[1]刘周明,盛遵荣,叶松,等.高温吸附热泵中传质通道强化蒸汽生成的实验研究[J].郑州大学学报(工学版),2018,39(06):69-73.[doi:10.13705/j.issn.1671-6833.2017.06.027]
Liu zhou Ming,ShengZunRong,zhi-min yao,et al.Experimental Study on the Enhancement of Steam Generation by Utilizing Mass Transfer Passage in a High-temperature Adsorption Heat Pump[J].Journal of Zhengzhou University (Engineering Science),2018,39(06):69-73.[doi:10.13705/j.issn.1671-6833.2017.06.027]
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高温吸附热泵中传质通道强化蒸汽生成的实验研究(
)
《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]
- 卷:
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39
- 期数:
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2018年06期
- 页码:
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69-73
- 栏目:
-
- 出版日期:
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2018-10-24
文章信息/Info
- Title:
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Experimental Study on the Enhancement of Steam Generation by Utilizing Mass Transfer Passage in a High-temperature Adsorption Heat Pump
- 作者:
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刘周明; 盛遵荣; 叶松; 姚志敏; 薛冰; 魏新利
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1.郑州大学化工与能源学院,河南郑州,450001;2.郑州大学化工与能源学院,河南郑州450001;3.郑州大学热能系统节能技术与装备教育部工程研究中心,河南郑州450001
- Author(s):
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Liu zhou Ming; ShengZunRong; zhi-min yao; in the form Xue Bing; Wei Xin
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1. Zhengzhou university institute of chemical industry and energy, zhengzhou, henan province, 450001; 2. Zhengzhou university institute of chemical industry and energy, henan zhengzhou 450001; 3. Zhengzhou university thermal system energy saving technology and equipment engineering research center of Ministry of Education, zhengzhou, henan, 450001
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- 关键词:
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- Keywords:
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Mass transfer channel; The adsorption heat pump; Non-equilibrium adsorption; Superheated steam; Generation rate
- DOI:
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10.13705/j.issn.1671-6833.2017.06.027
- 文献标志码:
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A
- 摘要:
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为了强化直接接触换热法高温吸附热泵生成过热蒸汽的效率,在反应器内分别设置了通道直径为反应器内径的10%和20%的传质通道。实验结果表明:与未加通道的实验结果作对比,加装10%内径的通道后,出口蒸汽温度的最高温度提高23℃,达236℃,蒸汽的生成量增加26%,蒸汽沸石质量比平均值增大14%,蒸汽生成的时间增加1.8%;加装20%内径的通道后,出口蒸汽温度的最高温度提高11℃,达202℃,蒸汽的生成量增加5.6%,蒸汽沸石质量比平均值几乎不变,蒸汽生成的时间增加25.3%,即大尺寸通道的蒸汽生成速率较快,小尺寸通道的蒸汽生成温度和质量较高。
- Abstract:
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Mass transfer passage was used inside the packed bed of enchance steam generation efficiency in a novel adsorption heat pump by utilizing a direct-contact heat exchange method. Ratios of the passage to inner diameter of the packed bed were 10% and 20%. Experimental results from 10% passage showed that the maximum generated steam temperature reached 236℃, which increased by 23ºc compared to that without passage. Meanwhile the mass of steam mass increased by 26%, mass ratio of steam to dry zeolite(ms,out/mz) increased by 14%, and steam generation time increased by 1.8%. Experimental results from 20% passage showed that the maximum steam temperature only increased by 11ºc; steam mass increased by 5.6%, ms,out/mzn was almost unchanged; steam generation time increased by 25.3%. Superheated steam generation rate was faster for large passage, while the maximum temperature and mass of generated steam were higher for small passage.
更新日期/Last Update:
2018-10-27