Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8078471 | Energy | 2014 | 13 Pages |
Abstract
In this paper, flash evaporation and thermal vapor compression are used to reduce heat consumption of CO2 capture processes and two improved capture systems are proposed. One is the flash evaporator (FE) and thermal vapor compressor (TVC)-aided system, the other is the heated flash evaporator (HFE) and thermal vapor compressor (TVC)-aided system. Analyses are carried out to verify their effectiveness in reducing heat consumption. Compared with the base CO2 capture system of 108.76Â t/h CO2 capture capacity from a 660Â MW coal-fired power unit, the FE-TVC-aided capture system reduces the specific heat consumption from 4.421Â GJ/tCO2 to 4.161Â GJ/tCO2, and the specific exergy consumption from 1.368Â GJ/tCO2 to 1.275Â GJ/tCO2, the corresponding energy saving and exergy saving are 10.3%, and the plant electric efficiency penalty is decreased from 11.83% to 11.02%, on condition that the CO2 recovery ratio is set at 90%. Compared with the base CO2 capture system, the HFE-TVC-aided capture system reduces the heat consumption from 4.421Â GJ/tCO2 to 4.057Â GJ/tCO2, and the specific exergy consumption from 1.368Â GJ/tCO2 to 1.243Â GJ/tCO2, the corresponding energy saving and exergy saving are 12.5%, and the plant electric efficiency penalty is decreased from 11.83% to 10.80%.
Keywords
Related Topics
Physical Sciences and Engineering
Energy
Energy (General)
Authors
Kefang Zhang, Zhongliang Liu, Yuanya Wang, Yanxia Li, Qingfang Li, Jian Zhang, Haili Liu,