Aalborg University (2022). AAU researchers developing energy-efficient software. Aalborg University. Available at: https://www.aau.dk/aau-researchers-developing-energy-efficient-software-n13234 [accessed July 2024].
Aarhusvand (2024). Marselisborg WWTP. Aarhusvand. Available at: https://www.aarhusvand.com/showcases/energy-optimization/marselisborg-wwtp/ [accessed August 2024].
acciona (2024). Luz en Casa (“Light at home”) Ngäbe-Buglé Programme, Panamá. Available at: https://www.acciona.org/panama/luz-en-casa-ngabe-bugle/?_adin=11276806953 [accessed June 17 2024].
ADCA (2024). Data centres in Africa: Focus report. Abidjan: Africa Data Centres Association (ADCA) and Oxford Business Group. Available at: https://africadca.org/en/data-centres-in-africa-focus-report-2024.
Aghajari, S. and C.-C. Chen (2023). The effectiveness of lighting design for improved patient care considering energy conservation. Engineering Proceedings, 55(1), 91.
Agramelal, F., M. Sadik, Y. Moubarak and S. Abouzahir (2023). Smart street light control: A review on methods, innovations, and extended applications. Energies, 16(21), 7415.
AgriTech Tomorrow (2023). The problem-solving powers of variable speed drives. Available at: https://www.agritechtomorrow.com/article/2023/09/the-problem-solving-powers-of-variable-speed-drives/14828 [accessed June 25 2024].
Ahmad, F., H. Ibrahim, A. Ilinca, S. S. Karganroudi and M. Issa (2022). Energy recovering using regenerative braking in diesel–electric passenger trains: Economical and technical analysis of fuel savings and GHG emission reductions. Energies, 15(1).
Aktas, A. and Y. Kircicek (2021). Solar hybrid systems: Design and application, Academic Press.
Alavi, H. R. (2011). Trusting trade and the private sector for food security in Southeast Asia, World Bank Publications.
Alessandrini, A., R. Alfonsi, P. D. Site and D. Stam (2014). Users’ preferences towards automated road public transport: Results from European surveys. Transportation Research Procedia, 3, 139-44.
Ali, M., J. C. Vasquez, J. M. Guerrero, Y. Guan, S. Golestan, J. De La Cruz, M. A. Koondhar and B. Khan (2023). A Comparison of grid-connected local hospital loads with typical backup systems and renewable energy system based ad hoc microgrids for enhancing the resilience of the system. Energies, 16(4), 1918.
Amankwaa, G., R. Heeks and A. Browne (2021). Digital innovations and water services in cities of the Global South: A systematic literature review. Water Alternatives, 14, 619-44.
Ameli, N. and N. Brandt (2015). What impedes household investment in energy efficiency and renewable energy. International Review of Environmental and Resource Economics, 8, 101-38.
ASHRAE (2021). Emergence and expansion of liquid cooling in mainstream data centers. White Paper, American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE). Available at: https://www.ashrae.org/file%20library/technical%20resources/bookstore/emergence-and-expansion-of-liquid-cooling-in-mainstream-data-centers_wp.pdf.
ATMOsphere (2022). Natural refrigerants: State of the industry. ATMOsphere. Available at: https://atmosphere.cool/marketreport-2022/.
Atteridge, A. and G. Savvidou (2019). Development aid for energy in Small Island Developing States. Energy, Sustainability and Society, 9(1), 10.
Atzberger, M., B. Chini, S. Sauerwein and L. Stähle (2015). Energieeffizienz im einzelhandel: Analyse des gebäudebestands und seiner energetischen situation. Deutsche Energi-Agentur (DENA). Available at: https://www.ehi.org/produkt/studie-energieeffizienz-im-einzelhandel/.
Aydos, M., P. Toledano, M. D. Brauch, L. Mehranvar, T. Iliopoulos and S. Sasmal (2022). Scaling investment in renewable energy generation to achieve Sustainable Development Goals 7 (Affordable and Clean Energy) and 13 (Climate Action) and the Paris Agreement: Roadblocks and drivers. New York: Columbia Center on Sustainable Investment (CCSI). Available at: https://ccsi.columbia.edu/content/renewable-energy-investment-roadblocks-drivers.
Babayomi, O. O., B. Olubayo, I. H. Denwigwe, T. E. Somefun, O. S. Adedoja, C. T. Somefun, K. Olukayode and A. Attah (2023). A review of renewable off-grid mini-grids in Sub-Saharan Africa. Frontiers in Energy Research, 10, 1089025.
Barwińska-Małajowicz, A., R. Pyrek, K. Szczotka, J. Szymiczek and T. Piecuch (2023). Improving the energy efficiency of public utility buildings in Poland through thermomodernization and renewable energy sources—A case study. Energies, 16(10), 4021.
Bauer, J. M., S. C. Aarestrup, P. G. Hansen and L. A. Reisch (2022). Nudging more sustainable grocery purchases: Behavioural innovations in a supermarket setting. Technological Forecasting and Social Change, 179, 121605.
Bergner, J., R. Hoelger and B. Praetorius (2022). Der Markt für Steckersolargeräte 2022. Berlin: Hochschule für Technik und Wirtschaft HTW Berlin. Available at: https://solar.htw-berlin.de/wp-content/uploads/BERGNER-2022-Marktstudie-Steckersolar.pdf.
Biochar International (2024). Biochar production and by-products. Available at: https://biochar.international/the-biochar-opportunity/biochar-production-and-by-products/#:~:text=Biochar%20is%20produced%20by%20heating,be%20collected%20from%20modern%20pyrolysers [accessed May 25 2024].
Bisaga, I., K. Campbell, R. Bellanca, M. Kleijn and L. S. To (2022). Clean and modern energy for cooking: A path to food security and sustainable development.
BloombergNEF (2022). Scaling-up renewable energy in Africa: a Net Zero Pathfinders report. BloombergNEF (New Energy Finance). Available at: https://assets.bbhub.io/professional/sites/24/BNEF-Scaling-Up-Renewable-Energy-in-Africa-A-NetZero-Pathfinders-report_FINAL.pdf.
Bohra, V., K. U. Ahamad, A. Kela, G. Vaghela, A. Sharma and B. J. Deka (2022). Chapter 2 - Energy and resources recovery from wastewater treatment systems. In An, A., V. Tyagi, M. Kumar and Z. Cetecioglu, eds., Clean Energy and Resource Recovery, Elsevier, 17-36.
Bowen, C. (2023). Undersea data center proves its worth. China Daily. Available at: https://www.chinadaily.com.cn/a/202311/30/WS6567e70aa31090682a5f0b45.html [accessed July 2024].
Boyes, D. H., D. M. Evans, R. Fox, M. S. Parsons and M. J. O. Pocock (2021). Street lighting has detrimental impacts on local insect populations. Science Advances, 7(35), eabi8322.
BP (2022). BP statistical review of world energy. British Petrolum. Available at: https://www.bp.com/content/dam/bp/business-sites/en/global/corporate/pdfs/energy-economics/statistical-review/bp-stats-review-2022-full-report.pdf.
Brandon, A., C. M. Clapp, J. A. List, R. D. Metcalfe and M. Price (2022). The human perils of scaling smart technologies: Evidence from field experiments. National Bureau of Economic Research Working Paper Series.
Calma, J. (2022). Can hydrogen fuel cells power Microsoft data centers? The Verge. Available at: https://www.theverge.com/2022/7/28/23281394/microsoft-data-centers-hydrogen-fuel-cells [accessed July 2024].
Carroll, S., I. Garba, O. Figueroa-Rodríguez, J. Holbrook, R. Lovett, S. Materechera, M. Parsons, K. Raseroka, D. Rodriguez-Lonebear and R. Rowe (2020). The CARE principles for indigenous data governance. Data science journal, 19.
Casey, T. (2024). President Biden enlists heat pumps for national defense. Cleantechnica. Available at: https://cleantechnica.com/2024/08/07/president-biden-enlists-heat-pumps-for-national-defense/ [accessed August 2024].
Cassol, G. S., C. Shang, A. K. An, N. K. Khanzada, F. Ciucci, A. Manzotti, P. Westerhoff, Y. Song and L. Ling (2024). Ultra-fast green hydrogen production from municipal wastewater by an integrated forward osmosis-alkaline water electrolysis system. Nature Communications, 15(1), 2617.
Cavalcanti, R. N., C. F. Balthazar, L. P. Margalho, M. Q. Freitas, A. S. Sant’Ana and A. G. Cruz (2023). Pulsed electric field-based technology for microbial inactivation in milk and dairy products. Current Opinion in Food Science, 101087.
CAVForth (2024). Welcome to CAVForth. Available at: https://www.cavforth.com/ [accessed May 2024].
CCAC (2023a). Clean refrigeration technology rapidly increasing in supermarkets around the world. Climate & Clean Air Coalition (CCAC). Available at: https://www.ccacoalition.org/news/clean-refrigeration-technology-rapidly-increasing-supermarkets-around-world [accessed April 2024].
CCAC (2023b). Household energy hub. Climate & Clean Air Coalition (CCAC). Available at: https://www.ccacoalition.org/hubs/household-energy-hub [accessed May 10 2024].
CCAC (2023c). Household Energy Solutions. Available at: https://www.ccacoalition.org/content/household-energy-solutions [accessed May 9 2024].
CCSA (2024). Democratizing solar energy. Coalition for Community Solar Access. Available at: https://communitysolaraccess.org/ [accessed August 9 2024].
CEEW (2020). Awareness and adoption of energy efficiency in Indian homes: Insights from the India residential energy survey (IRES) 2020. New Delhi: The Council on Energy, Environment and Water (CEEW). Available at: https://www.ceew.in/publications/awareness-and-adoption-energy-efficiency-indian-homes.
Chen, G., O. Diagana and S. Pimenta (2023). Five reasons to get excited about the Bus Rapid Transit in Dakar, Senegal. World Bank. Available at: https://blogs.worldbank.org/en/voices/five-reasons-get-excited-about-bus-rapid-transit-dakar-senegal [accessed May 2024].
Chen, H., Y. Xu, C. Liu, F. He and S. Hu (2022). Storing energy in China—An overview. Storing energy, 771-91.
Chen, X., M. Despeisse and B. Johansson (2020). Environmental sustainability of digitalization in manufacturing: A review. Sustainability, 12(24).
Chen, X. and W. Zhou (2023). Performance evaluation of aquavoltaics in China: Retrospect and prospect. Renewable and Sustainable Energy Reviews, 173, 113109.
