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All issues Volume 694 (2026) E3S Web Conf., 694 (2026) 02007 References
Open Access
Issue
E3S Web Conf.
Volume 694, 2026
Third International Conference on Green Energy, Environmental Engineering and Sustainable Technologies 2025 (ICGEST 2025)
Article Number 02007
Number of page(s) 10
Section Ecology and Eco Systems
DOI https://doi.org/10.1051/e3sconf/202669402007
Published online 16 February 2026
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  2. Alshammari, N.K. An examination of the exergy and energy of a solar powered absorption cooling systems in the Riyadh climate. Journal of Engineering Research. 2025 Mar 19. [Google Scholar]
  3. Aly, W.I., Abdo, M., Bedair, G., Hassaneen, A.E. Thermal performance of a diffusion absorption refrigeration system driven by waste heat from diesel engine exhaust gases. Applied Thermal Engineering. 2017 Mar 5;114:621–630. [Google Scholar]
  4. Mohammadi, K., Khaledi, M.S., Powell, K. A novel hybrid dual-temperature absorption refrigeration system: Thermodynamic, economic, and environmental analysis. Journal of cleaner production. 2019 Oct 1;233:1075–1087. [Google Scholar]
  5. Ali, F.H., Al-Amir, Q.R., Hamzah, H.K., Alahmer, A. Unveiling the potential of solar cooling technologies for sustainable energy and environmental solutions. Energy Conversion and Management. 2024 Dec 1;321:119034. [Google Scholar]
  6. Patil, B., Salunke, N., Diware, V., Raheman, A.R.S., Ansari, K.B. Stability assessment of emerging phase change materials for solar thermal storage in absorption refrigeration: A review. International Journal of Green Energy. 2025 Jan 25;22(2):253–280. [Google Scholar]
  7. Jassim, L., Mnati, H.M., Abd Ali, F.A., Majdi, H.S. Photovoltaic-Driven Cooling Systems: Advances, Challenges, and Future Directions. Al-Rafidain Journal of Engineering Sciences. 2025 Jan 23:191–209. [Google Scholar]
  8. ElBahloul, A.A., Zeidan, E.S., El-Sharkawy, I.I., Hamed, A.M., Radwan, A. Experimental and numerical investigation of multistage sorption energy storage system. Applied Thermal Engineering. 2023 Jan 5;218:119313. [Google Scholar]
  9. Ajay, A., Gill, R.S., Singh, R.P. Performance Evaluation of LiBr-H2O Vapours Absorption System for an Office Building Cooling. Adv. Res. 2020 Jun. 24;21(7):9–21. [Google Scholar]
  10. Alfaris, A., Akroot, A., Alqaed, S., Almehmadi, F.A. Performance analysis of integrated solar and natural gas combined cycle power plants in high solar potential regions. Scientific Reports. 2025 Mar 17;15(1):9181. [Google Scholar]
  11. Singh, D.V., Verma, T.N. Energy and exergy analysis of LiBr-H2O-operated vapour absorption refrigeration system using the ANN approach. International Journal of Ambient Energy. 2022 Dec 31;43(1):905–917. [Google Scholar]
  12. Zhou, T., Liu, J., Ren, J., Yang, S. Comprehensive assessment of a coupled LiBr/H2O absorption refrigeration/ORC system for low-grade residual heat recovery based on advanced exergy and exergo-economic analysis. ACS Sustainable Chemistry & Engineering. 2022 Apr 27;10(18):5825–5837. [Google Scholar]
  13. Yadav, J.S., Rao, C.M., Kumar, V.V. Performance of Vapour Absorption Refrigeration System using Waste Heat Source. i-Manager's Journal on Mechanical Engineering. 2020 May 1;10(3):45. [Google Scholar]
  14. Dubey, A., Arora, A. Solar-Driven Vapour Absorption (LiBr-H2O) Cooling Systems for Commercial Buildings: A Parametric Analysis. InInternational Conference on Recent Advancements in Mechanical Engineering 2020 Jul 8 (pp. 187–198). Singapore: Springer Nature Singapore. [Google Scholar]
  15. Staudt, S., Unterberger, V., Gölles, M., Wernhart, M., Rieberer, R., Horn, M. Control-oriented modeling of a LiBr/H2O absorption heat pumping device and experimental validation. Journal of Process Control. 2023 Aug 1;128:103024. [Google Scholar]

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