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Biobased Materials in Carbon Capture Applications

Borgohain, Rajashree Mukherjee, Debarati Mandal, Bishnupada
Heftet / 2026 / Engelsk

Produktdetaljer

ISBN
9780443365386
Publisert
2026-03-13
Utgiver
Elsevier - Health Sciences Division
Vekt
450 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
365

Redaktør
Borgohain, Rajashree
Mukherjee, Debarati
Mandal, Bishnupada

Biografisk notat

Dr Borgohain is a seasoned chemical and environmental researcher specializing in CO2 capture and membrane technology. Her expertise encompasses successful project execution, grant renewal, proposal development, and publication. Through her work, she is effectively implementing CO2 separation techniques utilizing membrane technology with diverse additive compositions. Her contributions have yielded significant outcomes, including the publication of nine peer-reviewed journal articles, a book chapter, and the delivery of ten conference presentations. In recognition of her achievements, she was honored with the Best in Chemical Engineering Award in 2020 from the Indian Institute of Technology Guwahati. Additionally, she received the Dr. AV Rama Rao Foundation's Best PhD Thesis and Research Award in Chemical Engineering. Most recently, she was granted the prestigious DBTRA fellowship from the Department of Biotechnology under the Ministry of Science & Technology, India in 2024. Dr. Borgohain is a reviewer of various journals of Elsevier, Wiley, MDPI, and more. Dr. Mukherjee is a chemical and environmental researcher with experience in executing projects on CO2 capture and conversion culminating in grant renewal, new proposals, and publications. Implemented CO2 capture via adsorption using metal-organic frameworks and activated carbon, and membrane separation techniques. Research work resulted in 14 peer-reviewed journal articles, 3 book chapters, and 18 conference presentations. Served as the organizer of an ACS symposium related to CO2 capture and conversion pathways; member of ACS, AIChE, and IIChE; and guest editor and reviewer of various journals Dr. Mandal is a distinguished academic with 20 years of experience in teaching and research at IIT Guwahati. He holds a Ph.D. and has been recognized as a Fellow of the Royal Society of Chemistry (FRSC) and the Institute of Engineers (FIE). He was awarded the prestigious BOYSCAST fellow award by the Department of Science and Technology (DST) and received the 'Young Scientist Project' under the SERC Fast Track scheme. Dr. Mandal has published extensively in international journals and conference proceedings, with over 2950 citations and an h-index of 38. He is actively involved in research projects and has served as a consultant for various organizations including Oil India Limited, NTPCL, GAIL (India) Limited, and BHEL. Dr. Mandal is affiliated with professional associations such as the Indian Institute of Chemical Engineers, Indian Society for Technical Education, Royal Society of Chemistry, and the North American Membrane Society.

Biobased Materials in Carbon Capture Applications

Borgohain, Rajashree Mukherjee, Debarati Mandal, Bishnupada
Heftet / 2026 / Engelsk
Borgohain, Rajashree Mukherjee, Debarati Mandal, Bishnupada
Heftet / 2026 / Engelsk
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Biobased Materials in Carbon Capture Applications confronts the urgent challenge of reducing carbon dioxide (CO2) emissions through innovative, sustainable solutions. This reference book explores the use of biobased materials—derived from renewable biomass—in CO2 capture, storage, and utilization. By addressing climate change and greenhouse gas mitigation, the text offers a comprehensive overview of current technologies and emerging advancements in biobased CO2 capture. Readers are guided from fundamental principles to practical applications, emphasizing the environmental and economic importance of adopting sustainable alternatives to traditional carbon capture methods. This resource is crafted for researchers, engineers, policymakers, and industry professionals. Beyond its technical depth, the book delves into performance evaluation methods, hybrid CO2 capture systems, and presents real-world case studies that demonstrate scalability and practical feasibility. It also examines environmental and regulatory implications, investigates future trends, and concludes with actionable recommendations for implementing biobased materials in CO2 emission reduction strategies.
Les mer
1. Introduction to CO2 Capture Technology 2. Fundamentals of Biobased Materials 3. Types of Biobased Materials for CO2 Capture 4. Applications of Biobased Materials in CO2 Capture 5. Performance Evaluation and Characterization Techniques 6. Hybrid CO2 capture systems 7. Case Studies and Practical Applications 8. Scalability, Economic and Technological Feasibility 10. Environmental footprint, Regulatory and Policy Considerations 11. Future Perspectives and Emerging Trends in CO2 Capture 12. Conclusion and Recommendations
Les mer
Synthesizes cutting-edge research on utilizing biobased materials for sustainable CO2 capture technologies, providing practical strategies for reducing greenhouse gas emissions
Analyzes current CO2 capture technologies and evaluates the potential of biobased materials for enhancing sustainability and efficiency Explores various types of biobased materials for CO2 capture applications, providing insights into their synthesis, performance, and environmental benefits Showcases real-world case studies and practical applications of biobased materials in different CO2 capture processes Discusses the scalability, economic feasibility, and technological advancements of utilizing biobased materials for reducing greenhouse gas emissions Examines the environmental footprint, regulatory frameworks, and policy considerations associated with the adoption of biobased materials in CO2 capture
Les mer