Chen, Y., H. Zhang, Y. Yin, F. Zeng and Z. Cui (2022). Smart energy savings for aeration control in wastewater treatment. Energy Reports, 8, 1711-21.
CLASP (2021a). The benefits of permanent magnet motors. Efficiency for Access Coalition. Available at: https://efficiencyforaccess.org/wp-content/uploads/The-Benefits-of-Permanent-Magnet-Motors_Efficiency-for-Access.pdf.
CLASP (2021b). Synthesis report: solar appliance technology briefs. Efficiency for Access Coalition. Available at: https://efficiencyforaccess.org/wp-content/uploads/EforA_Solar-Appliance-Technology-Brief_SynthesisReport_August-2021.pdf.
CLASP (2023a). Tech trends in energy access: assessing the off-grid refrigerator market. Part of the Efficiency for Access Appliance Tech Trends Series. Available at: https://efficiencyforaccess.org/wp-content/uploads/Tech-Trends-in-Energy-Access-Assessing-the-Refrigerator-Market-Feb-2024-V2.pdf.
CLASP (2023b). Tech trends in energy access: assessing the solar water pump market. Part of the Efficiency for Access Appliance Tech Trends Series. Available at: https://efficiencyforaccess.org/wp-content/uploads/Tech-Trends-in-Energy-Access-Assessing-the-SWP-Market-Oct-2023-v2.pdf.
CLASP (2024). Tech trends in energy access: assessing the off-grid fan market. Efficiency for Access Appliance Tech Trends Series. Available at: https://efficiencyforaccess.org/wp-content/uploads/Tech-Trends-in-Energy-Access-Assessing-the-Off-Grid-Fan-Market_Feb-2024.pdf.
Clean Cooking Alliance (2023). Transforming the cookstoves and fuels market in Nepal. Available at: https://cleancooking.org/industry-development/nepal-project/ [accessed June 18 2024].
Clean Cooling Collaborative (2022). Trucking ahead in a heated world: Unpacking the impact of transport refrigeration units. Available at: https://www.cleancoolingcollaborative.org/blog/trucking-ahead-in-a-heated-world-unpacking-the-impact-of-transport-refrigeration-units/ [accessed July 19 2024].
Clean Technica (2024). Community solar is coming for your fossil fuels. Available at: https://cleantechnica.com/2024/08/08/community-solar-is-coming-for-your-fossil-fuels/ [accessed August 13 2024].
Coulomb, D. (2021). Environmental issues related to refrigeration technologies. International Journal of Air-Conditioning and Refrigeration, 29(02), 2130002.
CPI (2021). Global landscape of climate finance 2021. Climate Policy Initiative (CPI). Available at: https://www.climatepolicyinitiative.org/publication/global-landscape-of-climate-finance-2021/.
CPI (2022). Global landscape of climate finance: A decade of data. Climate Policy Initiative (CPI). Available at: https://www.climatepolicyinitiative.org/publication/global-landscape-of-climate-finance-a-decade-of-data/.
CPI (2023a). Global landscape of climate finance 2023. Climate Policy Initiative (CPI). Available at: https://www.climatepolicyinitiative.org/publication/global-landscape-of-climate-finance-2023/.
CPI (2023b). Landscape of climate finance for agrifood systems. Climate Policy Initiative (CPI). Available at: https://www.climatepolicyinitiative.org/wp-content/uploads/2023/07/Landscape-of-Climate-Finance-for-Agrifood-Systems.pdf.
Crippa, M., E. Solazzo, D. Guizzardi, F. Monforti-Ferrario, F. N. Tubiello and A. Leip (2021). Food systems are responsible for a third of global anthropogenic GHG emissions. Nature food, 2(3), 198-209.
Danfoss (2022). Danish supermarket cuts heating bill and CO₂ footprint with Danfoss Heat Recovery Unit (HRU). Available at: https://www.danfoss.com/en/service-and-support/case-stories/dcs/danfoss-heat-recovery-unit-hru/ [accessed April 2024].
Daniel, I., N. K. Ajami, A. Castelletti, D. Savic, R. A. Stewart and A. Cominola (2023). A survey of water utilities’ digital transformation: drivers, impacts, and enabling technologies. npj Clean Water, 6(1), 51.
das Nair, R., S. Chisoro and F. Ziba (2018). The implications for suppliers of the spread of supermarkets in southern Africa. Development Southern Africa, 35(3), 334–50.
De Haas, D., J. Foley and K. Barr (2008). Greenhouse gas inventories from WWTPs – the trade-off with nutrient removal. Proceedings of the Water Environment Federation, 2008. Proceedings of the Water Environment Federation, 2008.
Delgado, A., K. Keene and N. Wang (2021). Integrating health and energy efficiency in healthcare facilities. US Department of Energy. Available at: https://www.energy.gov/femp/articles/integrating-health-and-energy-efficiency-healthcare-facilities.
Dialogue Earth (2023). 'Solar-powered looms boost income and safety for India’s silk spinners'. Available at: https://dialogue.earth/en/energy/solar-powered-looms-boost-income-and-safety-for-indias-silk-weavers/ [accessed July 11, 2024].
Díaz-Valderrama, J. R., A. W. Njoroge, D. Macedo-Valdivia, N. Orihuela-Ordóñez, B. W. Smith, V. Casa-Coila, N. Ramírez-Calderón, J. Zanabria-Gálvez, C. Woloshuk and D. Baributsa (2020). Postharvest practices, challenges and opportunities for grain producers in Arequipa, Peru. PloS ONE, 15(11), e0240857.
DOE (2020). Adoption of light-emitting diodes in common lighting applications. Washington, DC: U.S. Department of Energy (DOE). Available at: https://www.energy.gov/eere/ssl/articles/2020-led-adoption-report.
DOE (2023). Medical imaging equipment energy efficiency. National Renewable Energy Laboratory (NREL). available at: https://www.nrel.gov/docs/fy23osti/86857.pdf.
Dong, Y., M. Coleman and S. Miller (2021). Greenhouse gas emissions from air conditioning and refrigeration service expansion in developing countries. Annual review of environment and resources, 46.
EC (2022). EU solar energy strategy. European Commission. Available at: https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=CELEX:52022DC0221 [accessed July 2024].
EEA (2019). Adaptation challenges and opportunities for the European energy system. Copenhagen,: European Environment Agency. Available at: https://www.eea.europa.eu/publications/adaptation-in-energy-system.
EEA (2023). Transport and environment report 2022. European Environment Agency (EEA). Available at: https://www.eea.europa.eu//publications/transport-and-environment-report-2022.
Elemental Water Makers (2024). Project: Mozambique (II). Elemental Water Makers. Available at: https://www.elementalwatermakers.com/projects/desalination-madagascar-1/ [accessed August 2024].
Energy Innovation Austria (2022). "Harvesting" solar waste heat in urban environments. Federal Ministry Republic of Austria. Available at: https://www.energy-innovation-austria.at/article/harvesting-solar-waste-heat-in-urban-environments/?lang=en [accessed May 2024].
Energy Institute (2024). 2024 Statistical review of world energy. London: Energy Institute. Available at: https://www.energyinst.org/statistical-review/resources-and-data-downloads.
Energy Star (2008). Facility type: supermarkets and grocery stores. Energy Star. Available at: https://www.energystar.gov/sites/default/files/buildings/tools/EPA_BUM_CH11_Supermarkets.pdf.
Energypedia (2024). Mirt stoves. Available at: https://energypedia.info/images/a/a0/GIZ_HERA_2012_Mirt_stove.pdf [accessed August 2024].
EPO and IEA (2021). Patents and the energy transition. European Patent Office (EPO), International Energy Agency (IEA). Available at: https://iea.blob.core.windows.net/assets/b327e6b8-9e5e-451d-b6f4-cbba6b1d90d8/Patents_and_the_energy_transition.pdf.
Eras-Almeida, A. A., M. Fernández, J. Eisman, J. G. Martín, E. Caamaño and M. A. Egido-Aguilera (2019). Lessons learned from rural electrification experiences with third generation solar home systems in latin America: Case studies in Peru, Mexico, and Bolivia. Sustainability, 11(24), 7139.
Ercan, T., N. C. Onat, N. Keya, O. Tatari, N. Eluru and M. Kucukvar (2022). Autonomous electric vehicles can reduce carbon emissions and air pollution in cities. Transportation Research Part D: Transport and Environment, 112, 103472.
ESMAP (2014). Planning energy efficient and livable cities: Mayoral guidance note #6. Knowledge Series 022/14, Energy Sector Management Assistance Program (ESMAP). Available at: http://esmapme.assyst-uc.com/node/55381.
ESMAP (2019). Mini grids for half a billion people: market outlook and handbook for decision makers, Washington, DC: Energy Sector Management Assistance Program (ESMAP); World Bank.
ESMAP (2020). The state of access to modern energy cooking services, Energy Sector Management Assistance Program (ESMAP); World Bank.
ESMAP (2022). Hydropower development facility. Energy Sector Management Assistance Program (ESMAP); World Bank. Available at: https://www.esmap.org/hydropower_development_facility [accessed 29 May 2024].
European Commission (2022). Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions: EU Solar Energy Strategy. Brussels: European Commission. Available at: https://eur-lex.europa.eu/legal-content/EN/TXT/HTML/?uri=CELEX:52022DC0221.
Eurostat (2023). Energy consumption in households. Eurostat. Available at: https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Energy_consumption_in_households#Energy_consumption_in_households_by_type_of_end-use [accessed March 2024].
FAO (2011). “Energy-smart” food for people and climate. Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://www.fao.org/4/i2454e/i2454e00.pdf.
FAO (2015). Climate change and food security: risks and responses. Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://openknowledge.fao.org/server/api/core/bitstreams/a4fd8ac5-4582-4a66-91b0-55abf642a400/content.
FAO (2019). The state of food and agriculture 2019. Moving forward on food loss and waste reduction., Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://openknowledge.fao.org/server/api/core/bitstreams/11f9288f-dc78-4171-8d02-92235b8d7dc7/content.
FAO (2021a). Greenhouse gas emissions from agrifood systems. Global, regional and country trends, 2000–2020. FAOSTAT analytical brief, Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://www.fao.org/3/cc2672en/cc2672en.pdf.
FAO (2021b). The state of food and agriculture 2021. Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://www.fao.org/3/CB4476EN/online/CB4476EN.html.
FAO (2022a). Crops and climate change impact briefs. Climate-smart agriculture for more sustainable, resilient, and equitable food systems., Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://www.fao.org/3/cb8030en/cb8030en.pdf.
