Anipeddi Manjusha, Bhajan Lal
Gas Hydrate in Carbon Capture, Transportation and Storage
Technological, Economic, and Environmental Aspects
Anipeddi Manjusha, Bhajan Lal
Gas Hydrate in Carbon Capture, Transportation and Storage
Technological, Economic, and Environmental Aspects
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Gas Hydrate in Carbon Capture, Transportation and Storage: Technological, Economic, and Environmental Aspects is an essential resource for all academicians, researchers, flow assurance engineers, industry professional and students working in this field.
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Gas Hydrate in Carbon Capture, Transportation and Storage: Technological, Economic, and Environmental Aspects is an essential resource for all academicians, researchers, flow assurance engineers, industry professional and students working in this field.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 252
- Erscheinungstermin: 15. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032692067
- ISBN-10: 1032692065
- Artikelnr.: 70733229
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 252
- Erscheinungstermin: 15. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032692067
- ISBN-10: 1032692065
- Artikelnr.: 70733229
Bhajan Lal, Chartered Chemist, is Associate Professor in the Chemical Engineering Department and core research member of Center for Carbon Capture, Storage and Utilization (CCUS) in the Institute of Sustainable Energy at the Universiti Teknologi PETRONAS (2012-conti..). After receiving MSc and Ph.D. degree (2004) from JMI Central University, New Delhi, India, Dr. Lal worked as postdoctoral research fellow and Research Scientist in the USA, Canada, South Africa, Turkey, and Malaysia. His main areas of research interests are CO2 hydrates and its application in CO2 capture and storage, desalination and; Flow Assurance. He has graduated 10 MSc, 13 Ph.D., 2 postdocs and more than 70 undergraduate FYPI students since 2013. Dr. Bhajan Lal has published 5 Research books, 12 Book Chapters, 200+Peer Review Research papers, 45 conference papers and Filed 2 Patents in CO2 gas hydrate research area with high citation record 5100 with H-index 42 and i10-index 110. In addition, as project leader, he has secured 18 gas hydrate-related research projects worth RM 4 million from oil and gas industries, UTP, and the Malaysian Government. Dr. Lal has actively participated and presented his research and teaching at national as well as international schools. Dr. Bhajan has delivered 8 Short courses related to flow assurance, production chemistry via CAPE-UTP. Anipeddi Manjusha is a research fellow, Ph.D. candidate and a graduate assistant at the Research Center for Carbon Capture, Storage and Utilization (CCUS) in the Chemical Engineering Department of Universiti Teknologi PETRONAS (UTP), Seri Iskandar, Perak Darul Ridzuan, Malaysia. She obtained her Master degree from R V College of Engineering, Bangalore, India in Chemical Engineering. Anipeddi Manjusha is currently working on Hydrate-based carbon capture.
Preface. Gas Hydrate in Oil and Gas Systems. Chemical in Carbon Capture and
Storage. Feasibility of Long-Distance Transportation of Captured CO2 using
Transmission Pipelines: An Overview of Techno-economic Models.
Gas-Hydrate-Forming Reactors for Carbon Capture and Storage. Advancements
and Challenges in Techno-Economic Analysis of CO2 Capture Technologies. CO2
Sequestration via Clathrate Gas Hydrates. Risk Analysis in Carbon Capture
and Storage. Methods for Modelling and Simulating CO2 Capture Utilizing
Hydrate Technology. Leveraging Machine Learning and Artificial Intelligence
for Enhanced Carbon Capture and Storage (CCS). Decarbonizing Global
Industry: Technologies and Policies. Carbon Capture and Storage Information
Resources. Index.
Storage. Feasibility of Long-Distance Transportation of Captured CO2 using
Transmission Pipelines: An Overview of Techno-economic Models.
Gas-Hydrate-Forming Reactors for Carbon Capture and Storage. Advancements
and Challenges in Techno-Economic Analysis of CO2 Capture Technologies. CO2
Sequestration via Clathrate Gas Hydrates. Risk Analysis in Carbon Capture
and Storage. Methods for Modelling and Simulating CO2 Capture Utilizing
Hydrate Technology. Leveraging Machine Learning and Artificial Intelligence
for Enhanced Carbon Capture and Storage (CCS). Decarbonizing Global
Industry: Technologies and Policies. Carbon Capture and Storage Information
Resources. Index.
Preface. Gas Hydrate in Oil and Gas Systems. Chemical in Carbon Capture and
Storage. Feasibility of Long-Distance Transportation of Captured CO2 using
Transmission Pipelines: An Overview of Techno-economic Models.
Gas-Hydrate-Forming Reactors for Carbon Capture and Storage. Advancements
and Challenges in Techno-Economic Analysis of CO2 Capture Technologies. CO2
Sequestration via Clathrate Gas Hydrates. Risk Analysis in Carbon Capture
and Storage. Methods for Modelling and Simulating CO2 Capture Utilizing
Hydrate Technology. Leveraging Machine Learning and Artificial Intelligence
for Enhanced Carbon Capture and Storage (CCS). Decarbonizing Global
Industry: Technologies and Policies. Carbon Capture and Storage Information
Resources. Index.
Storage. Feasibility of Long-Distance Transportation of Captured CO2 using
Transmission Pipelines: An Overview of Techno-economic Models.
Gas-Hydrate-Forming Reactors for Carbon Capture and Storage. Advancements
and Challenges in Techno-Economic Analysis of CO2 Capture Technologies. CO2
Sequestration via Clathrate Gas Hydrates. Risk Analysis in Carbon Capture
and Storage. Methods for Modelling and Simulating CO2 Capture Utilizing
Hydrate Technology. Leveraging Machine Learning and Artificial Intelligence
for Enhanced Carbon Capture and Storage (CCS). Decarbonizing Global
Industry: Technologies and Policies. Carbon Capture and Storage Information
Resources. Index.