Relaterte produkter

Biobased Materials in Carbon Capture Applications confronts the urgent challenge of reducing carbon dioxide (CO2) emissions through innovative, sustainable solutions. This reference book explores the use of biobased materials—derived from renewable biomass—in CO2 capture, storage, and utilization. By addressing climate change and greenhouse gas mitigation, the text offers a comprehensive overview of current technologies and emerging advancements in biobased CO2 capture. Readers are guided from fundamental principles to practical applications, emphasizing the environmental and economic importance of adopting sustainable alternatives to traditional carbon capture methods. This resource is crafted for researchers, engineers, policymakers, and industry professionals. Beyond its technical depth, the book delves into performance evaluation methods, hybrid CO2 capture systems, and presents real-world case studies that demonstrate scalability and practical feasibility. It also examines environmental and regulatory implications, investigates future trends, and concludes with actionable recommendations for implementing biobased materials in CO2 emission reduction strategies.
Les mer
1. Introduction to CO2 Capture Technology 2. Fundamentals of Biobased Materials 3. Types of Biobased Materials for CO2 Capture 4. Applications of Biobased Materials in CO2 Capture 5. Performance Evaluation and Characterization Techniques 6. Hybrid CO2 capture systems 7. Case Studies and Practical Applications 8. Scalability, Economic and Technological Feasibility 10. Environmental footprint, Regulatory and Policy Considerations 11. Future Perspectives and Emerging Trends in CO2 Capture 12. Conclusion and Recommendations
Les mer
Synthesizes cutting-edge research on utilizing biobased materials for sustainable CO2 capture technologies, providing practical strategies for reducing greenhouse gas emissions
Analyzes current CO2 capture technologies and evaluates the potential of biobased materials for enhancing sustainability and efficiency Explores various types of biobased materials for CO2 capture applications, providing insights into their synthesis, performance, and environmental benefits Showcases real-world case studies and practical applications of biobased materials in different CO2 capture processes Discusses the scalability, economic feasibility, and technological advancements of utilizing biobased materials for reducing greenhouse gas emissions Examines the environmental footprint, regulatory frameworks, and policy considerations associated with the adoption of biobased materials in CO2 capture
Les mer

Produktdetaljer

ISBN
9780443365386
Publisert
2026-03-13
Utgiver
Elsevier - Health Sciences Division
Vekt
450 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
365

Redaktør
Borgohain, Rajashree
Mukherjee, Debarati
Mandal, Bishnupada

Biografisk notat

Dr Borgohain is a seasoned chemical and environmental researcher specializing in CO2 capture and membrane technology. Her expertise encompasses successful project execution, grant renewal, proposal development, and publication. Through her work, she is effectively implementing CO2 separation techniques utilizing membrane technology with diverse additive compositions. Her contributions have yielded significant outcomes, including the publication of nine peer-reviewed journal articles, a book chapter, and the delivery of ten conference presentations. In recognition of her achievements, she was honored with the Best in Chemical Engineering Award in 2020 from the Indian Institute of Technology Guwahati. Additionally, she received the Dr. AV Rama Rao Foundation's Best PhD Thesis and Research Award in Chemical Engineering. Most recently, she was granted the prestigious DBTRA fellowship from the Department of Biotechnology under the Ministry of Science & Technology, India in 2024. Dr. Borgohain is a reviewer of various journals of Elsevier, Wiley, MDPI, and more. Dr. Mukherjee is a chemical and environmental researcher with experience in executing projects on CO2 capture and conversion culminating in grant renewal, new proposals, and publications. Implemented CO2 capture via adsorption using metal-organic frameworks and activated carbon, and membrane separation techniques. Research work resulted in 14 peer-reviewed journal articles, 3 book chapters, and 18 conference presentations. Served as the organizer of an ACS symposium related to CO2 capture and conversion pathways; member of ACS, AIChE, and IIChE; and guest editor and reviewer of various journals Dr. Mandal is a distinguished academic with 20 years of experience in teaching and research at IIT Guwahati. He holds a Ph.D. and has been recognized as a Fellow of the Royal Society of Chemistry (FRSC) and the Institute of Engineers (FIE). He was awarded the prestigious BOYSCAST fellow award by the Department of Science and Technology (DST) and received the 'Young Scientist Project' under the SERC Fast Track scheme. Dr. Mandal has published extensively in international journals and conference proceedings, with over 2950 citations and an h-index of 38. He is actively involved in research projects and has served as a consultant for various organizations including Oil India Limited, NTPCL, GAIL (India) Limited, and BHEL. Dr. Mandal is affiliated with professional associations such as the Indian Institute of Chemical Engineers, Indian Society for Technical Education, Royal Society of Chemistry, and the North American Membrane Society.

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