Investigation of adsorption isotherms and rotational speeds for low temperature regeneration of desiccant wheel systems-Reference-Cited by-同舟云学术

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Investigation of adsorption isotherms and rotational speeds for low temperature regeneration of desiccant wheel systems

Published:2018-02 Issue: Volume:86 Page:495-509
ISSN:0140-7007
Container-title:International Journal of Refrigeration
language:en
Short-container-title:International Journal of Refrigeration

Author:

Tu Rang,Hwang Yunho^ORCID,Cao Tao,Hou Mingdong,Xiao Hansong

Funder

National Natural Science Foundation of China

Publisher

Elsevier BV

Subject

Mechanical Engineering,Building and Construction

Reference34 articles.

1. Performance of a desiccant wheel cycle utilizing new zeolite material: experimental investigation;Al-Alili;Energy,2015

2. Experimental investigations on thin polymer desiccant wheel performance;Cao;Int. J. Refrigeration,2014

3. Silica gel/polymer composite desiccant wheel combined with heat pump for air-conditioning systems;Chen;Energy,2016

4. Polymer/alumina composite desiccant combined with periodic total heat exchangers for air-conditioning systems;Chen;Int. J. Refrigeration,2016

5. Optimization of desiccant wheel speed and area ratio of regeneration to dehumidification as a function of regeneration temperature;Chung;Sol. Energy,2009

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1. Application of deep dehumidification technology in low-humidity industry: A review;Renewable and Sustainable Energy Reviews;2024-04

2. Thermal and economical performances analyses of a desiccant wheels-assisted atmospheric water harvesting system used in humid climate regions;Journal of Water Process Engineering;2023-12

3. Performance analyses and optimization studies of desiccant wheel assisted atmospheric water harvesting system under global ambient conditions;Energy;2023-11

4. Performance analyses of an advanced heat pump driven fresh air handling system using active and passive desiccant wheels under various weather conditions;International Journal of Refrigeration;2022-09

5. Prediction models of air outlet states of desiccant wheels using multiple regression and artificial neural network methods based on criterion numbers;Applied Thermal Engineering;2022-03

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