Use of Sustainable Energy Systems in Educational Institutions
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Educational institutions like other public and private organizations should try to eliminate their carbon footprint for the achievement of the ambitious 2050 target of net-zero carbon emissions. Several mature, reliable and cost-effective sustainable energy technologies can be used in these institutions replacing the use of fossil fuels and reducing their carbon emissions. Solar energy, wind energy and biomass can be used for heat and electricity generation replacing the use of oil, gas and grid electricity. Additionally, various low-carbon emission technologies including heat pumps, co-generation systems, fuel cells, district heating systems and power storage technologies can be also used in them. The combined use of these technologies in schools, colleges and universities can replace the current use of conventional energy sources reducing or completely eliminating their carbon emissions. The abovementioned benign energy technologies are already used commercially in several sectors proving their reliability and cost-effectiveness. It has been indicated that a plethora of green energy technologies can be used in educational institutions eliminating their carbon footprint achieving the desired global 2050 target of net-zero carbon emissions. Our results could be useful to policy makers and to the authorities of schools, colleges and universities who are willing to promote their environmental sustainability, achieving economic benefits and offering valuable educational opportunities to students.
Castleberry, B. & Scott Greene, J. (2017). Impact of wind power development on Oklahoma’s public schools, Energy, Sustainability and Society, 7(34). DOI 10.1186/s13705-017-0138-8
Lottu, O.A., Ehiaguina, V.E., Ayodeji, S.A., Ndiwe, T.C., & Izuka, U. (2023). Global review of solar power in education: initiatives, challenges and benefits, Engineering Science & Technology Journal, 4(4), 209-221. http://dx.doi.org/10.51594/estj.v4i4.583
Kandt, A. (2011). Solar for schools: a case study in identifying and implementing solar photovoltaic projects in three California school districts, In ASEC Solar 2011, Raleigh, North Karolina, USA. Retrieved from: https://my.solarroadmap.com/userfiles/Case-Study,-Solar-for-Schools.pdf
Alsamamra, H. & Shoqeir, J. (2021). Solar photovoltaic systems on public schools’ buildings: a case study in Palestine, American Journal of Electrical Power and Energy Systems, 10(1), 1-5. doi: 10.11648/j.epes.20211001.11
Lazaroiu, A.C., Panait, C., Seritan, G., Popescu, C.L. & Rascia, M. (2024). Miximizing renewable energy and storage integration in university campuses, Renewable Energy, 230(C), 120871. DOI: 10.1016/j.renene.2024.120871
Almasri, R.A., Abu-Hamdeh, N.H. & Al-Tamimi, N. (2024). A state-of-the-art review of energy efficient and renewable energy systems in higher education facilities, Frontiers in Energy Research, 11, 1344216. doi: 10.3389/fenrg.2023.1344216
Roumpakias, E., Zogou, O. & Stamatellou, A.-M. (2024). Optimization of Electrical and Thermal Storage in a High School Building in Central Greece, Energies, 17, 1966. https://doi.org/10.3390/en17081966
Dobre, C., Costin, M. & Constantin, M. (2024). A Review of Available Solutions for Implementation of Small–Medium Combined Heat and Power (CHP) Systems, Inventions, 9, 82. https://doi.org/ 10.3390/inventions9040082
Hiltunen, P., Volkona, A., Latosov, E., Lepiksaar, K. & Syri, S. (2022). Transition towards university campus carbon neutrality by connecting to city district heating network, Energy Reports, 8, 9493-9505. https://doi.org/10.1016/j.egyr.2022.07.055
New Brownlee center heat pump’s power University’s net zero drive, 2 September, 2024, University of Leeds. Retrieved from: https://estates.leeds.ac.uk/news/new-brownlee-centre-heat-pumps-power-universitys-net-zero-drive/
Odell, P., Rauland, V. & Murcia, K. (2020). Schools: An Untapped Opportunity for a Carbon Neutral Future, Sustainability, 13, 46.
https://dx.doi.org/10.3390/su13010 046
Godoy-Shimizu, D., Hong, S. M., Korolija, I., Schwartz, Y., Mavrogianni, A., & Mumovic, D. (2022). Pathways to improving the school stock of England towards net zero, Buildings and Cities, 3(1), 939–963. DOI: https://doi.org/10.5334/bc.264
Hu, M. (2019). Cost-effective options for the renovation of an existing educational building towards the nearly-zero energy goal - life cycle cost analysis, Sustainability, 11(8), 2444.
