Industrial Decarbonization Materials, Methods, and Developments

PART I Global Industrial Decarbonization

Chapter 1 Industrial Decarbonization: An Overview - Joseph B. Powell

Chapter 2 Toward a Greener Industry: Decision-Making and Optimization Strategies - Mahdi Ahmed and Joan Cordiner

PART II Chemical Industry Decarbonization

Chapter 3 Materials and Processes for Chemical Industry Decarbonization: On the Electrothermal Chemical Synthesis and Manufacturing - Priyam Mondal, Abhirup Sen, and Qi Dong

Chapter 4 Electrochemical Processes for Sustainable Chemical Manufacturing - Rong Xia, Yuanjun Chen, Cong Tian, Jianan (Erick) Huang, and Aditya Menon

Chapter 5 Microwave Heating for Energy-Efficient Chemical Production - Xinkang Peng, Xiaohua Lu, and Tuo Ji

Chapter 6 Industrial-Scale Sustainable Electrochemical Energy Conversion Systems for Chemical Transformations - Saket S. Bhargava

PART III Decarbonization of the Iron and Steel Industry

Chapter 7 Hydrogen for Iron and Steel Decarbonization - Hanna Breunig and Fabian Rosner

Chapter 8 Decarbonization of Steel Industry - Chenn Q. Zhou, Orlando J. Ugarte, Tyamo Okosun, and Armin Silaen

PART IV Strategies for Decarbonizing Construction Materials

Chapter 9 Heidelberg Materials Carbon Capture and Storage Demonstration Projects - Heidelberg Materials

Chapter 10 CO2 Utilization in Cement and Concrete - Wenyu Liao, Kangyi Cai, Yuyan Huang, Nannan Zhang, Gao Deng, Muhammad Haris Javed, and Hongyan Ma

Chapter 11 Low-Carbon Materials and Practices for Asphalt Pavement Decarbonization - Sepehr Mohammadi and Zhanping You

Chapter 12 Thermal Energy Storage Materials in Buildings - Michael Adams, Jason Woods, Nadia Zaleski, and Akanksha K. Menon

PART V Strategies and Innovations for a Decarbonized Future

Chapter 13 Circular Economy Perspectives and Innovations for Decarbonizing the Construction Industry - Brandon S. Byers, Qingxu (Bill) Jin, Zain Karsan, and Luke Lombardi

Chapter 14 Separation Technologies for Decarbonization - Junqiang Liu and Xue (Ida) Chen

Biography

Qingxu (Bill) Jin is an assistant professor in the Department of Civil and Environmental Engineering at Michigan State University (MSU) and the principal investigator of the Resilient, Intelligent, Sustainable and Energy-efficient (RISE) Infrastructure Materials Lab at MSU. His research focuses on the decarbonization of construction materials and the development of advanced infrastructure materials with enhanced durability, adaptability, and multifunctionality, particularly for extreme environments. Dr. Jin earned his Ph.D. in Civil and Environmental Engineering from the Georgia Institute of Technology, with a minor in Materials Science. He also holds dual M.Sc. degrees in Civil Engineering and Natural Resources & Environment from the University of Michigan, Ann Arbor. He previously served as a guest researcher at the National Institute of Standards and Technology (NIST). A passionate advocate for STEM education, Dr. Jin is an American Society of Civil Engineers (ASCE) Excellence in Engineering Education (ExCEEd) Fellow, a STEM Ambassador for MSU, and a National Science Foundation (NSF) CMMI Game Changer Academies (C-GCA) Panel Fellow. He is a licensed Professional Engineer (PE) in Michigan and Maryland, and a member of the honor societies Sigma Xi and Chi Epsilon.

Xue (Ida) Chen is a Global R&D Fellow at Dow Chemical Company, specializing in energy transition and sustainability research. Dr. Chen has successfully commercialized over 20 innovative and sustainable products aimed at decarbonization across various markets. She currently serves on the industrial technical advisory board for several Department of Energy (DOE) and Department of Transportation (DOT)-funded programs, focusing on decarbonization in the chemical industry and advanced electricity heating technologies. Dr. Chen currently serves as Chair of the Sustainability Engineering Forum (SEF) within the American Institute of Chemical Engineers (AIChE), a member of the Committee of Science of the American Chemical Society (ACS), and a leadership team member of the American Association for the Advancement of Science (AAAS) Steering Committee. Dr. Chen has published more than 30 peer-reviewed journal papers and has filed over 700 global patent applications, with approximately 190 granted patents. She has delivered numerous technical presentations and invited talks to both industry and academia. Dr. Chen has received more than ten prestigious national and international individual awards from organizations such as the American Chemical Society, American Institute of Chemical Engineers, Society of Asian Scientists and Engineers, Society of Global Chinese Chemical Engineers, and Society of Women Engineers. Her patented decarbonization technologies have won more than ten global technology awards, including the R&D 100 Award, Edison Award, and Business Intelligence Group Award. Dr. Chen earned her Ph.D. in Chemical Engineering from the University of Michigan, USA., and her Bachelor’s degree in Chemical Engineering from Tianjin University, China.

Fan Shi is a Senior Scientist at the National Energy Technology Laboratory (NETL) under the U.S. Department of Energy in Pittsburgh, USA. Prior to joining NETL, he served as a Technical Fellow at Leidos. Dr. Shi has edited two books and authored or co-authored over 40 peer-reviewed articles focused on the recovery of critical metals, energy conversion, and decarbonization technologies. He is also an inventor of ten patents. His research projects earned him two R&D 100 Awards in 2020 and 2021, and a Bronze Edison Award in 2022. Dr. Shi has established academic and industrial connections globally in the field of industrial decarbonization, facilitating his work on related publications. He holds a Ph.D. in chemical engineering from the University of Pittsburgh and is a member of the American Chemical Society (ACS), AIChE, and the North American Catalysis Society.

Dushyant Shekhawat is the team supervisor for the Reaction Engineering team at the NETL, U.S. Department of Energy, Morgantown, USA. His research focuses on fuel processing, reaction engineering, plasma and microwave-assisted catalysis, and energy systems. He co-developed a pyrochlore-based reforming catalyst, licensed to Pyrochem Catalyst Company, and won the Federal Laboratory Consortium 2011 Award for Excellence in Technology Transfer. He has over 200 publications, seven book chapters, three books, and 15 patents. A registered Professional Engineer in West Virginia, Dr. Shekhawat holds a B.S. from the University of Minnesota and a Ph.D. from Michigan State University.