Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries
This research proposed an integrated eco-system for conditioning an outdoor public area (park or sport) in a hot-humid environment. It is accomplished by the use of a dehumidifier control machine driven by renewable solar power; after which air is distributed throughout a ducting system. The system...
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Polish Society of Ecological Engineering (PTIE)
2022
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oai:doaj.org-article:13486c3e708d4189b0f9872c2001eca62021-12-01T13:20:42ZIntegrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries2299-899310.12911/22998993/143785https://doaj.org/article/13486c3e708d4189b0f9872c2001eca62022-01-01T00:00:00Zhttp://www.jeeng.net/Integrated-Eco-Friendly-Outdoor-Cooling-System-Case-Study-of-Hot-Humid-Climate-Countries,143785,0,2.htmlhttps://doaj.org/toc/2299-8993This research proposed an integrated eco-system for conditioning an outdoor public area (park or sport) in a hot-humid environment. It is accomplished by the use of a dehumidifier control machine driven by renewable solar power; after which air is distributed throughout a ducting system. The system will harvest moisture from the air, utilize it for drinking water production and plants irrigation as well as deliver low temperature, low humidity ratio air for controlling the outdoor air, which results in a comfortable outdoor relative humidity and temperature (24°C, 50% RH). The Integrated Eco-Friendly Cooling System (IEFCS) is a sustainable self-dependent in energy and water sources. It provides a positive impact on the microclimate of the site, assists in night illumination, supplies water for drinking, plant irrigation, and allows people to enjoy a thermally comfortable atmosphere. The advantages include low maintaining cost as well as the possibility to be scaled and implemented anywhere according to the selected location.Mohammad Bani KhalidNabil BeithouM.A.Sh. Al-TaaniArtur AndruszkiewiczAli AlahmerGabriel BorowskiSameh AlsaqoorPolish Society of Ecological Engineering (PTIE)articlehot climate countriesopen areaair conditioningmicro-climatehumidity controlrecreation areasEnvironmental technology. Sanitary engineeringTD1-1066Environmental sciencesGE1-350ENJournal of Ecological Engineering, Vol 23, Iss 1, Pp 64-72 (2022) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
hot climate countries open area air conditioning micro-climate humidity control recreation areas Environmental technology. Sanitary engineering TD1-1066 Environmental sciences GE1-350 |
| spellingShingle |
hot climate countries open area air conditioning micro-climate humidity control recreation areas Environmental technology. Sanitary engineering TD1-1066 Environmental sciences GE1-350 Mohammad Bani Khalid Nabil Beithou M.A.Sh. Al-Taani Artur Andruszkiewicz Ali Alahmer Gabriel Borowski Sameh Alsaqoor Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries |
| description |
This research proposed an integrated eco-system for conditioning an outdoor public area (park or sport) in a hot-humid environment. It is accomplished by the use of a dehumidifier control machine driven by renewable solar power; after which air is distributed throughout a ducting system. The system will harvest moisture from the air, utilize it for drinking water production and plants irrigation as well as deliver low temperature, low humidity ratio air for controlling the outdoor air, which results in a comfortable outdoor relative humidity and temperature (24°C, 50% RH). The Integrated Eco-Friendly Cooling System (IEFCS) is a sustainable self-dependent in energy and water sources. It provides a positive impact on the microclimate of the site, assists in night illumination, supplies water for drinking, plant irrigation, and allows people to enjoy a thermally comfortable atmosphere. The advantages include low maintaining cost as well as the possibility to be scaled and implemented anywhere according to the selected location. |
| format |
article |
| author |
Mohammad Bani Khalid Nabil Beithou M.A.Sh. Al-Taani Artur Andruszkiewicz Ali Alahmer Gabriel Borowski Sameh Alsaqoor |
| author_facet |
Mohammad Bani Khalid Nabil Beithou M.A.Sh. Al-Taani Artur Andruszkiewicz Ali Alahmer Gabriel Borowski Sameh Alsaqoor |
| author_sort |
Mohammad Bani Khalid |
| title |
Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries |
| title_short |
Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries |
| title_full |
Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries |
| title_fullStr |
Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries |
| title_full_unstemmed |
Integrated Eco-Friendly Outdoor Cooling System – Case Study of Hot-Humid Climate Countries |
| title_sort |
integrated eco-friendly outdoor cooling system – case study of hot-humid climate countries |
| publisher |
Polish Society of Ecological Engineering (PTIE) |
| publishDate |
2022 |
| url |
https://doaj.org/article/13486c3e708d4189b0f9872c2001eca6 |
| work_keys_str_mv |
AT mohammadbanikhalid integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries AT nabilbeithou integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries AT mashaltaani integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries AT arturandruszkiewicz integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries AT alialahmer integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries AT gabrielborowski integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries AT samehalsaqoor integratedecofriendlyoutdoorcoolingsystemcasestudyofhothumidclimatecountries |
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