Post-combustion capture of CO_2 at an integrated steel mill - Part II: Economic feasibility

摘要

In this paper the economics of the technical possibilities presented in Part I (Arasto et al., 2013) for applying post-combustion CO_2 capture at an integrated steel mill were studied. Implications of different CO_2 amounts captured, solvents and process integration levels to the greenhouse gas balances and economics of operation are compared to the reference case without CCS trough several case studies using variable market prices of electricity and CO_2 emission allowances. The break-even price (BEP) of CO_2 emissions (e.g. CO_2 emission allowances), where CCS becomes more profitable than the reference case, is about 72/t CO_2 with an electricity price of 100/MWh in the most favourable studied case using a MEA solvent. For the more advanced solvents considered, the BEP level is about 64 t CO_2. With higher prices of electricity, the costs for CCS increase rapidly. The costs for globally avoided emissions, based on a streamlined life-cycle analysis, are generally higher than the BEP’s, dependingon the fuels that are assumed to eventually compensate the decreased electricity production in the energy system. The amounts of captured CO_2 corresponding to the above presented prices in the most favourable cases are typically in the range of 2-3 Mt CO_2/a, which accounts for 50-75% of the site emissions.