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Modelling energy demand from higher education institutions: A case study of the UK

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  • Wadud, Zia
  • Royston, Sarah
  • Selby, Jan

Abstract

Among the various sustainability goals of higher education institutions (HEIs), reducing energy use and carbon emissions are particularly important. However, not much is known about energy demand from the higher education sector – especially since there is a lack of robust models of energy demand in this sector. This paper, the first to utilize a panel dataset and advanced panel econometric techniques in order to model energy use in higher education, investigates variations in energy use between HEIs (cross-sectional analysis), and also changes in energy use over time (temporal analysis), using the UK as a case study. We argue that panel dataset and methods are more useful for understanding growth (and reduction) in energy use within the HE sector than the methods used within previous cross-sectional studies. Results show that, over time and also across the sector, energy consumption in the HEIs increases with increases in income and floor space, but at a slower rate. As HEIs grow overall (in terms of income, floor space, student and staff number) over time, they become more 'energy efficient' (using less energy per unit of area, population or income), indicating economies of scale in the temporal dimension. Results also show that after controlling for income and size, research intensive HEIs consume more energy. We also find a small but statistically significant effect of energy prices on energy consumption, as might be expected. Simulation using the model parameters for an example scenario suggests that energy consumption will continue to increase unless there is a significant change in the policies driving income growth and spatial expansion in the HE sector in the UK.

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  • Wadud, Zia & Royston, Sarah & Selby, Jan, 2019. "Modelling energy demand from higher education institutions: A case study of the UK," Applied Energy, Elsevier, vol. 233, pages 816-826.
    • Handle: RePEc:eee:appene:v:233-234:y:2019:i::p:816-826
    DOI: 10.1016/j.apenergy.2018.09.203
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    References listed on IDEAS

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    2. Magdalena Iordache Platis & Joanna Romanowicz, 2020. "Integrating Energy Saving Awareness into Student Engagement-Based Teaching and Learning Process," Sustainability, MDPI, vol. 12(22), pages 1-18, November.
    3. Angelo Massafra & Carlo Costantino & Giorgia Predari & Riccardo Gulli, 2023. "Building Information Modeling and Building Performance Simulation-Based Decision Support Systems for Improved Built Heritage Operation," Sustainability, MDPI, vol. 15(14), pages 1-31, July.
    4. Kirstie O’Neill & Charlotte Sinden, 2021. "Universities, Sustainability, and Neoliberalism: Contradictions of the Climate Emergency Declarations," Politics and Governance, Cogitatio Press, vol. 9(2), pages 29-40.
    5. Amila Omazic & Bernd Markus Zunk, 2021. "Semi-Systematic Literature Review on Sustainability and Sustainable Development in Higher Education Institutions," Sustainability, MDPI, vol. 13(14), pages 1-45, July.
    6. Joaquín Fuentes-del-Burgo & Elena Navarro-Astor & Nuno M. M. Ramos & João Poças Martins, 2021. "Exploring the Critical Barriers to the Implementation of Renewable Technologies in Existing University Buildings," Sustainability, MDPI, vol. 13(22), pages 1-24, November.
    7. Eskander, Shaikh M.S.U. & Nitschke, Jakob, 2021. "Energy use and CO2 emissions in the UK universities: an extended Kaya identity analysis," LSE Research Online Documents on Economics 110764, London School of Economics and Political Science, LSE Library.
    8. Mahalik , Mantu Kumar & Le, Thai-Ha & Le, Ha-Chi & Subhadra , Sushree, 2022. "Does Higher Education Level Matter for The Reduction of Non-Renewable Energy Demand? Insights from the World’s Largest Greenhouse Gas Emitters," Journal of Economic Development, The Economic Research Institute, Chung-Ang University, vol. 47(3), pages 29-56, September.

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