海水烟气脱硫膜吸收单元及工艺研究 |
作者:陈颖,关毅鹏,张召才,郭春刚,刘国昌,李晓明 |
单位: 国家海洋局天津海水淡化与综合利用研究所 |
关键词: 中空纤维膜;膜接触器;海水烟气脱硫;膜吸收 |
DOI号: |
分类号: TQ028.8 X701.3 |
出版年,卷(期):页码: 2011,31(5):58-64 |
摘要: |
以海水作为吸收剂,采用自行研制的中空纤维管式膜接触器作为吸收单元,进行膜吸收法海水烟气脱硫过程模拟试验研究.主要考察膜接触器结构、膜填充密度、膜吸收单元工艺方式、模拟烟气SO2浓度、温度、气液流量等因素对脱硫效率的影响.结果表明:提高烟气温度、海水流量、膜接触器内气液分布均匀程度、气液相有效接触面积,增加膜吸收级数,均有利于提高脱硫率;烟气流量及SO2浓度的增大不利于SO2的脱除;烟气流经管程的气液流程方式利于提高脱硫率,但是气阻大,进气压力高,工程化应用难以实现.提高膜材料传质特性和优化设计膜接触器结构是提高膜吸收法烟气脱硫效率的根本途径. |
A comprehensive investigation of flue gas desulfurization was carried out by hydrophobic polypropylene hollow fiber membrane contactor with seawater as absorbent. The effect of various factors, such as membrane packing density, flow path of gas and fluid, concentration of SO2, gas temperature, configuration and connecting form of membrane contactors on desulfurization efficiency were studied. It is beneficial to absorption efficiency of SO2, with the increase of flue gas temperature, seawater flux, the contacting area between gas and seawater, stage numbers of membrane contactors, as well as the distribution degree of uniformity of gas and liquid in the membrane contactor. The absorption process could be enhanced when the flue gas was fed into the lumen side of the membrane module, whereas the gas pressure was too high for the pracrtical utilization. The module configuration plays an important role in improving the mass transferring. The development of new module of membrane contactor and membrane structure/materials for improving mass transferring would be fundamental factor to increase the absorption efficiency. |
基金项目: |
2008海洋公益性行业科研专项经费项目(200805033) |
作者简介: |
陈 颖(1960-),女,吉林长春人,学士,教授级高工,从事膜技术研发及应用.E-mail:chy786@tom.com |
参考文献: |
[1] Zhang Q,Cussler E L.Micro porous hollow fiber for gas absorption I-Mass transfer in the liquid [J].J Membr Sei.,1985,23(3):321-333. [2] Zhang Q,Cussler E L.Microporous hollow fiber for gas absorption II-Mass transfer across the membrane [J].J Membr Sei.,1985,23(3):333-345. [3] Nii S,Takeuchi H.Removal of CO2 and/or SO2 From gas streams by a membrane absorption- method[J].Gas Separ.Purif.,1994,18(2):107-l14. [4] 熊丹柳,邓修.含浸液膜烟气脱硫试验[J].高等化学工程学报,1998,12(1):133-38. [5] 潘江.柠檬酸盐法处理低浓度二氧化硫烟气的研究[D].西安建筑科技大学硕士学位论文,2001.3. [6] 金美芳,曹义鸣,邢丹敏等.膜吸收法脱除二氧化硫[J].膜科学与技术,1999,19(30):45-47. [7] 薛娟琴,王召启,洪涛等.中空纤维膜吸收烟气二氧化硫[J].广东化工,2005,6:8-10. [8] Xueyan Sun,Fangang Meng, Fenglin Yang. Application of seawater to enhance SO2 removal from simulated flue gas through hollow fiber membrane[J].Journal of Membrane Science.2008, 312:6–14. [9] L.A. Bromley, Use of sea water to scrub sulfur dioxide from stack gases, Int. J. Sulfur Chem., Part B 7 (1972) 77–84. [10]郭占虎,史季芬,徐静年等.中空纤维膜组件分离酸性气体[J].化工冶金,2000,21(3):268- 273. [11]张慧峰,张卫东,张泽廷等.中空纤维膜吸收法脱除SO2的实验研究[J].环境科学与技术,2003,26 (5):8-10. |
服务与反馈: |
【文章下载】【加入收藏】 |
《膜科学与技术》编辑部 地址:北京市朝阳区北三环东路19号蓝星大厦 邮政编码:100029 电话:010-64426130/64433466 传真:010-80485372邮箱:mkxyjs@163.com
京公网安备11011302000819号