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转轮辅助空气取水流程优化及性能分析

本站小编 Free考研考试/2022-02-12

涂壤(), 刘孟丹, 王思琪
北京科技大学 土木与资源工程学院,北京 100083
收稿日期:2020-06-22出版日期:2021-11-28发布日期:2021-12-03

作者简介:涂 壤(1988-),女,河南省固始县人,副教授,主要从事高效能源系统,新型空调技术,热湿传递过程优化的研究.电话(Tel.):13488778653;E-mail: turang@ustb.edu.cn.
基金资助:国家自然科学基金项目(51706015);北京市自然科学基金项目(4212040);中央高校基本科研业务费(FRF-IDRY-19-015)

Optimization and Performance Analysis of Desiccant Wheel-Assisted Atmospheric Water Harvesting Processes

TU Rang(), LIU Mengdan, WANG Siqi
School of Civil and Resource Engineering, University of Science and Technology Beijing, Beijing 100083, China
Received:2020-06-22Online:2021-11-28Published:2021-12-03







摘要/Abstract


摘要: 针对干燥地区淡水缺乏问题,设计一种用于干燥地区的转轮辅助空气取水机组.以小时取水量为指标,在典型工况下优化转轮加湿流程,包括被加湿和被除湿空气流量比、级数及再生温度.基于三级加湿流程计算理想条件和实际热力学循环条件下的系统能耗,并在相同小时取水量前提下,以取水能效为指标,与直接冷却法进行对比.结果表明:该方法取水能效远高于直接冷却法,所研究工况下,小时取水量为15.8~30.9 kg/h,取水能效为1.3~2.1 kg/(kW·h),利用太阳能替代热泵加热后,取水能效可提升至3.3~4.4 kg/(kW·h).所提方法可有效丰富干燥地区淡水资源.
关键词: 空气取水, 多级转轮, 流程优化, 能耗分析, 取水能效
Abstract: To solve the fresh water scarce problem in dry regions, a desiccant wheel-assisted atmospheric water harvesting system is designed. Using water production rate as the index, studies are conducted to find the optimized air handling process under typical ambient conditions, considering influencing factors such as air flow rate ratio, stage numbers, and regeneration temperature. Based on a three-stage-desiccant wheel air humidification system, power consumptions are calculated for ideal and actual thermodynamic processes. Besides, using water production efficiency as the index, at the same water production rate, this system is compared with the traditional air-cooling method. The results show that this system has higher performances than the traditional air-cooling method. Under the discussed working conditions, the water production rate of the proposed system is in the range of 15.8—30.9 kg/h and the water production efficiency is in the range of 1.3—2.1 kg/(kW·h). The water production efficiency can be enhanced to 3.3—4.4 kg/(kW·h)when solar heater is used to replace heat pump systems. The proposed method can effectively enrich fresh water sources in dry regions.
Key words: atmospheric water harvesting, multi-stage desiccant wheels, process optimization, energy consumption analysis, water production efficiency


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