Excess heat-driven carbon capture at an integrated steel mill – Considerations for capture cost optimization
Journal article, 2019

Primary steelmaking in blast and basic oxygen furnaces is inherently carbon-intensive. Partial capture, i.e., capturing only a share of the CO2, is discussed as an option to reduce the cost of carbon capture and storage (CCS) and to realize a near-term reduction in emissions from the steel industry. This work presents a technoeconomic assessment of partial capture based on amine absorption of CO2. The cost of steam from excess heat is assessed in detail. Using this steam to drive the capture process yields costs of 28–50 €/t CO2-captured. Capture of CO2 from the blast furnace gas outperforms end-of-pipe capture from the combined-heat-and-power plant or hot stove flue gases onsite by 3–5 €/t CO2-captured. The study shows that partial capture driven exclusively by excess heat represents a lower cost for a steel mill owner, estimated in the range of 15–30 €/t CO2-captured, as compared to full capture driven by the combustion of extra fuel. In addition, the full-chain CCS cost (capture, transport and storage) for partial capture is discussed in light of future carbon prices. We conclude that implementation of partial capture in the steel industry in the 2020s is possible and economically viable if policymakers ensure long-term regulation of carbon prices in line with agreed emission reduction targets beyond Year 2030.

MEA

Steel making

Partial capture

Cost estimation

CCS

Excess heat

Author

Max Biermann

Chalmers, Space, Earth and Environment, Energy Technology, Energy Technology 2

Hassan Ali

University of South-Eastern Norway (USN)

Maria Sundqvist

Swerim AB

Mikael Larsson

Luleå University of Technology

Swerim AB

Fredrik Normann

Chalmers, Space, Earth and Environment, Energy Technology

Filip Johnsson

Chalmers, Space, Earth and Environment, Energy Technology

International Journal of Greenhouse Gas Control

1750-5836 (ISSN)

Vol. 91 102833

Cutting Cost of CO2 Capture in Process Industry

Swedish Energy Agency, 2015-07-01 -- 2019-08-30.

Driving Forces

Sustainable development

Subject Categories

Energy Engineering

Chemical Process Engineering

Energy Systems

Areas of Advance

Energy

DOI

10.1016/j.ijggc.2019.102833

More information

Latest update

3/30/2020