FAO (2022b). The state of world fisheries and aquaculture 2022. Towards blue transformation. Rome: Food and Agriculture Organization of the United Nations (FAO). Available at: https://doi.org/10.4060/cc0461en.
FAO (2023). Towards a waste-free future. Food and Agriculture Organization of the United Nations (FAO). Available at: https://www.fao.org/europe/news/detail/towards-a-food-waste-free-future/en [accessed July 3 2024].
Flammini, A., X. Pan, F. N. Tubiello, S. Y. Qiu, L. Rocha Souza, R. Quadrelli, S. Bracco, P. Benoit and R. Sims (2021). Emissions of greenhouse gases from energy use in agriculture, forestry and fisheries: 1970–2019. Earth System Science Data Discussions, 2021, 1-26.
Forman, C., I. K. Muritala, R. Pardemann and B. Meyer (2016). Estimating the global waste heat potential. Renewable and Sustainable Energy Reviews, 57, 1568-79.
Franco, A. and G. Cillari (2021). Energy sustainability of food stores and supermarkets through the installation of PV integrated plants. Energies, 14(18), 5678.
Fraunhofer ISE (2021). Agrivoltaics for arid and semi-arid climatic zones: Technology transfer and lessons learned from Japan and Germany. Available at: https://www.isep.or.jp/en/wp-content/uploads/2021/05/Max_APV_presentation_English.pdf.
Fraunhofer ISE (2024). Agrovoltaics. Opportunities for agriculture and the energy transition. Fraunhofer Institute for Solar Energy Systems. Available at: https://www.ise.fraunhofer.de/en/publications/studies/agrivoltaics-opportunities-for-agriculture-and-the-energy-transition.html.
Fritschi, H., F. Tillenkamp, R. Löhrer and M. Brügger (2016). Efficiency increase in carbon dioxide refrigeration technology with parallel compression. International Journal of Low-Carbon Technologies, 12(2), 171–80.
Gagliardi, G., M. Lupia, G. Cario, F. Tedesco, F. Cicchello Gaccio, F. Lo Scudo and A. Casavola (2020). Advanced adaptive street lighting systems for smart cities. Smart Cities, 3(4), 1495-512.
Galanakis, C. M. and P. Oksen (2020). Innovative technologies tackling food loss. Global Challenges in Focus, Geneva: World Intellectual Property Organization (WIPO). Available at: https://www.wipo.int/publications/en/details.jsp?id=4532.
GGHH (2023). New case study | Shefaa Al-Orman Oncology Hospital energy reduction program. Global Green and Healthy Hospitals (GGHH). Available at: https://greenhospitals.org/news/new-case-study-shefaa-al-orman-oncology-hospital-energy-reduction-program [accessed August 2024].
Ghani, S., S. M. A. Gamaledin, M. M. Rashwan and M. A. Atieh (2018). Experimental investigation of double-pipe heat exchangers in air conditioning applications. Energy and Buildings, 158, 801-11.
Gimeno-Frontera, B., M. Mainar-Toledo, A. Sáez de Guinoa, D. Zambrana-Vasquez and I. Zabalza (2018). Sustainability of non-residential buildings and relevance of main environmental impact contributors' variability. A case study of food retail stores buildings. Renewable and Sustainable Energy Reviews, 94, 669–81.
Global Ag Tech Initiative (2024). The Critical Role of Insulation in Sustainable Agriculture Practices. Farm to Fork, Available at: https://www.globalagtechinitiative.com/farm-to-fork/the-critical-role-of-insulation-in-sustainable-agriculture-practices/ [accessed July 16 2024].
Goldbach, C., J. Sickmann, T. Pitz and T. Zimasa (2022). Towards autonomous public transportation: Attitudes and intentions of the local population. Transportation Research Interdisciplinary Perspectives, 13, 100504.
Google (2024). Google environmental report 2024. Mountain View, CA: Google. Available at: https://www.gstatic.com/gumdrop/sustainability/google-2024-environmental-report.pdf.
Grabowski, S., M. Marcotte and H. Ramaswamy (2003). Drying of fruits, vegetables, and spices. In: Handbook of postharvest technology: Cereals, fruits, vegetables, tea, and spices, A. Chakraverty, et al., Editors.
Green, F., O. Bois von Kursk, G. Muttitt and S. Pye (2024). No new fossil fuel projects: The norm we need. Science, 384(6699), 954-57.
Gunasekera, D., H. Parsons and M. Smith (2017). Post-harvest loss reduction in Asia-Pacific developing economies. Journal of Agribusiness in Developing and Emerging Economies, 7(3), 303-17.
Hamawand, I. (2023). Energy consumption in water/wastewater treatment industry—optimisation potentials. Energies, 16(5).
Hassen, S., G. Anandarajah and R. Seifemichael (2023). Behavioral and socio-economic determinants of urban households’ investment in energy efficient technologies: evidence from Ethiopia. Frontiers in Energy Research, 11.
Hedley, C., S. Bradbury, J. Ekanayake, I. Yule and S. Carrick (2010). Spatial irrigation scheduling for variable rate irrigation' in Proceedings of the New Zealand Grassland Association, 97-101.
Hermann, C., F. Dahlke, U. Focken and M. Trommsdorff (2022). Aquavoltaics: Dual use of natural and artificial water bodies for aquaculture and solar power generation. Solar Energy Advancements in Agriculture and Food Production Systems, Elsevier, 211-36.
Hesselink, L. X. W. and E. J. L. Chappin (2019). Adoption of energy efficient technologies by households – Barriers, policies and agent-based modelling studies. Renewable and Sustainable Energy Reviews, 99, 29–41.
Hoornweg, D., L. Sugar and C. L. T. Gomez (2020). Cities and greenhouse gas emissions: Moving forward. Urbanisation, 5(1), 43–62.
Howe, L. L. (2019). From supo to chimney dryer: A pilot project to reduce loss and improve drying of fruits and vegetables for women farmers in Dadeldhura, Nepal, University of California, Davis.
Hu, H., D. Vizzari, X. Zha and R. Roberts (2021). Solar pavements: A critical review. Renewable and Sustainable Energy Reviews, 152, 111712.
Huang, I. Y., L. Manning, K. L. James, V. Grigoriadis, A. Millington, V. Wood and S. Ward (2021). Food waste management: A review of retailers’ business practices and their implications for sustainable value. Journal of Cleaner Production, 285, 125484.
Humanitarian Grand Challenge (2020). Solar powered refrigeration for refugees in Kenya. Available at: https://humanitariangrandchallenge.org/innovator/solar-freeze/ [accessed August 7 2024].
Iberdrola (2022). Iberdrola starts up Spain's first smart agrovoltaic plant in Toledo. available at: https://www.iberdrola.com/press-room/news/detail/iberdrola-starts-up-spain-first-smart-agrovoltaic-plant-in-toledo.
IEA (2018a). The future of cooling: opportunities for energy-efficient air conditioning. Paris: International Energy Agency (IEA). Available at: https://iea.blob.core.windows.net/assets/0bb45525-277f-4c9c-8d0c-9c0cb5e7d525/The_Future_of_Cooling.pdf.
IEA (2018b). World Energy Outlook 2018. Paris: International Energy Agency (IEA). Available at: https://iea.blob.core.windows.net/assets/77ecf96c-5f4b-4d0d-9d93-d81b938217cb/World_Energy_Outlook_2018.pdf.
IEA (2020a). Introduction to the water-energy nexus. International Energy Agency (IEA). Available at: https://www.iea.org/articles/introduction-to-the-water-energy-nexus [accessed June 2024].
IEA (2020b). Power Systems in Transition. Available at: https://www.iea.org/reports/power-systems-in-transition.
IEA (2021). Net zero by 2050. A roadmap for the global energy sector. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/net-zero-by-2050.
IEA (2023a). Appliances and equipment. Tracking clean energy progress 2023, International Energy Agency (IEA). Available at: https://www.iea.org/energy-system/buildings/appliances-and-equipment [accessed March 2024].
IEA (2023b). Coal. International Energy Agency (IEA). Available at: https://www.iea.org/energy-system/fossil-fuels/coal [accessed July 2024].
IEA (2023c). Data centres and data transmission networks. International Energy Agency (IEA). Available at: https://www.iea.org/energy-system/buildings/data-centres-and-data-transmission-networks [accessed June 2024].
IEA (2023d). Energy efficiency 2023. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/energy-efficiency-2023.
IEA (2023e). Global EV outlook 2023. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/global-ev-outlook-2023.
IEA (2023f). Introduction to biogas and biomethane. Available at: https://www.iea.org/reports/outlook-for-biogas-and-biomethane-prospects-for-organic-growth/an-introduction-to-biogas-and-biomethane [accessed May 21 2024].
IEA (2023g). Lighting. International Energy Agency (IEA). Available at: https://www.iea.org/energy-system/buildings/lighting [accessed March 2024].
IEA (2023h). SDG7: Data and Projections. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/sdg7-data-and-projections.
IEA (2023i). The state of clean technology manufacturing: An energy technology perspectives special briefing. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/the-state-of-clean-technology-manufacturing-november-2023-update.
IEA (2023j). A vision for clean cooking access for all. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/a-vision-for-clean-cooking-access-for-all.
IEA (2023k). World energy investment 2023. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/world-energy-investment-2023.
IEA (2023l). World Energy Outlook 2023. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/world-energy-outlook-2023.
IEA (2023m). World Energy Outlook 2023. Paris, France: International Energy Agency (IEA). Available at: https://iea.blob.core.windows.net/assets/86ede39e-4436-42d7-ba2a-edf61467e070/WorldEnergyOutlook2023.pdf.
IEA (2024a). Batteries and secure energy transitions. Paris: International Energy Agency (IEA). Available at: https://www.iea.org\reports\batteries-and-secure-energy-transitions.
IEA (2024b). CO2 emissions in 2023. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/co2-emissions-in-2023.
IEA (2024c). Electricity 2024: Analysis and forecast to 2026. Paris: International Energy Agency (IEA). Available at: https://iea.blob.core.windows.net/assets/6b2fd954-2017-408e-bf08-952fdd62118a/Electricity2024-Analysisandforecastto2026.pdf.
IEA (2024d). Energy Efficiency Policy Toolkit 2024. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/energy-efficiency-policy-toolkit-2024.
IEA (2024e). Global EV Outlook 2024. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/global-ev-outlook-2024.
IEA (2024f). Renewables 2023: Analysis and forecasts to 2028. Paris: International Energy Agency (IEA). Available at: https://www.iea.org/reports/renewables-2023.
IEC (2024). Minigrids and Microgrids. Available at: https://www.iec.ch/energies/minigrids-microgrids.
