Kiessling, S.; Darabkhani, H.G.; Soliman, A.-H. The Bio Steel Cycle: 7 Steps to Net-Zero CO2 Emissions Steel Production. Energies2022, 15, 8880.
Kiessling, S.; Darabkhani, H.G.; Soliman, A.-H. The Bio Steel Cycle: 7 Steps to Net-Zero CO2 Emissions Steel Production. Energies 2022, 15, 8880.
Kiessling, S.; Darabkhani, H.G.; Soliman, A.-H. The Bio Steel Cycle: 7 Steps to Net-Zero CO2 Emissions Steel Production. Energies2022, 15, 8880.
Kiessling, S.; Darabkhani, H.G.; Soliman, A.-H. The Bio Steel Cycle: 7 Steps to Net-Zero CO2 Emissions Steel Production. Energies 2022, 15, 8880.
Abstract
CO2 emissions have been identified as the main driver for climate change, with devastating consequences for the global natural environment. The steel industry is responsible for ca. 8%-11% of global CO2 emissions, due to high fossil-fuel and energy consumption. The onus is therefore on industry to remedy the environmental damage caused and to decarbonise production. This desk research report follows a two-tiered route: 1) exploring the Bio Steel Cycle; 2) proposing a seven-step strategy to overcome the challenges within the iron and steel industry. The true levels of CO2 emissions in the steelmaking process, during the blast-furnace/basic-oxygen-furnace operation, will be detailed first, at 4.61t of CO2 emissions/t of steel produced. The manuscript proposes a solution for reduced carbon emissions steelmaking with the Bio Steel Cycle components and detail on how to reach net-zero carbon emissions steel production. The 7-step-implementation-strategy as a potential solution to achieve net and true zero carbon emissions steel production in the short to medium-term. The findings of this are pointing towards the conclusion that CO2 emissions seem to have been under-reported and under-estimated in the past, but the emission can be addressed if the correct scenarios for net-zero steel manufacturing are implemented by 2050.
Keywords
Net-zero steel; CO2 emissions; Bio Steel Cycle (BiSC); CAT; CCUS; Flue stack gas scrubbing
Subject
Engineering, Industrial and Manufacturing Engineering
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.