L.D. (2021). “A multidimensional high-resolution assessment approach to boost decentralised energy investments in Sub-Saharan Africa”, Renewable and Sustainable Energy Reviews, 148, 111282.CrossRefGoogle Scholar
ONS. (2021). Wind energy in the UK: June 2021. [online] Office for National Statistics. Available at: (https://www.ons.gov.uk/economy/environmentalaccounts/articles/windenergyintheuk/june2021) (17/11/2022).Google Scholar
Solar, Ornate. (2022). The 5 Largest Solar Power Plants in the World (2022). [online] Ornate Solar. Available at: https://ornatesolar.com/blog/the-5-largest-solar-power-plants-in-the-world#:∼:text=Location%3A%20Rajasthan%2C%20India&text=Bhadla%20Solar%20Park%20is%20the,of%20over%201.3%20billion%20dollars. (29/11/2022).Google Scholar
Ørsted. (2022). Hornsea Project One: About the project. [online] Ørsted. Available at: (https://hornseaprojectone.co.uk/about-the-project#project-timeline-2020) (17/11/2022).Google Scholar
OVOenergy. (2021). A guide to domestic wind turbines and how they can power your home. [online] OVO energy. Available at: (https://www.ovoenergy.com/guides/energy-guides/home-wind-turbines-pros-cons-and-how-much-they-cost) (17/11/2022).Google Scholar
Peacock, A.D., Jenkins, D., Ahadzi, M., Berry, A. and Turan, S. (2008). “Micro wind turbines in the UK domestic sector”, Energy and Buildings, 40(7), 13241333.CrossRefGoogle Scholar
ProjectSolarUK. (2020). How much electricity does a solar panel produce? [online] Project Solar UK. Available at: (https://www.projectsolaruk.com/blog/how-much-electricity-does-a-solar-panel-produce/) (17/11/2022).Google Scholar
Richardson, I., Thomson, M., Infield, D. and Clifford, C. (2010). “Domestic electricity use: A high-resolution energy demand model”, Energy and Buildings, 42(10), 18781887.CrossRefGoogle Scholar
Robson, C. (2011). Real world research: A resource for social scientists and practitioner-researchers (3rd ed.). John Wiley & Sons, Chichester.Google Scholar
SolarEnergyUK. (2022). Empowering the UK solar transformation. [online] Solar Energy UK. Available at: (https://solarenergyuk.org/) (17/11/2022).Google Scholar
Thymianos, K., Salahi, S. and Brown, W.E. Jr. (2021). Operating Solar Projects in Nevada, 2021. [online] The Data Hub at The Lincy Institute & Brookings Mountain West. Available at: (https://digitalscholarship.unlv.edu/bmw_lincy_env/5/) (17/11/2022).Google Scholar
Vieira, R.G., de Araújo, F.M., Dhimish, M. and Guerra, M.I. (2020). “A comprehensive review on bypass diode application on photovoltaic modules”, Energies, 13(10), 2472.CrossRefGoogle Scholar