IHA (2023). World hydropower outlook. London: International Hydropower Association (IHA). Available at: https://www.hydropower.org/publications/2023-world-hydropower-outlook.
IIIF (2020). The role of refrigeration in worldwide nutrition. 6th informatory note on refrigeration and food., Paris: International Institute of Refrigeration,. Available at: https://iifiir.org/en/fridoc/the-role-of-refrigeration-in-worldwide-nutrition-2020-142029.
International Resource Panel (2024). Global Resources Outlook 2024: Bend the trend - pathways to a liveable planet as resource use spikes. Nairobi: United Nations Environment Programme International Resource Panel (UNEP IPR). Available at: https://www.resourcepanel.org/reports/global-resources-outlook-2024.
IRENA (2018). Measurement and estimation of off-grid solar, hydro and biogas energy. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2018/Dec/IRENA_Statistics_Measuring_offgrid_energy_2018.pdf.
IRENA (2021). Renewable power generation costs in 2020. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2021/Jun/IRENA_Power_Generation_Costs_2020.pdf.
IRENA (2022). Powering agri-food value chains with geothermal heat: A guidebook for policy makers. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2022/Jun/IRENA_Geothermal_Agri-food_Value_Chain_2022.pdf.
IRENA (2023a). Innovation landscape for smart electrification: Decarbonising end-use sectors with renewable power. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Publications/2023/Jun/Innovation-landscape-for-smart-electrification.
IRENA (2023b). Renewable energy benefits: Leveraging local capacity for small-scale hydropower. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Publications/2023/Sep/Renewable-energy-benefits-Leveraging-local-capacity-for-small-scale-hydropower.
IRENA (2023c). Renewable energy for remote communities: A guidebook for off-grid projects. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://mc-cd8320d4-36a1-40ac-83cc-3389-cdn-endpoint.azureedge.net/-/media/Files/IRENA/Agency/Publication/2023/Nov/IRENA_Remote_Communities_2023.pdf?rev=d24fbdd155cd4c76aacb78761e26d2ed.
IRENA (2023d). Transitioning remote communities to renewables. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Digital-content/Digital-Story/2023/Dec/Transitioning-Remote-Communities-to-Renewables/detail.
IRENA (2023e). Water for hydrogen production. Abu Dhabi, United Arab Emirates: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Publications/2023/Dec/Water-for-hydrogen-production?trk=public_post_comment-text.
IRENA (2024a). Geopolitics of the energy transition: Energy security. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Digital-Report/Geopolitics-of-the-Energy-Transformation.
IRENA (2024b). The global atlas for renewable energy: A decade in the making. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Publications/2024/Apr/The-Global-Atlas-for-Renewable-Energy-A-decade-in-the-making.
IRENA (2024c). Hydropower. International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/Energy-Transition/Technology/Hydropower [accessed 29 May 2024].
IRENA and FAO (2021). Renewable energy for agri-food systems: Towards the Sustainable Development Goals and the Paris Agreement. Rome: International Renewable Energy Agency (IRENA); Food and Agriculture Organization of the United Nations (FAO). Available at: https://www.fao.org/3/cb7433en/cb7433en.pdf.
IRENA and IEA-PVPS (2016). End-of-life management: solar photovoltaic panels. Abu Dhabi: International Renewable Energy Agency (IRENA), International Energy Agency Photovoltaic Power Systems (IEA-PVPS). Available at: https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2016/IRENA_IEAPVPS_End-of-Life_Solar_PV_Panels_2016.pdf.
Istrate, R., V. Tulus, R. N. Grass, L. Vanbever, W. J. Stark and G. Guillén-Gosálbez (2024). The environmental sustainability of digital content consumption. Nature Communications, 15(1), 3724.
Ituna-Yudonago, J.-F., Y.-R. Galindo-Luna, O. García-Valladares, R. B. y. Brown, R. Shankar and J. Ibarra-Bahena (2021). Review of solar-thermal collectors powered autoclave for the sterilization of medical equipment. Alexandria Engineering Journal, 60(6), 5401–17.
IUTP (2022). Distributed ledger technology in public transport: Use cases for blockchain. Brussels, Belgium: The International Association of Public Transport (IUTP). Available at: https://www.uitp.org/publications/distributed-ledger-technology-in-public-transport-use-cases-for-blockchain/.
Ivanova, D., K. Stadler, K. Steen-Olsen, R. Wood, G. Vita, A. Tukker and E. Hertwich (2015). Environmental Impact Assessment of household consumption. Journal of Industrial Ecology, 20(3).
Ivanovich, C. C., T. Sun, D. R. Gordon and I. B. Ocko (2023). Future warming from global food consumption. Nature Climate Change, 13(3), 297-302.
IWA (2021). Circular economy: Tapping the power of wastewater. International Water Association (IWA). Available at: https://iwa-network.org/learn/circular-economy-tapping-the-power-of-wastewater/ [accessed June 2024].
Jarman, A., J. Thompson, E. McGuire, M. Reid, S. Rubsam, K. Becker and E. Mitcham (2023). Postharvest technologies for small-scale farmers in low-and middle-income countries: A call to action. Postharvest Biology and Technology, 206, 112491.
Jensen, A. H. and P. M. Petersen (2011). Energy efficiency in hospitals and laboratories. European council for an energy efficient economy (ECEEE). Available at: https://www.eceee.org/library/conference_proceedings/eceee_Summer_Studies/2011/6-innovations-in-buildings-and-appliances/energy-efficiency-in-hospitals-and-laboratories/.
Ji, R. and S. Qu (2019). Investigation and evaluation of energy consumption performance for hospital buildings in china. Sustainability, 11, 1724.
Johnson, S. (2010). Summarizing green practices in U.S. hospitals. Hospital topics, 88, 75-81.
Joint Research Centre, M. Acton, P. Bertoldi and J. Booth (2024). Best practice guidelines for the EU Code of Conduct on Data Centre Energy Efficiency. Ispra, Italy: European Commission. Available at: https://e3p.jrc.ec.europa.eu/publications/2024-best-practice-guidelines-eu-code-conduct-data-centre-energy-efficiency.
Joy Kellen, M. (2022). The new solar kiosk model: A sustainable solution to address the uptake and access of renewable technologies to create energy kiosks that improve women’s income in kiryandongo refugee settlement, Kiryandongo district, northern Uganda. Regis University. Available at: The New Solar Kiosk Model: A Sustainable Solution to Address the Uptake and Access of Renewable Technologies to Create Energy Kiosks That Improve Women’s Income in Kiryandongo Refugee Settlement, Kiryandongo District, Northern Uganda. (regis.edu).
K-CEP (2018). Global climate impact from hospital cooling. Nairobi: Kigali Cooling Efficiency Program (K-CEP). Available at: https://www.climateworks.org/wp-content/uploads/2018/11/kigali-ceo-global-hospital-cooling-report.pdf.
Kaack, L. H., P. L. Donti, E. Strubell and D. Rolnick (2020). Artificial intelligence and climate change: Opportunities, considerations, and policy levers to align AI with climate change goals. Cologne: Heinrich-Böll-Stiftung. Available at: https://us.boell.org/sites/default/files/2020-12/Artificial%20Intelligence%20and%20Climate%20Change_FINAL.pdf.
Kamran, M. (2022). Fundamentals of smart grid systems, Elsevier.
Karampour, M., S. Sawalha and J. Arias (2016). Eco-friendly supermarkets – an overview. Brussels: European Union. Available at: https://kth.diva-portal.org/smash/get/diva2:1044364/FULLTEXT01.pdf.
Kargwal, R., A. Kumar, M. K. Garg and I. Chanakaewsomboon (2022). A review on global energy use patterns in major crop production systems. Environmental Science: Advances, 1(5), 662-79.
Karliner, J., S. Slotterback, R. Boyd, B. Ashby and K. Steele (2019). Health care's climate footprint: How the health sector contributes to the global climate crisis and opportunities for action. Climate-smart health care series, Brussels: Health Care Without Harm and Arup. Available at: https://noharm-global.org/sites/default/files/documents-files/5961/HealthCaresClimateFootprint_092319.pdf.
Katal, A., S. Dahiya and T. Choudhury (2023). Energy efficiency in cloud computing data centers: a survey on software technologies. Cluster Computing, 26(3), 1845–75.
Katsaprakakis, D. A., N. Papadakis, E. Giannopoulou, Y. Yiannakoudakis, G. Zidianakis, G. Katzagiannakis, E. Dakanali, G. M. Stavrakakis and A. Kartalidis (2023). Rational use of energy in sport centers to achieving net zero—The SAVE project (Part B: indoor sports hall). Energies, 16(21), 7308.
Kaunda, R. B. (2020). Potential environmental impacts of lithium mining. Journal of Energy & Natural Resources Law, 38(3), 237–44.
Kava, J. (2020). Cleaner data centers, batteries included. Google. Available at: https://blog.google/inside-google/infrastructure/cleaner-data-centers-batteries-included/ [accessed July 2024].
Keane, J. (2014). Pico-solar electric systems: The Earthscan expert guide to the technology and emerging market, Routledge.
Khader, B. F., Y. A. Yigezu, M. A. Duwayri, A. A. Niane and K. Shideed (2019). Where in the value chain are we losing the most food? The case of wheat in Jordan. Food Security, 11, 1009–27.
Khalid, M. Y. and Z. U. Arif (2022). Novel biopolymer-based sustainable composites for food packaging applications: A narrative review. Food Packaging and Shelf Life, 33, 100892.
Khare, V., M. Khan, T. Tathagat, R. Parikh and H. Ahmad (2019). Moving towards net zero–Improving thermal comfort and energy performance of prototype supermarket stores in India' in IBPSA Building Simulation 2019, Rome, Italy.
Knobloch, C. and J. Hartl (2014). The energy kiosk model-current challenges and future strategies. Endeva Business Model Library. Available at: endeva_the_energykiosk_model_2014.pdf.
Kolokotroni, M., Z. Mylona, J. Evans, A. Foster and R. Liddiard (2019). Supermarket energy use in the UK. Energy Procedia, 161, 325–32.
Kolokotroni, M., Z. Mylona, J. Evans, A. Foster and R. Liddiard (2019). Supermarket energy use in the UK. Energy Procedia, 161, 325-32.
Konda, C. (2023). How India can effectively electrify public transportation. Institute for Energy Economics and Financial Analysis (IEEFA). Available at: https://ieefa.org/resources/how-india-can-effectively-electrify-public-transportation [accessed May 2024].
