膜吸收法净化低浓度甲醛和氨气

姚志良; 叶宇; 曹鑫悦; 刘伟伟; 马永亮

环境工程学报

膜吸收法净化低浓度甲醛和氨气

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姚志良, 叶宇, 曹鑫悦, 刘伟伟, 马永亮. 膜吸收法净化低浓度甲醛和氨气[J]. 环境工程学报, 2014, 8(1): 294-297.

引用本文:

姚志良, 叶宇, 曹鑫悦, 刘伟伟, 马永亮. 膜吸收法净化低浓度甲醛和氨气[J]. 环境工程学报, 2014, 8(1): 294-297.

Yao Zhiliang, Ye Yu, Cao Xinyue, Liu Weiwei, Ma Yongliang. Purification of simulated low-concentration formaldehyde and ammonia by membrane absorption method[J]. Chinese Journal of Environmental Engineering, 2014, 8(1): 294-297.

Citation:

Yao Zhiliang, Ye Yu, Cao Xinyue, Liu Weiwei, Ma Yongliang. Purification of simulated low-concentration formaldehyde and ammonia by membrane absorption method[J]. Chinese Journal of Environmental Engineering, 2014, 8(1): 294-297.

膜吸收法净化低浓度甲醛和氨气

1.
北京工商大学环境科学与工程系, 北京 100048
2.
清华大学环境学院, 北京 100084
基金项目:
学科与研究生教育—重点学科—环境工程（PXM2012_014213_000042）
中图分类号: X701

Purification of simulated low-concentration formaldehyde and ammonia by membrane absorption method

1.
Department of Environmental Science and Engineering, Beijing Technology and Business University, Beijing 100048, China
2.
School of Environment, Tsinghua University, Beijing 100084, China
Fund Project:

摘要: 基于膜吸收技术自制双层平板式膜吸收器，搭建净化低浓度甲醛和氨气污染模拟系统，考察不同膜结构参数、进气流量、吸收剂流量等因素对其净化效果的影响。结果表明，聚偏氟乙烯PVDF对低浓度甲醛和氨气的净化效率高于聚四氟乙烯PTFE。对同一材质膜，随着膜孔隙率的增大，甲醛和氨气的净化率呈上升趋势。随着进气流量的增加，甲醛和氨气的净化效率降低；而吸收剂流量对其净化效率影响不大。对于所有实验条件，平均膜孔径为0.22 μm的PVDF 4#在进气流量ug=120 L/h时，甲醛和氨气的净化效率最高，分别达94.7%和96.3%。
- 膜吸收法 /
- 甲醛 /
- 氨气 /
- 净化
Abstract: Based on membrane absorption method, a double plate type membrane absorber was developed, then a simulation test system of purification for low-concentration formaldehyde and ammonia was set up. Using the test system, the influences of parameters of membrane, gases flow and absorbent flow on the removal efficiency of formaldehyde and ammonia were studied. The results show that the removal efficiency of PVDF membranes on HCHO and NH3 is higher than that of PTFE membranes. As for the same type of membrane, the purification efficiency for HCHO and NH3 increases with the increase of size of the hole of the membrane. The purification efficiency for HCHO and NH3 decreases with the increase of gases flow of inlet. The flow of absorbent has no important impacts on the removal effects. As for all tested conditions, the removal efficiencies of HCHO and NH3 for PVDF 4# (hole size of 0.22 μm) are the highest when the gases flow of inlet is 120 L/H, and reach 94.7% and 96.3%, respectively.
- membrane absorption method /
- formaldehyde /
- ammonia /
- purification

