Title: Upgrading the integration of supercritical coal-fired power plant with post-combustion CO₂ capture process through process simulation

Authors: Xiaoyan Liu; Yanmei Yu; Jian Chen

Addresses: Department of Chemical Engineering, Tsinghua University, Beijing, 100084, China ' Department of Chemical Engineering, Tsinghua University, Beijing, 100084, China ' Department of Chemical Engineering, Tsinghua University, Beijing, 100084, China

Abstract: The purpose of this study is to alleviate the negative effect of post-combustion CO₂ capture (PCC) process on the generating efficiency of a 600 MWe supercritical coal-fired power plant (CFPP) through modelling and simulation. Steady state models for a 600 MWe supercritical CFPP and a MEA-based PCC plant with corresponding compression unit were developed and integrated in Aspen Plus. In the two basic cases with steam extracted from different locations, efficiency penalty of 14.48% points and 11.89% points were caused, respectively. Subsequently, four steps were taken to improve the overall performance of the integrated process, which involves: 1) waste heat recovery; 2) throttling loss reduction; 3) capture flowsheet modification and 4) temperature difference narrowing. From the final simulation results, the efficiency penalty is reduced to 8.07% points. This study indicates that appropriate flowsheet modifications for the integrated process can significantly improve the overall energy efficiency.

Keywords: process simulation; flowsheet modification; supercritical coal-fired power plant; post-combustion CO₂ capture; efficiency penalty.

DOI: 10.1504/IJGW.2017.084512

International Journal of Global Warming, 2017 Vol.12 No.2, pp.149 - 163

Received: 13 May 2015
Accepted: 20 Oct 2015
Published online: 12 Jun 2017 *

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