液相共存成分对氨法脱碳吸收液解吸CO<sub>2</sub>的影响研究

马双忱; 王梦璇; 宋卉卉; 藏斌

液相共存成分对氨法脱碳吸收液解吸CO₂的影响研究

华北电力大学环境学院, 河北保定 071003

基金项目: 国家自然科学基金(21176064).

详细信息

通讯作者:
马双忱(1968-), 男, 辽宁大连人, 教授, 博士, 主要从事燃煤烟气污染控制方面的研究. Tel: 0312-7522714; E-mail: msc1225@163.com.

中图分类号: X701.7
计量
- 文章访问数: 1417
- HTML全文浏览量: 11
- PDF下载量: 629
- 被引次数: 0
出版历程
- 收稿日期: 2012-09-11
- 修回日期: 2012-11-23
- 刊出日期: 2013-04-30

Influence of liquid coexisting components on CO₂ desorption from decarburization absorbing solution by ammonia method

School of Environment, North China Electric Power University, Baoding 071003, China

摘要

摘要: 考察了烟气中SO₂、NO_x和CO₂与氨水的反应机理,研究了模拟解吸液解吸过程中主要液相共存成分,如(NH₄)₂SO₃、(NH₄)₂SO₄、NH₄NO₃、NaCl、NH₄Cl和(NH₄)₂CO₃对CO₂解吸的影响.研究表明,不同液相共存成分、质量分数、pH值、表面张力等对CO₂解吸产生一定影响,大部分液相共存成分的存在,会降低脱碳溶液CO₂的解吸量.质量分数低于10％的液相共存组分对脱碳吸收液CO₂解吸过程的制约作用依次为(NH₄)₂SO₃>NH₄NO₃>(NH₄)₂SO₄>NaCl>(NH₄)₂CO₃.因此,在碳捕集前应对烟气中的杂质成分进行脱除,减少其对解吸液理化特性的影响.
- 氨法 /
- 液相共存成分 /
- 解吸 /
- CO₂
Abstract: The reaction mechanisms of SO₂, NO_x, CO₂ with ammonia solution were described. And the liquid coexisting components related to the desorption of simulated decarburization solution, including (NH₄)₂SO₃, (NH₄)₂SO₄, NH₄NO₃, NaCl, NH₄Cl and (NH₄)₂CO₃, were analyzed. The results show that the desorption of CO₂ is affected by the mass fraction of liquid phase coexistence components, pH of solution and surface tension. Most of liquid coexisting components could reduce CO₂ desorption of decarburization solution. The restraining effect of liquid coexisting components with the mass fraction less than 10% in the decarburization absorbent liquid on CO₂ desorption is as follows: (NH₄)₂SO₃>NH₄NO₃>(NH₄)₂SO₄ >NaCl>(NH₄)₂CO₃. It is necessary to remove the impurities in flue gas before CO₂ capture, because the purities are harmful for CO₂ desorption due to the hazardous effects on the physical and chemical characteristics of decarburization solution.
- ammonia method /
- liquid phase coexistence components /
- desorption /
- CO₂

HTML全文

参考文献(19)

REINER D, LIANG X. Opportunities and hurdles in applying CCS technologies in China-with a focus on industrial stakeholders[J]. Energy Procedia, 2009, 1(1): 4827-4834.

DERKS P W J, VERSTEEG G F. Kinetics of absorption of carbon dioxide in aqueous ammonia solutions[J]. Energy Procedia, 2009, 1: 1139-1146.

PEHNT M, HENKEL J. Life cycle assessment of carbon dioxide capture and storage from lignite power plants[J]. Int J Green Gas Con, 2009, 3(1): 49-66.

IPCC, IPCC Fourth Assessment Report (AR4). Cambridge: Cambridge University Press, 2007.

SCHIMEL D S, HOUSE J I, HIBBARD K A. Recent patterns and mechanisms of carbon exchange by terrestrial ecosystems[J]. Nature, 2001, 414: 169-172.

THE CLIMATE GROUP. CCS in China: Status, challenges and opportunities . Beijing, 2010

RUBIN E S, CHEN C, RAO A B. Cost and performance of fossil fuel power plants with CO₂ capture and storage[J]. Energy Policy, 2007, 35: 4444-4454

IPCC. Carbon dioxide capture and storage[M]. Cambridge: Cambridge University Press, 2005.

PAZUKI G R, PAHLEVANZADEH H and MOHSENI AHOOEI A. Solubility of CO₂ in aqueous ammonia solution at low temperature[J]. Calphad, 2006, 30(1): 27-32.

