Capacity and absorption rate of tertiary and hindered amines blended with piperazine for CO2 capture

被引:79
作者
Du, Yang [1 ]
Yuan, Ye [1 ]
Rochelle, Gary T. [1 ]
机构
[1] Univ Texas Austin, McKetta Dept Chem Engn, 200 E Dean Keeton St,Mail Code C0400, Austin, TX 78712 USA
关键词
Piperazine; Tertiary amine; Hindered amine; CO2; capture; capacity; Generic model; CARBON-DIOXIDE; DISSOCIATION-CONSTANTS; AQUEOUS PIPERAZINE; THERMODYNAMIC PROPERTIES; KINETICS; IONS;
D O I
10.1016/j.ces.2016.08.017
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
Aqueous piperazine (PZ) blended with a tertiary or hindered amine combines the high CO2 capacity of the tertiary or hindered amine with the fast rate of PZ. For flue gas CO2 capture, the optimum pK(a) (that which offers the highest CO2 cyclic capacity) of a mono-tertiary amine blended with PZ is 9.1. A generic Aspen Plus (R) model for PZ/tertiary amine was developed to predict the CO2 vapor-liquid-equilibrium (VLE) from the pK(a) of the tertiary amine. The polarity of the tertiary amine also affects the CO2 solubility of the PZ/tertiary amine. Hindered amines that form little carbamate show similar CO2 VLE to tertiary amines with the same pK(a), when blended with PZ. The CO2 absorption rate of most 2.5 m PZ/2.5 m tertiary amines was slightly slower than 2.5 m PZ, probably due to the higher viscosity of the blends. (C) 2016 Elsevier Ltd. All rights reserved.
引用
收藏
页码:397 / 404
页数:8
相关论文
共 34 条
[1]  
Adeosun A., 2013, RES INVENTY INT J EN, V3, P12
[2]  
[Anonymous], 2009, THESIS
[3]  
[Anonymous], THESIS
[4]  
Astarita G, 1983, GAS TREATING CHEM SO
[5]   Plate heat exchanger literature survey and new heat transfer and pressure drop correlations for refrigerant evaporators [J].
Ayub, ZH .
HEAT TRANSFER ENGINEERING, 2003, 24 (05) :3-16
[6]   Absorption of carbon dioxide into aqueous piperazine: reaction kinetics, mass transfer and solubility [J].
Bishnoi, S ;
Rochelle, GT .
CHEMICAL ENGINEERING SCIENCE, 2000, 55 (22) :5531-5543
[7]   Absorption of carbon dioxide in aqueous piperazine/methyldiethanolamine [J].
Bishnoi, S ;
Rochelle, GT .
AICHE JOURNAL, 2002, 48 (12) :2788-2799
[8]   Evaluation of Performance and Cost of Combustion-Based Power Plants with CO2 Capture in the United Kingdom [J].
Catalanotti, Elena ;
Hughes, Kevin J. ;
Porter, Richard T. J. ;
Price, Jon ;
Pourkashanian, Mohamed .
ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY, 2014, 33 (04) :1425-1431
[9]   Aqueous piperazine derivatives for CO2 capture: Accurate screening by a wetted wall column [J].
Chen, Xi ;
Rochelle, Gary T. .
CHEMICAL ENGINEERING RESEARCH & DESIGN, 2011, 89 (09) :1693-1710
[10]   CO2 Capture by Tertiary Amine Absorbents: A Performance Comparison Study [J].
Chowdhury, Firoz Alam ;
Yamada, Hidetaka ;
Higashii, Takayuki ;
Goto, Kazuya ;
Onoda, Masami .
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2013, 52 (24) :8323-8331