[1]	薛生国,马亚梦,李丽劼,等. 城市装修住宅室内空气甲醛污染调查分析. 土木建筑与环境工程,2011,33(3):124-128 Xue S.G.,Ma Y. M.,Li L. J., et al. Investigation of indoor formaldehyde pollution in newly decorative residence. Journal of Civil, Architectural and Environmental Engineering,2011,33(3):124-128(in Chinese)
[2]	Dasgupta P. K., Li J. Z., Zhang G. F. Summertime ambient formaldehyde in five U. S. metropolitan areas:Nashville,Atlanta,Houston,Philadelphia and Tampa. Environ-mental Science & Technology,2005,39(13):4767-4783
[3]	吴沛,姚以亮. 西安市民用建筑室内氨污染现状分析. 科技情报开发与经济,2012,22(16):123-125 Wu P.,Yao Y. L. Studies on civil buildings' indoor ammonia pollution status in Xi'an city. Sci-tech Information Development and Economy,2012,22(16):123-125(in Chinese)
[4]	Lu J. G,Zhang Y. F. Effects of activators on mass-transfer enhancement in a hollow fiber contactor using activated alkanolamine solutions. Journal of Membrane Science,2007,289(1-2): 138-149
[5]	孙承贵. 中空纤维致密膜基吸收脱除CO₂研究. 北京:中国科学院研究生院硕士学位论文,2005,5 Sun C. G. Study on non-porous hollow fiber contactors for CO₂removal. Beijing:Master Dissertation of Chinese Academy of Sciences,2005,5 (in Chinese)
[6]	邢宪锋,赵会军,王树立.中空纤维膜吸收法脱除H₂S的实验研究.石油与天然气化工,2008,37(3):199-201 Xing X. F.,Zhao H. J.,Wang S. L. Experimental study on membrane gas absorption for H₂S removal using hollow fiber membrane. Chemical Engineering of Oil and Gas,2008,37(3):199-201 (in Chinese)
[7]	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.环境科学与技术,2003,26 (5):8-10 Zhang H. F., Zhang W.D., Zhang Z. T., et al. Experimental study on membrane gas absorption for SO₂ removal using hollow fiber membrane. Environmental Science & Technology,2003,26(5):8-10(in Chinese)
[8]	Boucif N., Favre E., Roizard D. et al. Hollow fiber membrane contactor for hydrogen sulfide odor control.American Institute of Chemical Engineers,2008,54(1):122-131
[9]	Park H. H.,Deshwal B. R.,Jo H. D.,et al. Absorption of nitrogen dioxide by PVDF hollow fiber membranes in a gas-liquid contactor. Desalination,2009,243(1-3):52-64
[10]	李睿. 膜吸收净化含苯废气及其传质性能的研究.南京:南京理工大学博士学位论文,2010 Li R.,Wang L. J. Study on the removal of benzene from waste gas using membrane-based gas absorption process and the mass transfer properties. Nanjing:Doctor Dissertation of Nanjing University of Seience and Technology,2010 (in Chinese)
[11]	朱振中,王志良,汪德成. 膜吸收法处理高浓度甲醛废气资源化技术研究.环境工程学报, 2009,3(8):1473-1477 Zhu Z. Z.,Wang Z. L.,Wang D. C. Treatment and resource utilization of high concentration form aldehyde with membrane absorption. Chinese Journal of Environmental Engineering, 2009,3(8):1473-1477 (in Chinese)
[12]	齐麟. 膜吸收法废水脱氨过程的研究.天津:天津工业大学硕士学位论文,2008 Qi L.Study of membrane absorption process on separating ammonia from wastewater. Tianjin: Master Dissertation of Tianjin Polytechnic University,2008(in Chinese)
[13]	吴沛,姚以亮. 西安市民用建筑室内氨污染现状分析. 科技情报开发与经济,2012,22(16):123-125 Wu P.,Yao Y. L. Studies on civil buildings' indoor ammonia pollution status in Xi'an city. Sci-tech Information Development and Economy,2012,22(16):123-125(in Chinese)
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姚志良, 叶宇, 曹鑫悦, 刘伟伟, 马永亮. 膜吸收法净化低浓度甲醛和氨气[J]. 环境工程学报, 2014, 8(1): 294-297.

引用本文:

姚志良, 叶宇, 曹鑫悦, 刘伟伟, 马永亮. 膜吸收法净化低浓度甲醛和氨气[J]. 环境工程学报, 2014, 8(1): 294-297.

Citation:

膜吸收法净化低浓度甲醛和氨气

1. 北京工商大学环境科学与工程系, 北京 100048
2. 清华大学环境学院, 北京 100084

收稿日期: 2012-04-01

基金项目:

学科与研究生教育—重点学科—环境工程（PXM2012_014213_000042）

关键词:

膜吸收法 /
甲醛 /
氨气 /
净化

摘要: 基于膜吸收技术自制双层平板式膜吸收器，搭建净化低浓度甲醛和氨气污染模拟系统，考察不同膜结构参数、进气流量、吸收剂流量等因素对其净化效果的影响。结果表明，聚偏氟乙烯PVDF对低浓度甲醛和氨气的净化效率高于聚四氟乙烯PTFE。对同一材质膜，随着膜孔隙率的增大，甲醛和氨气的净化率呈上升趋势。随着进气流量的增加，甲醛和氨气的净化效率降低；而吸收剂流量对其净化效率影响不大。对于所有实验条件，平均膜孔径为0.22 μm的PVDF 4#在进气流量ug=120 L/h时，甲醛和氨气的净化效率最高，分别达94.7%和96.3%。

English Abstract

Purification of simulated low-concentration formaldehyde and ammonia by membrane absorption method

1. Department of Environmental Science and Engineering, Beijing Technology and Business University, Beijing 100048, China
2. School of Environment, Tsinghua University, Beijing 100084, China

Received Date: 2012-04-01

Fund Project:

Keywords:

Abstract: Based on membrane absorption method, a double plate type membrane absorber was developed, then a simulation test system of purification for low-concentration formaldehyde and ammonia was set up. Using the test system, the influences of parameters of membrane, gases flow and absorbent flow on the removal efficiency of formaldehyde and ammonia were studied. The results show that the removal efficiency of PVDF membranes on HCHO and NH3 is higher than that of PTFE membranes. As for the same type of membrane, the purification efficiency for HCHO and NH3 increases with the increase of size of the hole of the membrane. The purification efficiency for HCHO and NH3 decreases with the increase of gases flow of inlet. The flow of absorbent has no important impacts on the removal effects. As for all tested conditions, the removal efficiencies of HCHO and NH3 for PVDF 4# (hole size of 0.22 μm) are the highest when the gases flow of inlet is 120 L/H, and reach 94.7% and 96.3%, respectively.

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膜吸收法净化低浓度甲醛和氨气

Purification of simulated low-concentration formaldehyde and ammonia by membrane absorption method

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膜吸收法净化低浓度甲醛和氨气

English Abstract

Purification of simulated low-concentration formaldehyde and ammonia by membrane absorption method

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