Design and implementation of a new portable hybrid solar atmospheric water-generation system

作     者：Nafise Shafeian A.A.Ranjbar Tahereh B.Gorji 

作者机构：Faculty of Mechanical EngineeringNoshirvani University of TechnologyBabolIran Department of Mechanical EngineeringMazandaran Institute of TechnologyBabolIran 

出 版 物：《Clean Energy》 (清洁能源（英文）)

年 卷 期：2022年第6卷第6期

页      面：879-892页

核心收录：

学科分类：08[工学] 0807[工学-动力工程及工程热物理] 

主　　题：renewable energy solar energy hybrid AWG system TEC cooling sorption 

摘      要：During recent years,atmospheric water generation(AWG)has garnered significant attention among researchers as a viable solution to the water-scarcity ***,AWG requires dehumidification,which includes two main principles of refrigeration and *** refrigeration methods,thermoelectric coolers are suitable and,among sorption methods,it is best to utilize desiccant materials with high sorption capacity and low heat *** the present study,a portable hybrid/integrated solar AWG system was designed and tested under realistic conditions of Babol,Iran(36.5387°N,52.6765°E)over four typical summer days between 14 and 31 August *** models(Models A and B)were designed and ***,relative humidity,solar irradiance and water-production data were recorded to assess the system performance(*** ratio between the generated water and consumed power in ml/***)and economically analyse the *** on the results acquired,the maximum water production in the proposed configuration(acquired from Model B)was 2.12 l/m^(2).day at an average relative humidity and a temperature of 52%and 36°C,*** desired AWG system had a system performance of 0.19 ml/***,annual water production of 774.4 l/m^(2),production cost of 0.0246$/l/m^(2)and a payback period of 1.19 years.