Koronen, C., M. Åhman and L. J. Nilsson (2020). Data centres in future European energy systems—energy efficiency, integration and policy. Energy Efficiency, 13(1), 129–44.
Kumar, D. and P. Kalita (2017). Reducing postharvest losses during storage of grain crops to strengthen food security in developing countries. Foods, 6(1), 8.
Kurmayer, N. J. (2023). The brief- another lost year for energy efficiency. Euractiv. Available at: https://www.euractiv.com/section/energy-environment/opinion/the-brief-another-lost-year-for-energy-efficiency/ [accessed July 2024].
Kyriakarakos, G. and A. Dounis (2020). Intelligent management of distributed energy resources for increased resilience and environmental sustainability of hospitals. Sustainability, 12(18), 7379.
Ladha-Sabur, A., S. Bakalis, P. J. Fryer and E. Lopez-Quiroga (2019a). Mapping energy consumption in food manufacturing. Trends in food science & technology, 86, 270-80.
Ladha-Sabur, A., S. Bakalis, P. J. Fryer and E. Lopez-Quiroga (2019b). Mapping energy consumption in food manufacturing. Trends in Food Science & Technology, 86, 270–80.
Lagoeiro, H., G. Davies and G. Maidment (2024). Waste heat from the London Underground: an investigation of the potential benefits of integrating heating and cooling' in Institute of Refrigeration TechTalk Webinar, London, 2 April 2020, Institute of Refrigeration.
Lakshman, S. (2024). More critical mining minerals could strain water supplies in stressed regions. World Resources Institute (WRI). Available at: https://www.wri.org/insights/critical-minerals-mining-water-impacts [accessed May 2024].
Lawal, S. (2024). Land grabs and vanishing forests: Are 'clean' electric vehicles to blame? Al Jazeera. Available at: https://www.aljazeera.com/news/2024/3/14/land-grabs-and-cleared-forests-why-electric-vehicles-are-getting-a-bad-rep [accessed May 2024].
Lawrence Berkeley National Laboratory (2023). How microgrids can help communities adapt to wildfires. Available at: https://buildings.lbl.gov/news/how-microgrids-can-help-communities-adapt-wildfires#:~:text=Microgrids%20can%20build%20resilience%20in%20vulnerable%20communities.%20By,and%20too%20polluting%20to%20be%20viable%20at%20scale [accessed July 30 2024].
Lazo, J., C. Escobar and D. Watts (2023). From blackouts to breakthroughs: Examining electricity's relevance in healthcare during COVID-19 and the future role of renewable energy. Energy Research & Social Science, 103, 103224.
Leal Filho, W., J. M. Luetz, U. D. Thanekar, M. A. P. Dinis and M. Forrester (2024). Climate-friendly healthcare: reducing the impacts of the healthcare sector on the world’s climate. Sustainability Science, 19, 1103–09.
LG (2022). HVAC engineers take on the ultimate debate: chiller or VRF. LG Electronics. Available at: https://www.lg.com/global/business/hvac-blog/hvac-engineers-take-on-the-ultimate-debate-chiller-or-vrf [accessed May 2024].
Li, G., Z. Sun, Q. Wang, S. Wang, K. Huang, N. Zhao, Y. Di, X. Zhao and Z. Zhu (2023). China's green data center development: Policies and carbon reduction technology path. Environmental Research, 231, 116248.
Li, J., X. Wang, L. Guo, L. Xie, S. Gao, F. Mei, H. Zhu and Z. Luo (2020). Innovative data centre cooling technologies in China–liquid cooling solution. Copenhagen: Copenhagen Centre on Energy Efficiency. Available at: https://c2e2.unepccc.org/kms_object/innovative-data-centre-cooling-technologies-in-china-liquid-cooling-solution/.
Li, P., J. Yang, M. A. Islam and S. Ren (2023). Making AI less "thirsty": Uncovering and addressing the secret water footprint of AI models. ArXiv, abs/2304.03271.
Li, X. and V. Strezov (2014). Modelling piezoelectric energy harvesting potential in an educational building. Energy Conversion and Management, 85, 435–42.
Liemberger, R. and A. Wyatt (2018). Quantifying the global non-revenue water problem. Water Supply, 19(3), 831–37.
Liu, D., Liu, H., Wang, X., and Kremere, E. (2019). World small hydropower development report 2019. United Nations Industrial Development Organization (UNIDO); International Center on Small Hydro Power (ICSHP). Available at: https://www.unido.org/sites/default/files/files/2020-07/Executive Summary.pdf.
Liu, T., Z. Zhao, W. Tang, Y. Chen, C. Lan, L. Zhu, W. Jiang, Y. Wu, Y. Wang, Z. Yang, D. Yang, Q. Wang, L. Luo, T. Liu and H. Xie (2024). In-situ direct seawater electrolysis using floating platform in ocean with uncontrollable wave motion. Nature Communications, 15(1), 5305.
Lorenzi, N. (2022). Lighting manufacturers address hospital needs. Health Facilities Management. Available at: https://www.hfmmagazine.com/articles/4534-lighting-manufacturers-address-hospital-needs [accessed May 2024].
Lu, L. and T. Reardon (2018). An economic model of the evolution of food retail and supply chains from traditional shops to supermarkets to E‐commerce. American Journal of Agricultural Economics, 100(5).
Maclean, S. A., S. Raza, H. Wang, C. Igbomezie, J. Liu, N. Makowski, Y. Ma, Y. Shen, J. A. Rӧhr, G.-M. Weng and A. D. Taylor (2024). Investigation of flow rate in symmetric four-channel redox flow desalination system. Cell Reports Physical Science, 5(1), 101761.
Mahmoud, M., M. Ramadan, A.-G. Olabi, K. Pullen and S. Naher (2020). A review of mechanical energy storage systems combined with wind and solar applications. Energy Conversion and Management, 210, 112670.
Malekpoor, H., K. Chalvatzis, N. Mishra and A. Ramudhin (2019). A hybrid approach of VIKOR and bi-objective integer linear programming for electrification planning in a disaster relief camp. Annals of Operations Research, 283, 443-69.
Malik, S., S. Kishore, A. Dhasmana, P. Kumari, T. Mitra, V. Chaudhary, R. Kumari, J. Bora, A. Ranjan, T. Minkina and V. D. Rajput (2023). A perspective review on microbial fuel cells in treatment and product recovery from wastewater. Water, 15(2), 316.
Markusson, C. and P. Ollas (2013). Dehumidification of air in supermarkets. Stockholm: Energimyndighetens Beställargrupp Livsmedelslokaler. Available at: https://www.ri.se/sites/default/files/2021-01/Avfuktning%20av%20luft%20i%20butiker.pdf.
Mazzucato, M. (2024). The ugly truth behind ChatGPT: AI is guzzling resources at planet-eating rates. The Guardian. Available at: https://www.theguardian.com/commentisfree/article/2024/may/30/ugly-truth-ai-chatgpt-guzzling-resources-environment [accessed June 2024].
McGain, F. and C. Naylor (2014). Environmental sustainability in hospitals–a systematic review and research agenda. Journal of health services research & policy, 19.
McKinsey & Company (2021). How to reduce postharvest crop losses in the agricultural supply chain. Available at: https://www.mckinsey.com/industries/agriculture/our-insights/how-to-reduce-postharvest-crop-losses-in-the-agricultural-supply-chain#/.
Meireles, I., V. Sousa, B. Bleys and B. Poncelet (2022). Domestic hot water consumption pattern: Relation with total water consumption and air temperature. Renewable and Sustainable Energy Reviews, 157, 112035.
Menniti, D., A. Pinnarelli, N. Sorrentino, P. Vizza, G. Barone, G. Brusco, S. Mendicino, L. Mendicino and G. Polizzi (2022). Enabling technologies for energy communities: Some experimental use cases. Energies, 15(17), 6374.
Min, H. (2023). App allows individuals to engage in carbon credits trading. Shanghai Times. Available at: https://www.shine.cn/news/metro/2309150824/ [accessed May 2024].
Minde, P., R. Patvekar, A. Mokashi, A. Bulchandani and R. Desale (2023). Life cycle energy assessments of conventional building: A systematic review. Materials Today: Proceedings.
Mirletz, H., H. Hieslmair, S. Ovaitt, T. L. Curtis and T. M. Barnes (2023). Unfounded concerns about photovoltaic module toxicity and waste are slowing decarbonization. Nature Physics, 19(10), 1376-78.
Mitsakis, E. and A. Kotsi (2019). Cooperative intelligent transport systems as a policy tool for mitigating the impacts of climate change on road transport: Proceedings of 4th conference on sustainable urban mobility (CSUM2018), 24 - 25 May, Skiathos Island, Greece. 418–25.
MoE Chile (2018). Comparing energy efficiency in supermarkets using CO2 and R507. Chile: Ministerio del Medio Ambiente, Gobierno de Chile. Available at: https://www.ccacoalition.org/resources/comparing-energy-efficiency-supermarkets-using-co2-r507.
Monarch Joint Venture (2022). Renewable energy meets pollinator habitat in Minnesota solar fields. Available at: https://monarchjointventure.org/blog/pollinator-habitat-in-minnesota-solar-fields.
Mylona, Z., M. Kolokotroni and S. A. Tassou (2017). Frozen food retail: Measuring and modelling energy use and space environmental systems in an operational supermarket. Energy and Buildings, 144, 129–43.
NCAT (2019). Photovoltaic applications in aquaculture: a primer. Available at: https://attradev.ncat.org/wp-content/uploads/2022/07/photovoltaic_aquaculture.pdf.
Ndustrial (2024). The first wave of logistics electrification is not what you expect. Available at: https://ndustrial.io/etrus-poised/ [accessed July 18 2024].
Neagu, B. C., G. Grigoraş and O. Ivanov (2019). An efficient peer-to-peer based blokchain approach for prosumers energy trading in microgrids' in 2019 8th International Conference on Modern Power Systems (MPS), IEEE, 1-4.
Next Billion (2020). Milling on mini-grids: how africa’s largest crop could go diesel-free. Available at: https://nextbillion.net/milling-on-mini-grids-africa-maize/ [accessed July 10 2024].
Ng, W.-S. and A. Acker (2018). Understanding urban travel behaviour by gender for efficient and equitable transport policies. Discussion paper, Paris, France: International Transport Forum. Available at: https://www.itf-oecd.org/sites/default/files/docs/urban-travel-behaviour-gender.pdf.
Ni, W., X. Hu, H. Du, Y. Kang, Y. Ju and Q. Wang (2024). CO2 emission-mitigation pathways for China's data centers. Resources, Conservation and Recycling, 202, 107383.
