22 январ 2026
2MATHEMATICAL MODELING OF THE ATMOSPHERIC WATER HARVESTING PROCESS USING CFD
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1. Shuvo, I. I., Díaz-Marín, C., Christen, M., Lherbette, M., Liem, C., & Boriskina, S. V. (2025). Highefficiency atmospheric water harvesting enabled by ultrasonic extraction. Nature Communications, 16, 9947. 2. Liu, C., Yan, X., Li, S., Deng, B., & Zhao, X. (2025). Window-sized device taps the air for safe drinking water. Nature Water.
3. Performance evaluation of atmospheric water generation in different climates using thermoelectric cooling. (2025). Science Direct. 4. International Atmospheric Water Harvesting Association. (2025). Revolutionary Developments in Atmospheric Water Harvesting (AWH) in 2025: A Detailed Synthesis of Research Insights and Technological Breakthroughs. 5. MIT News. (2025). Ultrasonic device dramatically speeds harvesting of water from the air. 6. Mulchandani, A.; Edberg, J.; Herckes, P.; Westerhoff, P. Seasonal Atmospheric Water Harvesting Yield and Water Quality Using Electric-Powered Desiccant and Compressor Dehumidifiers. Sci. Total Environ. 2022, 825, No. 153966.
7. Alenezi A., Jung H.H., Alabaiadly Y., Experimental and Numerical Analysis of an Atmospheric Water Harvester Using a Thermoelectric Cooler. Atmosphere, 14(2): 276 (2023). 8. Muratçobanoğlu B., Mandev E., Ceviz M.A., Manay E., Afshari F., CFD Simulation and Experimental Analysis of Cooling Performance for Thermoelectric Cooler with Liquid Cooling Heat Sink, Journal of Thermal Analysis and Calorimetry, 149(1): 359-377 (2024). 9. Sultanova Sh., Safarov J., Usenov A., Azimov A., Yana Cahyana. Implementation of mathematical conditions that ensure uniform flow of heat and mass transport along the boundaries of liquid, solid and porous bodies. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems”. AIP Conf. Proc. 3331 P.030027-1–030027-5. https://doi.org/10.1063/5.0306205
10. Sultanova Sh., Mukhiddinov Q., Safarov J., Alimova D., Abdo Hassoun, Nasirova M., Ergasheva Z., Jumaev B. Determination of some characteristics of traditional cheese and evaluatıon of evaluated cheese to food safety. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems”. AIP Conf. Proc. 3331. P.030028-1–030028-7. https://doi.org/10.1063/5.0306235 11. Kandeal, A.W., Joseph, A., Elsharkawy, M., Elkadeem, M.R., Hamada, M.A., Khalil, A., Moustapha, M.E., Sharshir, S.W. (2022). Research progress on recent technologies of water harvesting from atmospheric air: A detailed review. Sustainable Energy Technologies and Assessments, 52: 102000.
12. Liu, S. He, W., Hu, D., Lv, S., Chen, D., Wu, X., Xu, F., Li, S. (2017). Experimental analysis of a portable atmospheric water generator by thermoelectric cooling method. Energy Procedia, 142: 1609-1614. 13. Ajiwiguna, T.A., Kirom, M.R., Suprayogi. (2023). Design, simulation, and optimization of portable atmospheric water generator using vapor compression refrigeration system. Journal of Physics Conference Series, 2673(1): 012001. 14. Safarov J., Sultanova Sh., Samandarov D., Azimov T., Gurbuz Gunes. Implementation of mathematical conditions that ensure unimpeded passage of heat and mass transfer through the boundaries of a solid body during convective drying. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems” AIP Conf. Proc. 3331. P.030025-1–030025-7. https://doi.org/10.1063/5.0306188
15. Safarov J., Sultanova Sh., Ergasheva Z., Yana Cahyana, Aït-Kaddour A., Najafli M., Mukhiddinov Q. Development of dry matter content of the main components of whey. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems” AIP Conf. Proc. 3331. P.030026-1–030026-5. https://doi.org/10.1063/5.0306195 16. Runze, D., Qingfen, M., Hui, L., Gaoping, W. Wei, Y., Guangfu, C., Yifan, C. (2020). Experimental investigations on a portable atmospheric water generator for maritime rescue. Journal of Water Reuse and Desalination, 10(1): 30-44.
