Experimental study to improve the performance of solar still desalination by hydrophobic condensation surface using cold plasma technology-Reference-Cited by-同舟云学术

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Experimental study to improve the performance of solar still desalination by hydrophobic condensation surface using cold plasma technology

Published:2021-06 Issue: Volume:45 Page:101129
ISSN:2213-1388
Container-title:Sustainable Energy Technologies and Assessments
language:en
Short-container-title:Sustainable Energy Technologies and Assessments

Author:

Khanmohammadi Shoaib,Khanjani Sajjad

Publisher

Elsevier BV

Subject

Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment

Reference54 articles.

1. https://water.org/our-impact/water-crisis n.d.

2. The United Nations World Water Development Report 2015: Water for a Sustainable World. 2016.

3. Distilled water production with combination of solar still and thermosyphon heat pipe heat exchanger coupled with indirect water bath heater – Experimental study and thermoeconomic analysis;Rastegar;Appl Therm Eng,2020

4. Performance evaluation of two solar stills of different geometries: tubular versus triangular: experimental study, numerical simulation, and second law analysis;Rahbar;Desalination,2018

5. Application of simultaneous thermoelectric cooling and heating to improve the performance of a solar still: an experimental study and exergy analysis;Shoeibi;Appl Energy,2020

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1. Experimental and analytical examinations of a single-glazed solar still desalination with a spray-feeding water system with an artificial neural network;Applied Thermal Engineering;2024-07

2. Effect of patterned condensation surface on the performance of a newly designed basin-type solar desalination unit;Applied Thermal Engineering;2024-07

3. Comprehensive review of advanced desalination technologies for solar-powered all-day, all-weather freshwater harvesting systems;Renewable and Sustainable Energy Reviews;2024-07

4. Performance enhancement of compound parabolic concentrating vaporized desalination system by spraying and steam heat recovery;Renewable Energy;2024-01

5. How to Survive at Point Nemo? Fischer–Tropsch, Artificial Photosynthesis, and Plasma Catalysis for Sustainable Energy at Isolated Habitats;Global Challenges;2023-12-04

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