[1]张守兵,王海峰,董闪闪,等.太阳能-溴化锂溶液除湿-再生系统的实验研究[J].郑州大学学报(工学版),2015,36(05):49.[doi:10.3969/ j.issn.1671 -6833.2015.05.011]
 WANG Hai-feng,ZHANG Shou-bing,DONG Shan-shan,et al.Investigation on solar energy-lithium bromide solution desiccant-regeneration system[J].Journal of Zhengzhou University (Engineering Science),2015,36(05):49.[doi:10.3969/ j.issn.1671 -6833.2015.05.011]
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太阳能-溴化锂溶液除湿-再生系统的实验研究()
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《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
36
期数:
2015年05期
页码:
49
栏目:
出版日期:
2015-11-29

文章信息/Info

Title:
Investigation on solar energy-lithium bromide solution desiccant-regeneration system
作者:
张守兵王海峰董闪闪原惠惠李玉夺
郑州大学化工与能源学院,河南郑州450001
Author(s):
WANG Hai-fengZHANG Shou-bingDONG Shan-shanYUAN Hui-huiLl Yu-duo
School of Chemical Engineering and Energy ,Zhengzhou University ,Zhengzhou 450001 ,China
关键词:
太阳能溶液除湿澳化锂正交试验法
Keywords:
solar energy liquid dehumidificationlithium bromide orthogonal experiment method
分类号:
TU831.7
DOI:
10.3969/ j.issn.1671 -6833.2015.05.011
文献标志码:
A
摘要:
建立一种新型的太阳能–溴化锂溶液除湿–再生试验系统,并用正交试验法对影响除湿效果的入口溶液质量分数、入口溶液温度、入口液气比,入口空气相对湿度、入口空气温度、溶液再生温度等诸多因素进行了实验分析.结果表明:对单位除湿量的影响程度由大到小排序为:入口空气相对湿度、入口液气比、入口溶液温度、入口溶液质量分数、入口空气温度.当系统入口液气比为3.5时,系统的除湿效果较好.同时,利用闪蒸原理使系统溶液的再生温度控制在60~70 ℃之间,为太阳能–溴化锂溶液除湿器的设计、使用提供了依据.
Abstract:
Based on the solar energy-lithium bromide solution desiccant-regeneration test system,the influenceof a range of factors at an inlet,such as solution mass fraction,solution temperature,liquid-gas ratio,relativehumidity ratio of air and temperature,on export air moisture content were analyzed with the orthogonal experi-ment method in the experiment. The results show that the influence degree of them on the capacity of dehu-midification from large to small is:relative moisture content air,liquid-gas ratio,liquid solution temperature,solution mass fraction,and the inlet air temperature. When liquid-gas ratio of the inlet was 3. 5,the systemhad a better dehumidification effect.Meanwhile,based on the flash principle,the regeneration temperature ofthe solution system could be controlled within the range of 60 ℃C and 70 ℃. The results provide the basis forthe engineering design and application of the solar energy-lithium bromide solution dehumidifier.

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