[1] Liu Yefeng, Hu Haitao, Ma Fuyi,. Multi-effect distillation system for seawater desalinationdriven by tidal energy and low grade energy [J]. Journal of Southeast University (English Edition), 2010, 26 (2): 343-345. [doi:10.3969/j.issn.1003-7985.2010.02.044]

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Multi-effect distillation system for seawater desalinationdriven by tidal energy and low grade energy()

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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:

26

Issue:

2010 2

Page:

343-345

Research Field:

Energy and Power Engineering

Publishing date:

2010-06-30

Info

Title:

Multi-effect distillation system for seawater desalinationdriven by tidal energy and low grade energy

Author(s):

Liu Yefeng;  Hu Haitao;  Ma Fuyi

College of Energy and Power Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China

Keywords:

multi-effect distillation for seawater desalination;  tidal energy;  low grade energy;  vacuum

PACS:

TK515

DOI:

10.3969/j.issn.1003-7985.2010.02.044

Abstract:

A multi-effect distillation technology for seawater desalination driven by tidal energy and low grade energy is presented.In the system, tidal energy is utilized to supply power instead of coventional electric pumps during the operation, resulting in the decrease of dependence on steady electric power supply and a reduction in the running costs.According to the technological principle, a testing unit is designed and built.The effects of the feed seawater temperature and the heat source temperature on the unit performance are tested and analyzed.The experimental results show that the fresh water output is 27 kg/h when the heating water temperature is 65 ℃ and the absolute pressure is 25 kPa.The experimental and theoretical analysis results indicate that the appropriate heating water temperature is a key factor in ensuring the steady operation of the system.

References:

[1] Mathioulakis E, Belessiotis V, Delyannis E.Desalination by using alternative energy:review and state-of-the-art[J].Desalination, 2007, 203(1/2/3):346-365.
[2] García-Rodríguez L.Renewable energy applications in desalination:state of the art[J].Solar Energy, 2003, 75(5):381-393.
[3] Abdallah S, Abu-Hilal M, Mohsen M S.Performance of a photovoltaic powered reverse osmosis system under local climatic conditions[J].Desalination, 2005, 183(1/2/3):95-104.
[4] Moreno F, Pinilla A.Preliminary experimental study of a small reverse osmosis wind-powered desalination plant[J].Desalination, 2004, 171(3):257-265.
[5] Sharmila N, Purnima J, Swamy A K, et al.Wave powered desalination system[J].Energy, 2004, 29(11):1659-1672.
[6] Davies P A.Wave-powered desalination:resource assessment and review of technology[J].Desalination, 2005, 186(1/2/3):97-109.
[7] Müller-Holst H, Engelhardt M, Herve M, et al.Solar thermal seawater desalination systems for decentralised use[J].Renewable Energy, 1998, 14(1/2/3/4):311-318.
[8] Al-Kharabsheh S, Goswami D Y.Theoretical analysis of a water desalination system using low-grade solar heat[J].Journal of Solar Energy Engineering, 2004, 126(2):774-780.
[9] Zhao Kuiwen, Liu Yefeng.Theoretical study on multi-effect solar distillation system driven by tidal energy[J].Desalination, 2009, 249(2):566-570.

Memo

Memo:

Biography: Liu Yefeng(1973—), female, doctor, associate professor, yfliu209@163.com.
Foundation items: The Key Basic Program of Science and Technology Commission of Shanghai Municipality(No.08110511700), the Shanghai Leading Academic Discipline Program(No.S30503).
Citation: Liu Yefeng, Hu Haitao, Ma Fuyi.Multi-effect distillation system for seawater desalination driven by tidal energy and low grade energy[J].Journal of Southeast University(English Edition), 2010, 26(2):343-345.

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