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Advanced Ultra-Supercritical Coal-Fired Power Plant with Post-Combustion Carbon Capture: Analysis of Electricity Penalty and CO2 Emission Reduction

Branimir Tramošljika, Paolo Blecich, Igor Bonefačić, Vladimir Glažar

2021Sustainability71 citationsDOIOpen Access PDF

Abstract

This article presents the performance analysis of a 700 MW future planned advanced ultra-supercritical (A-USC) coal-fired power plant fitted with post-combustion carbon capture and storage (CCS) technology. The reference A-USC unit without CCS achieves a net efficiency of 47.6% with CO2 emissions of 700 kgCO2/MWh. Relatively to subcritical units, the net efficiency of the A-USC is 8%-pts higher while CO2 emissions are 16.5% lower. For a CO2 removal rate of 90%, the net efficiency of the CCS integrated A-USC unit is 36.8%. The resulting net efficiency loss is 10.8%-pts and the electricity output penalty is 362.3 kWhel/tCO2 for present state CCS technology. The study continues with the assessment of interface quantities between the capture unit and the steam cycle affecting the performance of the A-USC. Improved CO2 absorbents could alleviate the net efficiency loss by 2–3%-pts, and enhanced CO2 compression strategies and advanced heat integration could further reduce the efficiency loss by 0.5–1.2%-pts and 0.4–0.6%-pts, respectively. The total efficiency gain from CCS technology upgrades is estimated at 3.6%-pts, thus bringing down the net efficiency loss to 7.2%-pts and the electricity output penalty to 241.7 kWhel/tCO2.

Topics & Concepts

Supercritical fluidCarbon capture and storage (timeline)CoalIntegrated gasification combined cycleEnvironmental scienceWaste managementPower stationElectricity generationElectricityRankine cycleProcess engineeringPlant efficiencyEngineeringEnvironmental engineeringPower (physics)ChemistryElectrical engineeringBiologyEcologyQuantum mechanicsOrganic chemistryPhysicsClimate changeCarbon Dioxide Capture TechnologiesPhase Equilibria and ThermodynamicsChemical Looping and Thermochemical Processes