RESNIK K R, YEH J T, PENNLINE H W. Aqua ammonia process for simultaneous removal of CO₂, SO₂ and NO_x[J]. Envir Technol Manag, 2004, 4(1／2): 89-103.

蒋丽芬, 娄爱娟. 多功能脱硫塔在氨法烟气脱硫中的应用[J]. 化工进展, 2011, 30(12): 2804-2808. (JIANG Li-fen, LOU Ai-juan. Application of multifunctional desulphurization tower in flue gas desulphurization by ammonia method[J]. Chemical Industry and Engineering Progress, 2011, 30(12): 2804-2808.)

AHMED A B,OSAMA I F,NOUSHAD K, SERAJ A G, ANDRZEJ C, JANUSZ L, ANDRZEJ P, BOGDAN T, ZBIGNIEW Z. Electron beam flue gas treatment technology for simultaneous removal of SO₂ and NO_x from combustion of liquid fuels[J]. Fuel, 2008, 28(3): 1446-1452.

WHITTAKER A G, MOUNT A R, HEAL M R. Physical chemistry[M]. Beijing: Science Press, 2001.

PRADHAN M P, JOSHI J B. Absorption of NO_x gas in aqueous NaOH solutions: Selectivity and optimization[J]. AIChE J. 1999, 45(1): 38-50.

THOMAS D,VANDERSCHUREN J. Analysis and prediction of the liquid phase composition for the absorption of nitrogen oxides into aqueous solutions[J].Se Purif Technol, 2000, 18(1): 37-45.

AOKI M, TNAKA H, KOMIYAMA H, NOUE H. Simultaneous absorption of NO and NO₂ into alkaline solutions[J]. J Chem Eng Jpn, 1982, 15(5): 362-367.

DE PAIVA J L, KACHAN G C. Absorption of nitrogen oxides in aqueous solutions in a structured packing pilot column[J]. Chem Eng Process, 2004, 43(7): 941-948.

马双忱, 孙云雪, 赵毅, 方文武, 韩剑, 梁丕昭. 氨水捕集模拟烟气中二氧化碳的实验与理论研究[J].化学学报, 2011, 69(12): 1469-1474. (MA Shuang-chen, SUN Yun-xue, Zhao Yi, FANG Wen-wu, HAN Jian, LIANG Pi-zhao. Experimental and mechanism research on CO₂ capture from simulating flue gas using ammonia solution[J] Acta Chim Sinica, 2011, 69(12): 1469-1474.)

刘少敏. 碳酸平衡规律在水质分析中碱度测定的应用[J]. 淮南职业技术学院学报, 2002, 2(2): 75-77. (LIU Shao-min. Application on the balance of carbonic acid in the alkalinity measurement of the water analysis[J]. Journal of Huainan vocational & technical college, 2002, 2(2): 75-77.

施引文献

资源附件(0)

访问统计

点击查看大图

计量

文章访问数: 1417
HTML全文浏览量: 11
PDF下载量: 629
被引次数: 0

姓名
邮箱
手机号码
标题
留言内容
验证码

留言板

液相共存成分对氨法脱碳吸收液解吸CO₂的影响研究

通讯作者:
马双忱(1968-), 男, 辽宁大连人, 教授, 博士, 主要从事燃煤烟气污染控制方面的研究. Tel: 0312-7522714; E-mail: msc1225@163.com.

计量

Influence of liquid coexisting components on CO₂ desorption from decarburization absorbing solution by ammonia method

计量

目录

2023年《燃料化学学报（中英文）》评优结果公布！

留言板

液相共存成分对氨法脱碳吸收液解吸CO2的影响研究

通讯作者: 马双忱(1968-), 男, 辽宁大连人, 教授, 博士, 主要从事燃煤烟气污染控制方面的研究. Tel: 0312-7522714; E-mail: msc1225@163.com.

计量

出版历程

Influence of liquid coexisting components on CO2 desorption from decarburization absorbing solution by ammonia method

计量

出版历程

目录

2023年《燃料化学学报（中英文）》评优结果公布！

液相共存成分对氨法脱碳吸收液解吸CO₂的影响研究

通讯作者:
马双忱(1968-), 男, 辽宁大连人, 教授, 博士, 主要从事燃煤烟气污染控制方面的研究. Tel: 0312-7522714; E-mail: msc1225@163.com.

Influence of liquid coexisting components on CO₂ desorption from decarburization absorbing solution by ammonia method