ABSTRACT
This short paper introduces Energy in Schools, an interactive platform designed to improve energy efficiency in UK schools through a combination of environmental measurement and behavioural change. Uniquely, Energy in Schools is designed to empower all the stakeholders within a school, including children, teachers and leadership groups to reduce their energy costs and carbon emissions. The paper reports on the motivation and design of the platform, a discussion on how interactive materials and educational activities were developed to raise awareness and understanding of energy and the climate emergency, how children led activities were used to instrument and analyses energy use via child friendly Internet of Things technologies. Finally, an analysis of its success in encouraging behavioural change through the qualitative and quantitative evaluation of a live deployment across 20 schools is presented. Overall, it was observed that encouraging multiple stakeholders to work together interactively can decrease energy consumption in the majority of schools by over 5%.
- Aslan, U., , Phenomenological programming: a novel approach to designing domain specific programming environments for science learning, in Proceedings of the Interaction Design and Children Conference. 2020, Association for Computing Machinery: London, United Kingdom. p. 299–310.Google ScholarDigital Library
- BEIS. Energy consumption in the UK - GOV UK, 2021. 27/01/2022]; Available from: https://www.gov.uk/government/statistics/energy-consumption-in-the-uk-2020.Google Scholar
- British Educational Suppliers Association. Key UK education statistics. 2022 14/01/2022]; Available from: https://www.besa.org.uk/key-uk-education-statistics/.Google Scholar
- Department for Business, E.I.S. Non-domestic Smart Energy Management Innovation Competition. Available from: https://www.gov.uk/government/publications/non-domestic-smart-energy-management-innovation-competition.Google Scholar
- Department of Education. Education Secretary puts climate change at the heart of education. 2021; Available from: https://www.gov.uk/government/news/education-secretary-puts-climate-change-at-the-heart-of-education–2.Google Scholar
- Energy Sparks. Energy Sparks. 14/01/2022]; Available from: https://energysparks.uk/.Google Scholar
- Health and Social Care Board. Frequently Asked Questions about GPs. 16/01/2022]; Available from: http://www.hscboard.hscni.net/our-work/integrated-care/gps/faqs/.Google Scholar
- Hodges, S., , Physical Computing: A Key Element of Modern Computer Science Education. Computer, 2020. 53(4): p. 20-30.Google Scholar
- Hong, S.M., , Characterising the English school stock using a unified national on-site survey and energy database. Building Services Engineering Research and Technology, 2021. 43(1): p. 89-112.Google Scholar
- Knowles, B., What children's imagined uses of the BBC micro:bit tells us about designing for their IoT privacy, security and safety. in Living in the Internet of Things: Cybersecurity of the IoT - 2018. 2018.Google ScholarCross Ref
- Kodali, R.K., K.P. Nimmanapalli, and S. Jyothirmay. Micro:Bit Based IRRIGATION MONITORING. in 2018 4th International Conference on Computing Communication and Automation (ICCCA). 2018.Google Scholar
- Li, C.J. and M.C. Monroe, Exploring the essential psychological factors in fostering hope concerning climate change. Environmental Education Research, 2019. 25(6): p. 936-954.Google Scholar
- Michie, S., M.M. van Stralen, and R. West, The behaviour change wheel: A new method for characterising and designing behaviour change interventions. Implementation Science, 2011. 6(1): p. 42.Google Scholar
- Micro:bit Educational Foundation, micro:bits around the world. 2020.Google Scholar
- Monroe, M.C., , Identifying effective climate change education strategies: a systematic review of the research. Environmental Education Research, 2019. 25(6): p. 791-812.Google Scholar
- Mylonas, G., , Enabling Sustainability and Energy Awareness in Schools Based on IoT and Real-World Data. IEEE Pervasive Computing, 2018. 17(4): p. 53-63.Google Scholar
- NHS Prescription Services. GP and GP practice related data. 16/01/2022]; Available from: https://digital.nhs.uk/services/organisation-data-service/file-downloads/gp-and-gp-practice-related-data.Google Scholar
- Plutzer, E., , Climate confusion among U.S. teachers. Science, 2016. 351(6274): p. 664-665.Google Scholar
- Public Health Scotland. General Practice - GP workforce and practice list sizes. 16/1/2022]; Available from: https://publichealthscotland.scot/publications/general-practice-gp-workforce-and-practice-list-sizes/general-practice-gp-workforce-and-practice-list-sizes-2010-2020/.Google Scholar
- Shahin, Y., Technological acceptance of the Internet of things (IOT) In Egyptian schools. International Journal of Instructional Technology and Educational Studies, 2020. 1(1): p. 6-10.Google Scholar
- Teiermayer, A., Improving students’ skills in physics and computer science using BBC Micro:bit. Physics Education, 2019. 54(6): p. 065021.Google Scholar
- United Nations. Take Action for the Sustainable Development Goals. 14/12/2021]; Available from: https://www.un.org/sustainabledevelopment/sustainable-development-goals/.Google Scholar
- Videnobvik, M., The BBC Micro:bit in the International Classroom: Learning Experiences and First Impressions. in 2018 17th International Conference on Information Technology Based Higher Education and Training (ITHET). 2018.Google Scholar
- Welsh Government. General practice workforce: 31 December 2020 to 30 June 2021. 16/01/2022]; Available from: https://gov.wales/general-practice-workforce-31-december-2020-30-june-2021.Google Scholar
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