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A new process of desalination by air passing through seawater based on humidification–dehumidification process

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  • El-Agouz, S.A.

Abstract

Experimental and theoretical work investigates the principal operating parameters of a proposed desalination process working with an air humidification–dehumidification method. The main objective of this work was to determine the humid air behavior through single stage of desalination system. The experimental work studied the influence of the operating conditions such as the water temperature, the saline water level and the airflow rate on the desalination performance. The experimental results show that, the productivity of the system increases with the increase of the water temperature and the decrease of the airflow rate. The productivity of the system is moderately affected by the water temperature and airflow rate while, slightly affected by the water level. The humidifier efficiency and the thermal efficiency of the desalination system are higher for m˙a=14kga/h at different water temperature and level. Within the studied ranges, the maximum productivity of the system reached to 8.22 kgw/h at 86 °C for water temperature and m˙a=14kga/h. A good agreement achieved with productivity calculations. Finally, correlation for productivity of the system deduced as function of water temperature, water level and airflow rate.

Suggested Citation

  • El-Agouz, S.A., 2010. "A new process of desalination by air passing through seawater based on humidification–dehumidification process," Energy, Elsevier, vol. 35(12), pages 5108-5114.
  • Handle: RePEc:eee:energy:v:35:y:2010:i:12:p:5108-5114
    DOI: 10.1016/j.energy.2010.08.005
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    Citations

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    Cited by:

    1. Tariq, Rasikh & Sheikh, Nadeem Ahmed & Xamán, J. & Bassam, A., 2018. "An innovative air saturator for humidification-dehumidification desalination application," Applied Energy, Elsevier, vol. 228(C), pages 789-807.
    2. Ahmed E. Abu El-Maaty & Mohamed M. Awad & Gamal I. Sultan & Ahmed M. Hamed, 2023. "Innovative Approaches to Solar Desalination: A Comprehensive Review of Recent Research," Energies, MDPI, vol. 16(9), pages 1-31, May.
    3. Li, Chennan & Goswami, D. Yogi & Shapiro, Andrew & Stefanakos, Elias K. & Demirkaya, Gokmen, 2012. "A new combined power and desalination system driven by low grade heat for concentrated brine," Energy, Elsevier, vol. 46(1), pages 582-595.
    4. Giwa, Adewale & Akther, Nawshad & Housani, Amna Al & Haris, Sabeera & Hasan, Shadi Wajih, 2016. "Recent advances in humidification dehumidification (HDH) desalination processes: Improved designs and productivity," Renewable and Sustainable Energy Reviews, Elsevier, vol. 57(C), pages 929-944.
    5. Kabeel, A.E. & Hamed, Mofreh H. & Omara, Z.M. & Sharshir, S.W., 2014. "Experimental study of a humidification-dehumidification solar technique by natural and forced air circulation," Energy, Elsevier, vol. 68(C), pages 218-228.
    6. Sharon, H. & Reddy, K.S., 2015. "A review of solar energy driven desalination technologies," Renewable and Sustainable Energy Reviews, Elsevier, vol. 41(C), pages 1080-1118.
    7. Rajaseenivasan, T. & Shanmugam, R.K. & Hareesh, V.M. & Srithar, K., 2016. "Combined probation of bubble column humidification dehumidification desalination system using solar collectors," Energy, Elsevier, vol. 116(P1), pages 459-469.

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