"A Simulation Study of the Effect of Post-Combustion Amine-Based Carbon" by Ayman Abbas Prof, Amir Ayyad et al.
 

A Simulation Study of the Effect of Post-Combustion Amine-Based Carbon-Capturing Integrated with Solar Thermal Collectors for Combined Cycle Gas Power Plant

Document Type

Article

Publication Date

2021

Abstract

Post-combustion carbon capture with solvent designed to sequestrate carbon from power plant is a promising and well- known technology. However, a vital drawback is the reduction of the power plant output due to the energy required to separate captured ­ CO2 from the solvent, known as a re-boiler duty. In this paper, two configurations were simulated and economically examined to mitigate the re-boiler duty and power loss from the 495 MW West Damietta power plant, Egypt. The first approach is to increase carbon concentrations in the feed to carbon capture plant by recycling part of exhaust gas back to the combustion chamber with different ratios (0%–35%), the second approach is implementing parabolic-trough solar collectors to handle the reboiler load instead of low-pressure steam extracted from the power plant. Both power and ­ CO2 capturing plants were simulated using Aspen Hysys. Parabolic trough solar collector plant was simulated using system advisor model software. The results revealed that increasing carbon content led to a remarkable decrease in reboiler duty by up to around 20%. It was also found that integrating the solar plant with thermal storage system highly improved the optimum production compared to plant without thermal storage. Carbon increase also affected the levelized cost of energy which had 1.39% reduction and 6% decrease in carbon cost of avoidance using 35% recirculation ratio.

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