http://dx.doi.org/10.3390/su11082444
Attia, S., Shadmanfar, N. & Ricci, F. (2020). Developing two benchmark models for nearly-zero energy schools, Applied Energy, 263, 114614. https://doi.org/10.1016/j.apenergy.2020.114614
Hakim, H., Archambault, R., Kibert, C.J., Fard, M.M., Fenner, A. & Razkenarui, M. (2019). From green to net-zero energy: a study of school buildings in Canada, Buildings, Cities and Performances, 114-119. Retrieved from:
https://prometheus.library.iit.edu/index.php/journal/article/view/90
Adkins, E., Chen, J., Winiecki, J., Koinei, P. & Modi, V. (2010). Testing institutional biomass cookstoves in rural Kenyan schools for the millennium villages project, Energy for Sustainable Development, 14(3), 186-193. https://doi.org/10.1016/j.esd.2010.07.002
Baring-Gould, I. (2011). Wind for Schools: Fostering the human talent supply chain for a 20% wind energy future, NREL/PO-7A20-50817. Retrieved from:
https://www.nrel.gov/docs/fy11osti/50817.pdf
Desk research on heating systems for application in schools (2018). Research and Development Division, Department of Renewable Energy, Ministry of Economic Affairs, Bhutan. Retrieved from: https://www.moenr.gov.bt/wp-content/uploads/2018/07/Desk-Research-on-Various-Heating-System-for-Schools.pdf
Vourdoubas, J. (2016). Creation of zero CO2 emission school buildings due to energy use in Crete, Greece, Open Journal of Energy Efficiency, 5, 12-18. http://dx.doi.org/10.4236/ojee.2016.51002
Vourdoubas, J. (2019). Energy consumption and Carbon emissions in an Academic Institution in Greece: can it become carbon neutral? Studies in Engineering and Technology, 6(1), 2330-2046. https://doi.org/10.11114/set.v6i1.4013
Bilir, L. & Yildirim, N. (2017). Photovoltaic system assessment for a school building, International Journal of Hydrogen Energy, 42(28), 17856-17868. http://dx.doi.org/10.1016/j.ijhydene.2017.02.122
Hui, S.C.M. & Law, T.Y. (2016). Energy saving potential of green roofs in university buildings, in Joint Symposium 2016: Building a smarter city via latest technologies, 22 November 2016, Hong Kong. Retrieved from:
Mahmoodzadeh, M., Mukhopadhyaya, P. & Valeo, C. (2019). Effects of extensive green roofs on energy performance of school buildings in four North American climates, Water, 12(1), 6.
https://doi.org/10.3390/w12010006
Bernardo, H. & Oliveira, F. (2018). Estimation of energy saving potential in higher educational buildings supported be energy performance benchmarking: A case study, Environments, 5, 85. http://dx.doi.org/10.3390/environments5080085
Rey-Hernandez, J.M., Rey-Martinez, F.J., Yousif, C. & Krawczyk, D. (2023). Assessing the performance of a renewable energy district heating system to achieve nearly zero energy status in renovated energy campuses: a case study for Spain, Energy Conversion and Management, 292, 117439. https://doi.org/10.1016/j.enconman.2023.117439
Moliner, C., Marchelli, F. & Arato, E. (2020). Current status of energy production from solid biomass in north-West Italy, Energies, 13, 4390. https://doi.org/10.3390/en13174390
Rospi, G., Cardinale, N., Intini, F. & Cardinale, T. (2015). Analysis of energy consumption of different typologies of school buildings in the city of Matera (Southern Italy), Energy Procedia, 82, 512-518. https://doi.org/10.1016/j.egypro.2015.11.863
Li, L., Tong, Z., Linhua, Z. & Hong Chang, S. (2017). Energy consumption investigation and data analysis for one university in Guangzhou, Procedia Engineering, 205, 2118-2125. https://doi.org/10.1016/j.proeng.2017.10.135
Kim, T., Kang, B., Kim, H., Park, C. & Hong, W-H. (2019). The study on the energy consumption of middle school facilities in Daegy, Korea, Energy Reports, 5, 993-1000.
https://doi.org/10.1016/j.egyr.2019.07.015%0A
How universities are tapping the heat beneath our feet to go green, February 23, 2024, Global Education News. Retrieved from: https://qs-gen.com/how-universities-are-tapping-the-heat-beneath-our-feet-to-go-green/