1. Shuvo, I. I., Díaz-Marín, C., Christen, M., Lherbette, M., Liem, C., & Boriskina, S. V. (2025). Highefficiency atmospheric water harvesting enabled by ultrasonic extraction. Nature Communications, 16, 9947. 2. Liu, C., Yan, X., Li, S., Deng, B., & Zhao, X. (2025). Window-sized device taps the air for safe drinking water. Nature Water.
3. Performance evaluation of atmospheric water generation in different climates using thermoelectric cooling. (2025). Science Direct. 4. International Atmospheric Water Harvesting Association. (2025). Revolutionary Developments in Atmospheric Water Harvesting (AWH) in 2025: A Detailed Synthesis of Research Insights and Technological Breakthroughs. 5. MIT News. (2025). Ultrasonic device dramatically speeds harvesting of water from the air. 6. Mulchandani, A.; Edberg, J.; Herckes, P.; Westerhoff, P. Seasonal Atmospheric Water Harvesting Yield and Water Quality Using Electric-Powered Desiccant and Compressor Dehumidifiers. Sci. Total Environ. 2022, 825, No. 153966.
7. Alenezi A., Jung H.H., Alabaiadly Y., Experimental and Numerical Analysis of an Atmospheric Water Harvester Using a Thermoelectric Cooler. Atmosphere, 14(2): 276 (2023). 8. Muratçobanoğlu B., Mandev E., Ceviz M.A., Manay E., Afshari F., CFD Simulation and Experimental Analysis of Cooling Performance for Thermoelectric Cooler with Liquid Cooling Heat Sink, Journal of Thermal Analysis and Calorimetry, 149(1): 359-377 (2024). 9. Sultanova Sh., Safarov J., Usenov A., Azimov A., Yana Cahyana. Implementation of mathematical conditions that ensure uniform flow of heat and mass transport along the boundaries of liquid, solid and porous bodies. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems”. AIP Conf. Proc. 3331 P.030027-1–030027-5. https://doi.org/10.1063/5.0306205
10. Sultanova Sh., Mukhiddinov Q., Safarov J., Alimova D., Abdo Hassoun, Nasirova M., Ergasheva Z., Jumaev B. Determination of some characteristics of traditional cheese and evaluatıon of evaluated cheese to food safety. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems”. AIP Conf. Proc. 3331. P.030028-1–030028-7. https://doi.org/10.1063/5.0306235 11. Kandeal, A.W., Joseph, A., Elsharkawy, M., Elkadeem, M.R., Hamada, M.A., Khalil, A., Moustapha, M.E., Sharshir, S.W. (2022). Research progress on recent technologies of water harvesting from atmospheric air: A detailed review. Sustainable Energy Technologies and Assessments, 52: 102000.
12. Liu, S. He, W., Hu, D., Lv, S., Chen, D., Wu, X., Xu, F., Li, S. (2017). Experimental analysis of a portable atmospheric water generator by thermoelectric cooling method. Energy Procedia, 142: 1609-1614. 13. Ajiwiguna, T.A., Kirom, M.R., Suprayogi. (2023). Design, simulation, and optimization of portable atmospheric water generator using vapor compression refrigeration system. Journal of Physics Conference Series, 2673(1): 012001. 14. Safarov J., Sultanova Sh., Samandarov D., Azimov T., Gurbuz Gunes. Implementation of mathematical conditions that ensure unimpeded passage of heat and mass transfer through the boundaries of a solid body during convective drying. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems” AIP Conf. Proc. 3331. P.030025-1–030025-7. https://doi.org/10.1063/5.0306188
15. Safarov J., Sultanova Sh., Ergasheva Z., Yana Cahyana, Aït-Kaddour A., Najafli M., Mukhiddinov Q. Development of dry matter content of the main components of whey. IV International Scientific and Technical Conference “Actual Issues of Power Supply Systems” AIP Conf. Proc. 3331. P.030026-1–030026-5. https://doi.org/10.1063/5.0306195 16. Runze, D., Qingfen, M., Hui, L., Gaoping, W. Wei, Y., Guangfu, C., Yifan, C. (2020). Experimental investigations on a portable atmospheric water generator for maritime rescue. Journal of Water Reuse and Desalination, 10(1): 30-44.