摘要
UCARSOL溶剂气体净化技术南化(集团)公司研究院王秀珍1概述UCARSOL溶剂是美国联合碳化物公司的新型高效胺保护法溶剂。其中有HS、CR、LE、ES革新溶剂111等五大系列,十几种不同溶液的组成。可分别用于选择性脱H_2S、脱除大量CO_2、C...
出处
《大氮肥》
1995年第5期396-400,共5页
Large Scale Nitrogenous Fertilizer Industry
同被引文献14
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1Dubois L,Thomas D.Carbon dioxide absorption into aqueous amine based solvents:Modeling and absorption tests[J].Energy Procedia,2011,4,1353-1360.
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2Ermatchkov V,Prez-Salado Kamps,Maurer G.Chemical equilibrium constants for the formation of carbamates in (carbon dioxide + piperazine + water) from 1H-NMR-spectroscopy[J].The Journal of Chemical Thermodynamics 2003,35 (8),1277-1289.
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3Ermatchkov V,Prez-Salado Kamps,Speyer D,et al.Solubility of Carbon Dioxide in Aqueous Solutions of Piperazine in the Low Gas Loading Region[J].Journal of Chemical & Engineering Data,2006,51 (5),1788-1796.
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4Aroua M K,Mohd Salleh R.Solubility of CO2 in Aqueous Piperazine and its Modeling using the Kent-Eisenberg Approach[J].Chemical Engineering & Technology 2004,27 (1),65-70.
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5Bishnoi S,Rochelle G T.Absorption of carbon dioxide into aqueous piperazine:reaction kinetics,mass transfer and solubility[J].Chemical Engineering Science,2000,55 (22),5531-5543.
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6Kadiwala S,Rayer A V,Henni A.High pressure solubility of carbon dioxide (CO2) in aqueous piperazine solutions[J].Fluid Phase Equilibria,2010,292 (12),20-28.
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7Hilliard M D.A Predictive Thermodynamic Model for an Aqueous Blend of Potassium Carbonate,Piperazine,and Monoethanolamine for Carbon Dioxide from flue gas[D].The University of Texas at Austin,Austin,Texas,2008.
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8Nguyen T,Hilliard M D,Rochelle G T.Amine volatility in CO2 capture[J].International Journal of Greenhouse Gas Control,2010,4(5):707-715.
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9Davis J.Thermal degradation of aqueous amines used for carbon dioxide capture[D].The University of Texas at Austin,Austin,Texas,2009.
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10Freeman S,Davis J,Rochelle G T.Degradation of aqueous piperazine in carbon dioxide capture[J].International Journal of Greenhouse Gas Control,2010,4 (5):756-761.
二级引证文献3
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1薛原,韩伟嘉,林海雷,陈周龙田,吴爽.生物燃气化学脱碳技术现状与研究进展[J].中外能源,2022,27(1):17-25. 被引量:3
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2赵晶晶,贾瑞博,甘云青.火焰原子吸收光谱法测定预脱碳液中的铬[J].化学分析计量,2022,31(8):59-62. 被引量:1
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3蒋倩文,贾邵竣,崔鹏,徐辉,王光应.质子化哌嗪化学吸收CO_(2)过程研究与分析[J].高校化学工程学报,2023,37(2):319-325. 被引量:1
