OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

煤炭工程 2014

燃煤电厂CO2捕集封存与利用技术综述

DOI: 10.11799/ce201403028, PP. 90-92

纪龙,曾鸣

Keywords: 燃煤电厂,二氧化碳,氨水,矿石碳化

Full-Text Cite this paper Add to My Lib

Abstract:

目前全球气候变暖已是不争的事实，二氧化碳排放控制技术正受到越来越多的关注。本文全面介绍了近期国内外燃煤电厂二氧化碳捕集封存与利用技术的研究进展，对以氨水作为吸收剂的化学吸收法、二氧化碳碳化封存技术以及二氧化碳捕集与矿化封存一体化技术做了重点介绍和客观评价。其中，二氧化碳捕集与矿化封存一体化的新工艺，可以克服以往工艺能耗高、效率低的缺点，同时还能生产有经济价值的副产品来降低CCS的成本，有着良好的发展前景。

References

[1]	Teir S,Kuusik R,Fogelholm C-J,Zevenhoven R. Production of magnesium carbonates from serpentinite for long-term storage of CO2. Int J Miner Process2007;85(1-3):1-15
[2]	Gerdemann SJ,O’Connor WK,Dahlin DC,Penner LR,Rush H.Ex situ aqueous mineral carbonation[J].Environ. Sci Technol,2007,41:2587-
[3]	晏水平,方梦祥,张卫风,等.烟气中CO2化学吸收法脱除技术分析与进展[J].化工进展,2006,25(9):1018-1024
[4]	膜吸收和化学吸收分离CO2特性的研究_晏水
[5]	Versteeg,G. F..[J].Kinetics of absorption of carbon dioxide in aqueous ammonia solutions. Energy Procedia,2009,1:1139-
[6]	Zhuang.[J].Q.; Clements,B. Ammonia-based carbon dioxide capture technology: Issues and solutions. Energy Procedia 201,1459,4:-
[7]	You.[J].J. K.; Shin,W.; Kang,J.K.; Yi,K. B.; Kim,J. Influence of additives including amine and hydroxyl groups on aqueous ammonia absorbent for CO2 capture. J.Phys. Chem. B. 200,4323,112:-
[8]	Collett,J. R.; Heck,R. W.; Zwoster,A. J..[J].Dissolved carbonic anhydrase for enhancing post-combustion carbon dioxide hydration inaqueous ammonia. Energy Procedia,2011,4:240-
[9]	燃煤电厂二氧化碳捕集、利用与封存技
[10]	参考文
[11]	EPA. Climate change indicators in the United States. Washington,DC: EPA,2010.1-8
[12]	Teir S,Kuusik R,Fogelholm C-J,Zevenhoven R. Production of magnesium carbonates from serpentinite for long-term storage of CO2. Int J Miner Process2007;85(1-3):1-15
[13]	骆仲泱等.二氧化碳捕集、封存和利用技
[14]	Teir S,ElonevaS,FogelholmC J.Fixation of arbon dioxide by producing hydromagnesite from serpentinite[J].Applied Energy,2007,(86):214-218
[15]	捕集低浓度二氧化碳的化学吸收工艺及其综合比较-宋存
[16]	Goff.[J].G. S. Monoethanolamine Degradation: O2 Mass Transfer Effects under CO2 Capture Conditions. Ind. Eng. Chem. Res. 200,6400,43:-
[17]	Vevelstad.[J].S.J.; Eide-Haugmo,I.; da Silva,E. F.; Svendsen,H. F. Degradation of MEA; a theoretical study. Energy Procedia 201,1608,4:-
[18]	McLarnona.[J].C. R. Testing of Ammonia Based CO2 Capture with Multi-Pollutant Control Technology. EnergyProcedia 200,1027,1:-
[19]	Yu,H.; Xiang,Q.; Yang,Q.; Feron,P. Promoted CO2absorption in aqueous ammonia. Greenhouse Gases: Sci. Technol. 2012,2,200-208
[20]	全球二氧化碳减排不应是 CCS，应是 CC
[21]	Lackner KS.A guide to CO2sequestration[J].Science,2003,300:1677-
[22]	Teir S,ElonevaS,FogelholmC J.Fixation of arbon dioxide by producing hydromagnesite from serpentinite[J].Applied Energy,2007,(86):214-218
[23]	Xiang.[J].Q.; Fang,M.; Yu,H.; Maeder,M. Kinetics of the reversible reaction of CO2(aq) and HCO3 with sarcosine salt in aqueous solution. J. Phys. Chem. A 2012,116 (42,1028,10276:4-
[24]	捕集并利用燃煤电厂二氧化碳生产高附加值产品的新工
[25]	Gerdemann SJ,O’Connor WK,Dahlin DC,Penner LR,Rush H.Ex situ aqueous mineral carbonation[J].Environ. Sci Technol,2007,41:2587-
[26]	Wang Xiaolong,Maroto-Valer M.Intel; ration of C02 capture and mineral carbonation by using recyclable ammonium salts[J].ChemSus Chem,2011,4(9):129-l
[27]	Wang Xiaolong,Maroto-Valer M.Intel; ration of C02 capture and mineral carbonation by using recyclable ammonium salts[J].ChemSus Chem,2011,4(9):129-l

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133