机械工程学报 >

2017 , Vol. 53 >Issue 6: 152 - 157

DOI: https://doi.org/10.3901/JME.2017.06.152

可再生能源与工程热物理

新型吸附式盐溶液水分离装置设计与机理研究*

  • 高文忠 ,
  • 王栋 ,
  • 李长松 ,
  • 徐畅达
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  • 上海海事大学商船学院 上海 201306
高文忠,男,1978年出生,博士后,副教授,硕士研究生导师。主要研究方向为盐水分离过程的热质传递机理。E-mail:wzgao@shmtu.edu.cn

网络出版日期: 2017-03-20

基金资助

* 国家自然科学基金(50976064)和上海市自然科学基金(16ZR1414700)资助项目; 20160324收到初稿,20160923收到修改稿;

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Design and Experamental Research of Novel Adsorbent Water Separation Device for Salt Solution Treatment

  • GAO Wenzhong ,
  • WANG Dong ,
  • LI Changsong ,
  • XU Changda
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  • Merchant Marine College, Shanghai Maritime University, Shanghai 201306

Online published: 2017-03-20

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摘要

为了在盐水分离领域更高效地利用太阳能、地热及发动机余热等低温热源,参考传统海水淡化装置,设计一种将喷雾闪蒸、热管传热与固体吸附耦合集成的新型吸附式盐溶液水分离装置,并对氯化钠含量为3%的盐溶液进行水分离试验,结果表明:溶液经雾化闪蒸后温度骤降,接触热管冷端后吸收大量热量蒸发,该装置可利用40~100 ℃的低温热源,单级可分离盐溶液中18%~60%的水分;热源温度是影响分离率的关键因素;吸附剂的吸附作用在相同热源温度下可大幅降低闪蒸室蒸发压力,提高过热度;整个吸附及脱附周期内压力呈规律性变化,不仅受吸附床切换而骤变,还受闪蒸室热源与吸附剂内冷却水温度的变化影响;降低冷却水温度可明显降低蒸发室平衡压力,保证蒸发器内液滴持续蒸发,提高分离率。

关键词: 吸附; 盐水分离; 热管; 闪蒸

本文引用格式

高文忠 , 王栋 , 李长松 , 徐畅达 . 新型吸附式盐溶液水分离装置设计与机理研究*[J]. 机械工程学报, 2017 , 53(6) : 152 -157 . DOI: 10.3901/JME.2017.06.152

Abstract

In order to use low temperature heat source such as solar energy,geothermal and engine waste heat more efficiently,a novel salt solution separation device referenced traditional desalination device is developed. It couples the spray flash,heat pipe and solid adsorption technologies,and artificial seawater with 3% saltiness is experimented. The results show that: the temperature of atomized solution droplet drops after flashing,then massive heat is absorbed when the droplets contact heat pipe,low temperature heat source of 40-100 ℃ can be used and the water separation rate ranges from 18 % to 60%; the heat source temperature is the key factor of separation rate; absorption reduces pressure of flash chamber significantly with the same heat source temperature,namely improves the degree of the superheat; the pressure changes regularly during the whole cycle of absorption,it changes sharply when adsorption bed switches and it is influenced by the heat source and cooling water temperature; as the temperature of cooling water decreased,the equilibrium pressure of evaporation chamber dropped obviously,this ensures the continuous evaporation of liquid droplets in the evaporator and increases the separation rate.

Key words: adsorption; salt-water separation; heat pipe; flash

参考文献

[1] 乔世珊, 田玉龙, 史晓明. 海水淡化技术及应用[M]. 北京:中国水利水电出版社,2007.
 QIAO Shishan,TIAN Yulong,SHI Xiaoming. Desalination technology and application[M]. Beijing:China Water Power Press, 2007.
 [2] 朱玉兰. 海水淡化技术的研究进展[J]. 能源研究与信息,2010,26(2):72-78.
 ZHU Yulan. Advances in the technologies for seawater desalination[J]. Energy Research and Information, 2010,26(2):72-78.
 [3] 杨新乐,黄菲菲,李惟慷,等. 考虑换热温差的新型有机朗肯循环-分流闪蒸系统热力性能分析[J]. 机械工程学报,2015,51(8):151-157.
 YANG Xinle,HUANG Feifei,LI Weikang,et al. Thermal performance analysis on the new organic rankine cycle-bypass flash system considering the temperature difference of heat exchanger[J]. Journal of Mechanical Engineering,2015,51(8):151-157.
 [4] SAURY D. Flash evaporation from a water pool:Influence of the liquid height and of the depressurization rate[J]. International Journal of Thermal Science,2005, 44:953-965.
 [5] BOUROUNI K,MARTIN R,TADRIST L,et al. Modelling of heat and mass transfer in a horizontal-tube falling-film evaporator for water desalination[J]. Desalination,1998:165-184.
 [6] KIM C N,KYAW T,KIM Y,et al. Adsorption desalination:An emerging low-cost thermal desalination method[J]. Desalination,2013,308(2):161-179.
 [7] AHMAD A A,HISHAM ,HISHAM E D. Water–zeolite adsorption heat pump combined with single effect evaporation desalination process[J]. Renewable Energy, 2001,24(1):91-111.
 [8] 曾辉,王永青. 吸附式海水淡化技术及其研究和发展状况[J]. 机电技术,2012,12(2):25-26.
 ZENG Hui,WANG Yongqing. Research and development of adsorption desalination technology[J]. Mechanical & Electrical Technology,2012,12(2):25-26.
 [9] 武卫东,张华. 工程机械余热驱动冷管型吸附空调的运行特性[J]. 机械工程学报,2006,42(9):61-66.
 WU Weidong,ZHANG Hua. Running characteristics of adsorption cooling tube air-conditioner powered by waste heat of engineering trucks[J]. Chinese Journal of Mechanical Engineering,2006,42(9):61-66.    
[10] 李廷贤,王如竹,王丽伟,等. 余热驱动多功能热 管型吸附制冰机组的性能[J]. 机械工程学报,2008,44(7):101-105.
 LI Tingxian,WANG Ruzhu,WANG Liwei,et al. Performance of a multifunctional heat pipe type adsorption ice maker machine driven by waste heat.[J] Chinese Journal of Mechanical Engineering,2008,44(7):101-105.
[11] FERRANDI C,IORIZZO F. Lumped parameter model of sintered heat pipe:Transient numerical analysis and validation[J]. Applied Thermal Engineering,2013(50):1280-1290.
[12] 杨茜. 热管式海水淡化装置开发与研究[D]. 青岛:青岛科技大学,2014.
 YANG Qian. Research and development of heat pipe desalination plant[D]. Qingdao:Qingdao University of Science and Technology,2014.
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