NRDC (2015). Home idle load: Devices wasting huge amounts of electricity when not in active use. NRDC issue paper, New York: The Natural Resources Defense Council (NRDC). Available at: https://www.nrdc.org/sites/default/files/home-idle-load-IP.pdf.
Nurton, J. (2020). Patenting trends in renewable energy. WIPO Magazine. Available at: https://www.wipo.int/wipo_magazine/en/2020/01/article_0008.html [accessed July 2024].
NYSERDA (2022). Energy-related agricultural best practices: ventilation for livestock farms. available at: https://www.nyserda.ny.gov/-/media/Project/Nyserda/Files/Publications/Fact-Sheets/ag-best-practices-for-livestock-farms-ventilation-fs.pdf.
NYSERDA (2024). Energy-related Agricultural Best Practices: Grain-drying for Grain Farms. available at: https://agenergyny.org/wp-content/uploads/2024/04/grains_factsheet.pdf.
OECD (2021). Making better policies for food systems. Paris: Organisation for Economic Co-operation and Development (OECD). Available at: https://doi.org/10.1787/ddfba4de-en.
OECD (2023a). Climate finance provided and mobilised by developed countries in 2013-2021: Aggregate trends and opportunities for scaling up adaptation and mobilised private finance, climate finance and the USD 100 billion goal. Paris, France: Organisation for Economic Co-operation and Development (OECD). Available at: https://www.oecd.org/en/publications/climate-finance-provided-and-mobilised-by-developed-countries-in-2013-2021_e20d2bc7-en.html.
OECD (2023b). How green is household behaviour? Sustainable choices in a time of interlocking crises. OECD Studies on Environmental Policy and Household Behaviour, Paris: Organisation for Economic Co-operation (OECD). Available at: https://doi.org/10.1787/2bbbb663-en
Olabi, A. G., T. Wilberforce, E. T. Sayed, K. Elsaid and M. A. Abdelkareem (2020). Prospects of fuel cell combined heat and power systems. Energies, 13(16), 4104.
Ollier, L., M. Melliger and J. Lilliestam (2020). Friends or foes? Political synergy or competition between renewable energy and energy efficiency policy. Energies, 13(23), 6339.
Omar, A., S. AlMaeeni, H. Attia, M. Takruri, A. Altunaiji, M. Sanduleanu, R. Shubair, M. d. Ashhab, M. Ali and G. Hebsi (2022). Smart city: Recent advances in intelligent street lighting systems based on IoT. Journal of Sensors, 2022, 1-10.
Pacific Northwest National Laboratory (2015). Next generation luminaire (NGL) downlight demonstration project: St. Anthony Hospital. US Department of Energy. Available at: https://www.energy.gov/sites/prod/files/2015/05/f22/NGL%20Downlight%20St%20%20Anthony%20FINAL.pdf.
PAHO (2020). LED lighting in hospitals. Pan American Health Organization (PAHO). Available at: https://www.paho.org/en/documents/smart-hospitals-led-lighting-hospitals.
Park, M. Y., C. G. Chai, H. K. Lee, H. Moon and J. S. Noh (2018). The effects of natural daylight on length of hospital stay. Environ Health Insights, 12, 1178630218812817.
Patenaude, A. (2022). CO2 refrigeration on the rise. Supermarket News. Available at: https://www.supermarketnews.com/technology/co2-refrigeration-rise [accessed March 2024].
Payton, B. (2023). The rise and rise of the Nordic data centre industry. Infrastructure Investor. Available at: https://www.infrastructureinvestor.com/the-rise-and-rise-of-the-nordic-data-centre-industry/ [accessed July 2024].
Peirow, S., F. Razi Astaraei, A. A. Saifoddin and H. Yousefi (2022). Sustainable backup power supply of a hospital by designing a hybrid renewable energy system. Journal of Renewable Energy and Environment, 9(4), 48–63.
Phillips, J., G. Davies and V. Plutshack (2020). An off-grid energy future requires learning from the past. Brookings Institution. Available at: https://www.brookings.edu/articles/an-off-grid-energy-future-requires-learning-from-the-past/
Phipps, A. (2023). Notthingham hospital to install geothermal heating system. BBC News. Available at: https://www.bbc.com/news/uk-england-nottinghamshire-66710471 [accessed April 2024].
Pichler, P.-P., I. S. Jaccard, U. Weisz and H. Weisz (2019). International comparison of health care carbon footprints. Environmental Research Letters, 14.
Piedmont Environmental Council (2024). Data center legislation in the 2024 Virginia general assembly. Available at: https://www.pecva.org/region/regional-state-national-region/general-assembly/data-center-legislation-in-the-2024-virginia-general-assembly/ [accessed July 2024].
Power for All (2020). Power for All Facsheet: Mini-grids productive use of energy (PUE) in agriculture. available at: https://www.powerforall.org/application/files/9615/9302/4971/FS_Mini-grids_productive_use_of_energy_PUE_in_agriculture3.pdf.
Power for All (2022). Enhancing post-harvest operations with renewable energy to minimize food loss and wastage. Available at: https://www.powerforall.org/insights/impact/enhancing-post-harvest-operations-renewable-energy-minimize-food-loss-and-wastage [accessed July 4 2024].
PR Newswire (2024). Global digital agriculture market forecast to 2028: growth in need for optimization in light of ecological changes. Available at: https://www.prnewswire.com/news-releases/global-digital-agriculture-market-forecast-to-2028-growth-in-need-for-optimization-in-light-of-ecological-changes-302080396.html [accessed June 25 2024].
Prasanna, A., K. McCabe, B. Sigrin and N. Blair (2021). Storage futures study: distributed solar and storage outlook: methodology and scenarios. United States. Available at: https://www.energy.gov/sites/default/files/2021-09/Solar%20Futures%20Study.pdf.
Prieto-Curiel, R. and J. P. Ospina (2024). The ABC of mobility. Environment International, 185, 108541.
PwC (2022). State of climate tech 2022: Overcoming inertia in climate tech investing. Available at: https://www.pwc.com/gx/en/services/sustainability/publications/overcoming-inertia-in-climate-tech-investing.html.
Qian, H., Y. Li, W. H. Seto, P. Ching, W. H. Ching and H. Q. Sun (2010). Natural ventilation for reducing airborne infection in hospitals. Building and Environment, 45(3), 559–65.
Qorbani, D., H. P. L. M. Korzilius and S.-E. Fleten (2024). Ownership of battery electric vehicles is uneven in Norwegian households. Communications Earth & Environment, 5(1), 170.
Rahman, N. M. A., L. C. Haw and A. Fazlizan (2021). A literature review of naturally ventilated public hospital wards in tropical climate countries for thermal comfort and energy saving improvements. Energies, 14(2), 435.
Ramaswami, A., T. Hillman, B. Janson, M. Reiner and G. Thomas (2008). A demand-centered, hybrid life-cycle methodology for city-scale greenhouse gas inventories. Environmental Science & Technology, 42(17), 6455-61.
Ramirez, C., M. Patel and K. Blok (2006). From fluid milk to milk powder: Energy use and energy efficiency in the European dairy industry. Energy, 31(12), 1984-2004.
Rana, F. and A. Ali (2022). Renewable energy targets in small island developing states. Abu Dhabi: International Renewable Energy Agency (IRENA). Available at: https://cisp.cachefly.net/assets/articles/attachments/89630_irena_re_targets_sids_2022.pdf.
Rani, A., S. W. Snyder, H. Kim, Z. Lei and S.-Y. Pan (2022). Pathways to a net-zero-carbon water sector through energy-extracting wastewater technologies. npj Clean Water, 5(1), 49.
REN21 (2023). Renewables 2023: Global status report. Energy demand, Paris, France: REN21. Available at: https://www.ren21.net/gsr-2023/.
Ribeiro, P. J. G., G. Dias and J. F. G. Mendes (2024). Public transport decarbonization: An exploratory approach to bus electrification. World Electric Vehicle Journal, 15(3), 81.
Ritchie, H., P. Rosado and M. Roser (2019). Access to energy. Our World in Data. Available at: https://ourworldindata.org/energy-access [accessed March 2024].
Rocky Mountain Institute (RMI) (2024). Clean Energy 101: Virtual Power Plants - RMI. Available at: Clean Energy 101: Virtual Power Plants - RMI [accessed June 12 2024].
Rogoway, M. (2023). Bill would require data centers, crypto miners to meet Oregon’s clean energy targets. The Oregonian. Available at: https://www.oregonlive.com/silicon-forest/2023/01/bill-would-require-oregon-data-centers-crypto-miners-to-meet-states-clean-energy-targets.html [accessed July 2024].
Rosén, M. and M. Borgqvist (2015). Profitability potential for self-produced energy in grocery stores. Stockholm: BeLivs: Energimyndighetens Beställargrupp Livsmedelslokaler. Available at: https://www.ri.se/sites/default/files/2021-01/L%C3%B6nsamhetspotentialen%20f%C3%B6r%20egenproducerad%20energi%20till%20livsmedelslokaler.pdf.
Sadek, A. and R. Mahrous (2018). Adaptive glazing technologies: Balancing the benefits of outdoor views in healthcare environments. Solar Energy, 174, 719–27.
Saengsikhiao, P. and J. Taweekun (2021). Energy efficiency improvement solutions for supermarkets by low-E glass door and digital semi-hermetic compressor. Energies, 14(11), 3134.
Schleich, J., A. Durand and H. Brugger (2021). How effective are EU minimum energy performance standards and energy labels for cold appliances? Energy Policy, 149, 112069.
Schmidt, A., G. Seiberth, P. Down and L. Milan (2021). Rebooting autonomous driving. Accenture Research. Available at: https://www.accenture.com/dk-en/insights/automotive/rebooting-autonomous-driving.
Scottish Water (2024). Nigg waste water treatment works (WWTW). Scottish Water. Available at: https://www.scottishwater.co.uk/in-your-area/investments-in-your-area/nigg-wwtw [accessed August 2024].
SEforALL (2022). Chilling Prospects 2022: Promoting sustainable agricultural food chains through the Energy Smart Food programme. Available at: https://www.seforall.org/data-stories/promoting-sustainable-agricultural-food-chains [accessed June 24 2024].
SEforALL (2024). State of the market report for healthcare facility electrification. Vienna: Sustainable Energy for All. Available at: https://www.seforall.org/publications/state-of-the-market-report-for-healthcare-facility-electrification.
Seo, K.-W., D. Ryu, J. Eom, T. Jeon, J.-S. Kim, K. Youm, J. Chen and C. Wilson (2023). Drift of Earth's pole confirms groundwater depletion as a significant contributor to global sea level rise 1993–2010. Geophysical Research Letters, 50.
