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A Dimensional Analysis for Cost Optimization and Cost-Effective Carbon Capture: A Comparative Study of Hybrid Post-Combustion Configurations in Natural Gas Power Plants
  • Donald Obi,
  • Samuel Onyekuru,
  • Anslem Orga
Donald Obi
Federal University of Technology Owerri

Corresponding Author:donald.obi@acefuels-futo.org

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Samuel Onyekuru
Federal University of Technology Owerri
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Anslem Orga
Federal University of Technology Owerri
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Abstract

Carbon capture, utilization, and storage (CCUS) considered a key strategy for reducing the emissions of anthropogenic carbon dioxide from power generation plants, can be achieved by three main technologies: oxy-fuel combustion, pre-combustion, and post-combustion capture. Post-combustion carbon capture (PCC), where CO2 is removed after the fuel burning, is a crucial solution for reducing greenhouse gas emissions from natural gas power plants (NGPPs). However, high costs and energy penalties associated with PCC technologies hinder their widespread adoption. Recent advancements in hybrid PCC configurations have shown promise in improving efficiency and reducing costs. In effect, six PCC hybrid configurations below were identified as feasible process routes: