Parametric Optimization for Power De-Rate Reduction in the Integrated Coal-Fired Power Plant with Carbon Capture and Storage

Abstract: Carbon capture and storage (CCS) has attracted worldwide attention as a near-term technology to decelerate global warming. Postcombustion CO 2 capture utilizes existing coal-fired power plants, and aqueous monoethanolamine (MEA) scrubbing is the most common capture technology. However, the heat and energy requirements of solvent regeneration and CO 2 liquefaction cause a 30% decrease in net power output. This power de-rate is a major obstacle to implementing CCS. In this study, simulation-based parametric opti… Show more

“…Besides, for researching and developing advanced materials and devices for ultrahigh vapor parameter coal-fired power generation (700 °C projects) and optimizing the control strategies and technologies for plant operations, exploration of new power cycles with higher efficiency has also become an important technical way to break through the bottleneck of coal-fired generation processes. Recently, the supercritical carbon dioxide (S-CO 2 ) power cycle, which has been widely applied in nuclear energy, concentrated solar energy (CSP), ship propulsion system, and waste heat recovery, − has been receiving increasing interest in the field of fossil-fired generation in consideration of its high efficiency, compact structure, stable physical properties, and qualitative flexibility. − Studies indicated that the S-CO 2 coal-fired power cycle can offer about 6% lower heating value (LHV) and relative efficiency improvement performances theoretically compared with the steam cycle, which attracts great interest and potential to be applied in the coal-fired power generation industry.…”

Gas–Solid Hydrodynamics and Combustion Characteristics in a 600 MW Annular CFB Boiler for Supercritical CO₂ Cycles

“…Besides, for researching and developing advanced materials and devices for ultrahigh vapor parameter coal-fired power generation (700 °C projects) and optimizing the control strategies and technologies for plant operations, exploration of new power cycles with higher efficiency has also become an important technical way to break through the bottleneck of coal-fired generation processes. Recently, the supercritical carbon dioxide (S-CO 2 ) power cycle, which has been widely applied in nuclear energy, concentrated solar energy (CSP), ship propulsion system, and waste heat recovery, − has been receiving increasing interest in the field of fossil-fired generation in consideration of its high efficiency, compact structure, stable physical properties, and qualitative flexibility. − Studies indicated that the S-CO 2 coal-fired power cycle can offer about 6% lower heating value (LHV) and relative efficiency improvement performances theoretically compared with the steam cycle, which attracts great interest and potential to be applied in the coal-fired power generation industry.…”

Gas–Solid Hydrodynamics and Combustion Characteristics in a 600 MW Annular CFB Boiler for Supercritical CO₂ Cycles

An experimental based optimization of a novel water lean amine solvent for post combustion CO2 capture process

A semi-analytical method for determining the optimal stripper pressure in CO2 capture and liquefaction using monoethanolamine (MEA)