Shabur, M. A. and M. F. Ali (2024). An analysis of the correlation between income and the consumption of energy in Bangladesh. Energy Informatics, 7(1), 17.
Sharma, S., R. Kiran, P. Azad and R. Vaish (2022). A review of piezoelectric energy harvesting tiles: Available designs and future perspective. Energy Conversion and Management, 254, 115272.
Sharma, V. (2019). Access for adaptation? Reviewing the linkages between energy, disasters, and development in India. Energy Research & Social Science, 52, 10-19.
shecco (2020). World guide to transcritical CO2 refrigeration–Part 2. sheccoBase. Available at: https://issuu.com/shecco/docs/r744-guide-part2.
Sheridan, S., K. Sunderland and J. Courtney (2023). Swarm electrification: A comprehensive literature review. Renewable and Sustainable Energy Reviews, 175, 113157.
Shoprite (2022). The Shoprite Group increased solar capacity by 82% in 12 months, easing pressure on the national electricity grid. Shoprite Group. Available at: https://www.shopriteholdings.co.za/newsroom/2022/the-shoprite-group-increased-solar-capacity-by-82-percent-in-12-months-easing-pressure-on-the-national-electricity-grid.html [accessed August 2024].
Siemens (2023). How artificial intelligence is cooling data center operations. Available at: https://assets.new.siemens.com/siemens/assets/api/uuid:fdf5b798-479e-4f74-80d2-e472daf1f09a/final-wsco-white-paper-ai.pdf.
StartUs Insights (2023). Top 10 microgrid trends in 2023. Available at: https://www.startus-insights.com/innovators-guide/microgrid-trends/ [accessed June 4 2024].
Stockholm Exergi (2024). Heat recovery. Stockholm Exergi. Available at: https://www.stockholmexergi.se/en/heat-recovery/ [accessed August 2024].
Stoner, O., J. Lewis and I. L. Martínez (2021a). Household cooking fuel estimates at global and country level for 1990 to 2030. Nature Communications, 12, 5793.
Stoner, O., J. Lewis and I. L. Martínez (2021b). Household cooking fuel estimates at global and country level for 1990 to 2030. Nature Communications, 12.
Suárez, J., M. Silva, M. Rivera and P. Wheeler (2022). Trends and challenges in sustainable energy management models for public health services' in In 2022 IEEE International Conference on Automation/XXV Congress of the Chilean Association of Automatic Control (ICA-ACCA), October 24–28, 2022, 1–6.
Supermarket News Intelligence (2023). Market leader report: Transformative technology for supermarkets. Supermarket News Intelligence. Available at: https://ix.informaengage.com/transformative-technology-for-supermarkets/p/1?utm_source=website&utm_medium=sitenav&utm_id=SN.
Sustainable Success Stories (2020). Samsoe sustainable island: a local community defines their own path to sustainability through renewable energy. Available at: https://sustainablesuccessstories.org/overview-of-sustainable-success-stories/samsoe-sustainable-island/ [accessed August 8 2024].
Swedish Energy Agency (2024). Energy-efficient taps and shower heads. Swedish Energy Agency. Available at: https://www.energimyndigheten.se/en/sustainability/households/other-energy-consumption-in-your-home/water-and-water-heater/energy-efficient-taps-and-shower-heads/ [accessed March 2024].
Tassou, S. A., Y. Ge, A. Hadawey and D. Marriott (2011). Energy consumption and conservation in food retailing. Applied Thermal Engineering, 31(2), 147–56.
The Conversation (2024). Solar power occupies a lot of space – here’s how to make it more ecologically beneficial to the land it sits on. Available at: https://theconversation.com/solar-power-occupies-a-lot-of-space-heres-how-to-make-it-more-ecologically-beneficial-to-the-land-it-sits-on-216423 [accessed June 20 2024].
The Economic Times (2023). Top 5 global best practices in cold chain logistics. March 6, 2023, Available at: https://economictimes.indiatimes.com/small-biz/sme-sector/top-5-global-best-practices-in-cold-chain-logistics/articleshow/98405261.cms?from=mdr.
Trenbath, K. and B. Doherty (2019). Emerging technologies for improved plug load management systems: Learning behavior algorithms and automatic and dynamic load detection' in In Summer Study on Energy Efficiency in Buildings, California, American Council for an Energy Efficienct Economy (ACEEE).
Tsao, Y.-C. and V.-V. Thanh (2021). Toward sustainable microgrids with blockchain technology-based peer-to-peer energy trading mechanism: A fuzzy meta-heuristic approach. Renewable and Sustainable Energy Reviews, 136, 110452.
Tubiello, F. N., C. Rosenzweig, G. Conchedda, K. Karl, J. Gütschow, P. Xueyao, G. Obli-Laryea, N. Wanner, S. Y. Qiu and J. De Barros (2021). Greenhouse gas emissions from food systems: building the evidence base. Environmental Research Letters, 16(6), 065007.
U4E (2024a). Refrigerators. United for Efficiency. Available at: https://united4efficiency.org/products/refrigerators/ [accessed March 2024].
U4E (2024b). Room air conditioners. United for Efficiency. Available at: https://united4efficiency.org/products/room-air-conditioners/ [accessed March 2024].
UC Merced (2024). Solar canal project earns environmental award as construction begins. available at: https://news.ucmerced.edu/news/2024/solar-canal-project-earns-environmental-award-construction-begins.
Uchanski, M., T. Hickey, J. Bousselot and K. L. Barth (2023). Characterization of agrivoltaic crop environment conditions using opaque and thin-film semi-transparent modules. Energies, 16(7), 3012.
Udayasankaran, P. and S. J. J. Thangaraj (2023). Energy efficient resource utilization and load balancing in virtual machines using prediction algorithms. International Journal of Cognitive Computing in Engineering, 4, 127–34.
UDP (2021). Climate technologies in an urban context. Copenhagen: UNEP DTU Partnership (UDP). Available at: https://tech-action.unepccc.org/publications/climate-technologies-in-an-urban-context/.
Udroiu, C. M., A. Mota-Babiloni, C. Espinós-Estévez and J. Navarro-Esbrí (2022). Energy-efficient technologies for ultra-low temperature refrigeration. In Howlett, R. J., L. C. Jain, J. R. Littlewood and M. M. Balas, eds., Smart and sustainable technology for resilient cities and communities, Singapore: Springer Nature Singapore, 309–22.
Uhlig, B., C. Blume, S. Thiede, M. Mennenga and C. Herrmann (2021). Data-driven energy analysis of supermarkets: a multi-level approach for different stakeholders. Procedia CIRP, 98, 61–66.
UN Habitat (2021). Urban energy. Available at: https://unhabitat.org/topic/urban-energy#:~:text=To%20run%20their%20activities%2C%20cities,the%20world's%20total%20greenhouse%20gases. [accessed July 2024].
UN Habitat (2022). World cities report 2022: Envisaging the future of cities. Nairobi: UN Habitat. Available at: https://unhabitat.org/wcr/.
UNEP (2024). Transport. United Nations Environment Programme (UNEP). Available at: https://www.unep.org/explore-topics/energy/what-we-do/transport [accessed August 2024].
UNEP Ozone Secretariat (2015). Fact sheet 4: Commercial refrigeration. Available at: https://ozone.unep.org/sites/ozone/files/Meeting_Documents/HFCs/FS_4_Commercial_Refrigeration_Oct_2015.pdf [accessed May 2024].
UNESCO (2021). The united nations world water development report 2021: Valuing water. Paris: United Nations Educational, Scientific and Cultural Organization (UNESCO). Available
UNFCCC (2023). Global renewables and energy efficiency pledge. Available at: https://www.cop28.com/en/global-renewables-and-energy-efficiency-pledge [accessed July 2024].
UNIDO (2021). What’s so important about mini grids? United Nations Industrial Development Organization (UNIDO). Available at: https://www.unido.org/stories/whats-so-important-about-mini-grids [accessed June 6 2024].
UNIDO (2024a). Climate-friendly supermarket refrigeration installed in Jordan. United Nations Industrial Development Organization (UNIDO). Available at: https://www.unido.org/news/climate-friendly-supermarket-refrigeration-installed-jordan [accessed August 2024].
UNIDO (2024b). Eco-friendly refrigeration: on the aquaculture highway in Chile. United Nations Industrial Development Organization (UNIDO). Available at: https://www.unido.org/stories/eco-friendly-refrigeration-aquaculture-highway-chile [accessed August 7 2024].
United Nations (2021). Theme report on energy transition—towards the achievement of SDG 7 and net-zero emissions. New York. Available at: https://www.un.org/sites/un2.un.org/files/2021-twg_2-062321.pdf.
United Nations (2023). The Sustainable Development Goals report 2023. Special edition, New York: United Nations. Available at: https://unstats.un.org/sdgs/report/2023/.
US Department of Energy (2022). Agrivoltaics market research study. Available at: https://science.osti.gov/-/media/sbir/pdf/Market-Research/SETO---Agrivoltaics-August-2022-Public.pdf.
US Department of Energy (2023). Energy improvements in rural or remote areas selected and awarded projects. Available at: https://www.energy.gov/oced/energy-improvements-rural-or-remote-areas-selected-and-awarded-projects [accessed June 19 2024].
US EPA (2024). Energy efficiency for water utilities. United States Environmental Protection Agency. Available at: https://www.epa.gov/sustainable-water-infrastructure/energy-efficiency-water-utilities [accessed May 2024].
USAID (2023). What are the key advances in mini-grid generation technologies? United States Agency for International Development (USAID). Available at: https://www.usaid.gov/energy/mini-grids/emerging-tech/generation#:~:text=Short%20Answer&text=Just%20a%20few%20of%20the,improved%20fuel%20cell%20storage%20technology [accessed June 6 2024].
Uwera, J., R. Itoi, S. Jalilinasrabady, T. Jóhannesson and D. Ö. Benediktsson (2015). Design of a cooling system using geothermal energy for storage of agricultural products with emphasis on Irish potatoes in Rwanda, Africa. Geothermal Resources Council Transactions, 39, 157-64.
Valverde, L., C. Bordons and F. Rosa (2015). Integration of fuel cell technologies in renewable-energy-based microgrids optimizing operational costs and durability. IEEE Transactions on Industrial Electronics, 63(1), 167-77.
Van Alfen, N. K. (2014). Encyclopedia of agriculture and food systems, Elsevier.
