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The pathways to net-zero carbon emissions in steel production and circular resource flow are described in greater detail in the book.
List of contents
1: HISTORY OF STEELMAKING
1.1 How it all began
1.2 First attempts at steelmaking
1.3 Steelmaking process development
2: STEELMAKING PROCESSES
2.1 Introduction
2.2 Raw Materials
3: INTRODUCTION TO THE BIO STEEL CYCLE
3.1 Introduction
3.2 Motivation
3.3 BF/BOF route carbon capture
3.4 BF/BOF off-heat utilisation
3.5 Renewable energy technologies
3.6 DAC Woodlands
3.7 Biogas, biomass and hydrogen
3.8 CEPS
3.9 Industrial filters: Carbon capture and sequestration
3.10 Anaerobic digestion, sewage treatment and geothermal units
3.11 CAT, CCS and CCUS
4: THE KEY COMPONENTS OF THE BIO STEEL CYCLE (BiSC)
4.1 Introducing the BiSC key components for net-zero carbon steel manufacturing
4.2 BF/BOF route carbon capture
4.3 BF/BOF off-heat utilisation in iron and steelmaking
4.4 DAC Woodlands
4.5 CEPS
4.6 Geomimetic® Process
4.7 Anaerobic digestion
4.8 Sewage treatment
4.9 Biogas, biomass and hydrogen
4.10 Biogas, biomass and hydrogen
5: MULTI-CRITERIA DECISION ANALYSIS (MCDA) FOR BiSC (BIO STEEL CYCLE)
5.1 Introduction
5.2 BF/BOF route carbon capture
5.3 Renewable energy technologies
5.4 DAC Woodlands
5.5 CEPS and the Geomimetic® Process
5.6 Anaerobic digestion, sewage treatment
5.7 Biomass, biogas and hydrogen
5.8 CCUS
5.9 Validating process flowcharts and simulations
5.10 Findings
6: GREATER ENERGY INDEPENDENCE WITH SUSTAINABLE STEEL PRODUCTION
6.1 Introduction
6.2 Materials and methods
6.3 Heat loss recovery - energy and CO2 saving protocols
6.4 Retrofitting renewable energy technologies on site
6.5 Conclusions
7: TECHNOLOGICAL CHALLENGES TO AND OPPORTUNITIES OF THE BiSC CONCEPT IMPLEMENTATION
7.1 Introduction
7.2 Challenges
7.3 Opportunities
7.4 Conclusions
8: MACRO AND MICRO-ECONOMIC CHALLENGES TO IMPLEMENTATION OF THE BiSC CONCEPT
8.1 Introduction
8.2 Part I Policy and BiSC Implementation
8.3 Part II Markets analysis
8.4 PESTEL and SWOT Analysis green steel
8.5 CO2 emissions for the entire steel production process
8.6 BiSC - steel production decarbonisation model and strategy
8.7 Higher degree of energy independence
9: SKILLS SETS REQUIRED WITHIN THE DIFFERENT COMPONENTS AND SECTORS
9.1 Introduction
9.2 Solar
9.3 Wind turbines
9.4 Hydro
9.5 Geothermal
9.6 Green Hydrogen
9.7 Biomass
9.8 Biogas
9.9 Conclusion
10: THE FUTURE OF GREEN STEEL
10.1 Introduction
10.2 United Kingdom
10.3 United States of America
10.4 Brazil
10.5 Russias Federation
10.6 India
10.7 China
10.8 Australia
10.9 Canada
10.10 Norway
10.11 EU - Germany
10.12 Discussion and conclusions
11 AN IDEALISED TIMELINE OF POSSIBILITIES
11.1 Introduction
11.2 Political decision making and legislative foundations
11.3 All-encompassing industrial response
11.4 Investment in people
11.5 Infrastructural improvement
12 CONCLUDING REMARKS AND SUGGESTIONS
12.1 Discussion of Findings
About the author
Dr. Sandra Kiessling is from Department of Engineering, Staffordshire University, UK. She has focused her research on decarbonisation projects within heavy industry and utilises her international network, as well as more than three decades of experience in metal manufacturing, the renewable energy sector and academia.
Hamidreza Gohari Darabkhani has over 22 years of work experience in both industry and academia. Prof Gohari Darabkhani is currently a professor of low carbon and renewable energy systems with a proven track record in carbon capture and storage (CCS) technologies, and integration of renewable fuels in Micro Gas Turbine (MGT) and Micro-CHP systems in Staffordshire University, UK. He has focused his research and industry collaborations on technologies and projects that directly contribute to resolving current significant challenges in achieving net-zero emission targets in the energy industry by 2050.
Abdel-Hamid Soliman is a professor in Staffordshire University, UK. He has a multi-disciplinary academic/research experience in digital signal processing, telecommunications, data acquisition systems, wireless sensor networks (WSN) and image/video processing. In addition to his research activities, he is involved in several enterprise projects and consultancy activities for national and international companies. He is actively seeking funds and support for the research activities in his areas of research interest by determining the appropriate funds and applying to these funds through various funding organisations. Now, he is leading and involved in several European funded projects.
Summary
The pathways to net-zero carbon emissions in steel production and circular resource flow are described in greater detail in the book.