Van de Graaf, T. (2019). A new world: the geopolitics of the energy transformation. Dubai: International Renewable Energy Agency (IRENA). Available at: https://www.irena.org/-/media/files/irena/agency/publication/2019/jan/global_commission_geopolitics_new_world_2019.pdf.
van der Sluis, S. M. (2017). Performance indicators for energy efficient supermarket buildings: Final report. Paris: International Energy Agency (IEA). Available at: https://heatpumpingtechnologies.org/publications/performance-indicators-for-energy-efficient-supermarket-buildings-final-report-2/.
Vesely, S., C. A. Klöckner, G. Carrus, P. Chokrai, I. Fritsche, T. Masson, A. Panno, L. Tiberio and A. M. Udall (2022). Donations to renewable energy projects: The role of social norms and donor anonymity. Ecological Economics, 193, 107277.
Vicedo-Cabrera, A. M., N. Scovronick, F. Sera, D. Royé, R. Schneider, A. Tobias, C. Astrom, Y. Guo, Y. Honda, D. M. Hondula, R. Abrutzky, S. Tong, M. d. S. Z. S. Coelho, P. H. N. Saldiva, E. Lavigne, P. M. Correa, N. V. Ortega, H. Kan, S. Osorio, J. Kyselý, A. Urban, H. Orru, E. Indermitte, J. J. K. Jaakkola, N. Ryti, M. Pascal, A. Schneider, K. Katsouyanni, E. Samoli, F. Mayvaneh, A. Entezari, P. Goodman, A. Zeka, P. Michelozzi, F. de’Donato, M. Hashizume, B. Alahmad, M. H. Diaz, C. D. L. C. Valencia, A. Overcenco, D. Houthuijs, C. Ameling, S. Rao, F. Di Ruscio, G. Carrasco-Escobar, X. Seposo, S. Silva, J. Madureira, I. H. Holobaca, S. Fratianni, F. Acquaotta, H. Kim, W. Lee, C. Iniguez, B. Forsberg, M. S. Ragettli, Y. L. L. Guo, B. Y. Chen, S. Li, B. Armstrong, A. Aleman, A. Zanobetti, J. Schwartz, T. N. Dang, D. V. Dung, N. Gillett, A. Haines, M. Mengel, V. Huber and A. Gasparrini (2021). The burden of heat-related mortality attributable to recent human-induced climate change. Nature Climate Change, 11(6), 492–500.
Vourdoubas, J. and O. Dubois (2016). Energy and agri-food systems: production and consumption. Mediterra 2016. Zero Waste in the Mediterranean. Natural Resources, Food and Knowledge/International Centre for Advanced Mediterranean Agronomic Studies (CIHEAM) and Food and Agriculture Organization of the United Nations (FAO)–Paris: Presses de Sciences Po, 2016., 155.
Wakeel, M., B. Chen, T. Hayat, A. Alsaedi and B. Ahmad (2016). Energy consumption for water use cycles in different countries: A review. Applied Energy, 178, 868-85.
Wang, C., K. Pattawi and H. Lee (2020). Energy saving impact of occupancy-driven thermostat for residential buildings. Energy and Buildings, 211.
Wang, W., D.-J. Lee and Z. Lei (2022). Integrating anaerobic digestion with microbial electrolysis cell for performance enhancement: A review. Bioresource Technology, 344, 126321.
Wang, X., J. Guo, H. Ren, J. Jin, H. He, P. Jin, Z. Wu and Y. Zheng (2023). Research progress of nanocellulose-based food packaging. Trends in Food Science & Technology, 104289.
Warren, T. (2018). Microsoft sinks a data center off the Scottish coast. The Verge. Available at: https://www.theverge.com/2018/6/6/17433206/microsoft-underwater-data-center-project-natick [accessed July 2024].
WEF (2024a). Investing in water: A practical guide. Community paper, Geneva: World Economic Forum (WEF). Available at: https://www3.weforum.org/docs/WEF_Investing_in_Water_A_Practical_Guide_2024.pdf.
WEF (2024b). Transforming energy demand. Geneva: World Economic Forum (WEF). Available at: https://www3.weforum.org/docs/WEF_Transforming_Energy_Demand_2024.pdf.
Welle, B., A. Kustar, T. Hein Tun and C. Albuquerque (2023). Post-pandemic, public transport needs to get back on track to meet global climate goals. World Resources Institute (WRI). Available at: https://www.wri.org/insights/current-state-of-public-transport-climate-goals [accessed May 2024].
Westphal, M. I., S. Martin, L. Zhou and D. Satterthwaite (2017). Powering cities in the Global South: How energy access for all benefits the economy and the environment. Washington, D.C.: World Resources Institute (WRI). Available at: https://www.thegpsc.org/sites/gpsc/files/powerincities.pdf.
WFP (2022). Electric pressure cookers for schools (EPC4S). World Food Programme. Available at: https://innovation.wfp.org/project/electric-pressure-cookers-schools-epc4s [accessed June 19 2024].
White, A. (2023). How data centres and new power semiconductor technologies can support decarbonization. World Economic Forum (WEF). Available at: https://www.weforum.org/agenda/2023/11/data-centres-power-semiconductor-technologies-decarbonization/ [accessed July 2024].
WHO (2013). Direct-drive solar vaccine refrigerators— a new choice for vaccine storage. Geneva: World Health Organization. Available at: https://media.path.org/documents/TS_opt_ebs_dd_solar_fridge.pdf.
WHO (2023). Energizing health: accelerating energy access in healthcare facilities. Geneva: World Health Organization (WHO). Available at: https://www.who.int/publications/i/item/9789240066960.
Winter, K., J. Wien, E. Molin, O. Cats, P. Morsink and B. van Arem (2019). Taking the self-driving bus: A passenger choice experiment' in 2019 6th International Conference on Models and Technologies for Intelligent Transportation Systems (MT-ITS), June 5–7, 2019, 1-8.
WIPO (2023). World Intellectual Property Indicators 2023. Geneva: World Intellectual Property Organization (WIPO). Available at: https://www.wipo.int/publications/en/details.jsp?id=4678.
WIPO (2024a). Agrifood. Patent Landscape Report Series, Geneva: World Inellectual Property Organization (WIPO). Available at: https://doi.org/10.34667/tind.49840.
WIPO (2024b). World Intellectual Property Report: Making Innovation Policy Work for Development. Geneva: World Intellectual Property Organization (WIPO). Available at: https://doi.org/10.34667/.
Wood, J. (2024). The world added 50% more renewable capacity last year than in 2022. World Economic Forum (WEF). Available at: https://www.weforum.org/agenda/2024/02/renewables-energy-capacity-demand-growth/ [accessed August 2024].
World Bank (2019). The power of dung: lessons learned from on-farm biodigester programs in Africa. Washington, DC: World Bank. Available at: https://documents1.worldbank.org/curated/en/468451557843529960/pdf/The-Power-of-Dung-Lessons-Learned-from-On-Farm-Biodigester-Programs-in-Africa.pdf.
World Bank (2023). Solar mini grids could sustainably power 380 million people in africa by 2030 – if action is taken now. Nairobi: World Bank. available at: https://www.worldbank.org/en/news/press-release/2023/02/26/solar-mini-grids-could-sustainably-power-380-million-people-in-afe-africa-by-2030-if-action-is-taken-now.
World Green Building Council (2023). Energy efficiency is a can't-do-without. World Green Building Council. Available at: https://worldgbc.org/article/energy-efficiency-is-a-cant-do-without/ [accessed August 2024].
WWF (2021a). Reducing emissions from energy use in food storage, cold chains, transport and processing. Food Forward NDCs, Gland: World Wildlife Fund (WWF). Available at: https://foodforwardndcs.panda.org/food-supply-chains/reducing-emissions-from-energy-use-in-food-storage-cold-chains-transport-and-processing/#.
WWF (2021b). Reducing post-harvest food loss in fisheries supply chains. Food Forward NDCs, Gland: World Wildlife Fund (WWF). Available at: https://foodforwardndcs.panda.org/food-supply-chains/reducing-post-harvest-food-loss-in-fisheries-supply-chains/.
Xu, T. and J. Flapper (2011). Reduce energy use and greenhouse gas emissions from global dairy processing facilities. Energy Policy, 39(1), 234-47.
Ye, Y. (2023). Are rooftop solar panels the answer to meeting China's challenging climate targets? Nature Index 2023 Science cities, Nature. Available at: https://www.nature.com/articles/d41586-023-02991-x#:~:text=The%20programme%20encourages%20counties%20to,and%2020%25%20of%20rural%20homes. [accessed May 2024].
Yu, V. P. (2023). Addressing the climate technology gap in developing countries through effective technology transfer. TESS forum on trade, environment & SDGs. Available at: https://tessforum.org/latest/addressing-the-climate-technology-gap-in-developing-countries-through-effective-technology-transfer [accessed July 2024].
Yuan, R., J. F. Rodrigues, J. Wang, A. Tukker and P. Behrens (2022). A global overview of developments of urban and rural household GHG footprints from 2005 to 2015. Science of the Total Environment, 806, 150695.
Yuan, X., Y. Liang, X. Hu, Y. Xu, Y. Chen and R. Kosonen (2023). Waste heat recoveries in data centers: A review. Renewable and Sustainable Energy Reviews, 188, 113777.
Yüzbaşıoğlu, A. E., A. H. Tatarhan and A. O. Gezerman (2021). Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations. Heliyon, 7(10).
Zarei, M. (2020). Wastewater resources management for energy recovery from circular economy perspective. Water-Energy Nexus, 3, 170–85.
Zewe, A. (2022). On the road to cleaner, greener, and faster driving. MIT News Office. Available at: https://news.mit.edu/2022/ai-autonomous-driving-idle-0517 [accessed May 2024].
Zewe, A. (2023). Computers that power self-driving cars could be a huge driver of global carbon emissions. MIT News Office. Available at: https://news.mit.edu/2023/autonomous-vehicles-carbon-emissions-0113 [accessed May 2024].
Zhai, Y. and Y. Lee (2019). Investment in renewable energy is slowing down. Here's why. World Economic Forum. Available at: https://www.weforum.org/agenda/2019/09/global-renewable-energy-investment-slowing-down-worry/ [accessed July 2024].
Zheng, J., Y. Dang and U. Assad (2024). Household energy consumption, energy efficiency, and household income – evidence from China. Applied Energy, 353, 122074.
Zhu, J., Z. Luo, T. Sun, W. Li, W. Zhou, X. Wang, X. Fei, H. Tong and K. Yin (2023). Cradle-to-grave emissions from food loss and waste represent half of total greenhouse gas emissions from food systems. Nature food, 4(3), 247-56.