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Nanotechnology and the Generation of Sustainable Hydrogen: Green Energy and Technology

Autor Sarah Farrukh, Xianfeng Fan, Kiran Mustafa, Arshad Hussain, Muhammad Ayoub, Mohammad Younas
en Limba Engleză Hardback – 30 oct 2020
This book explains the aspiring vision of a sustainable hydrogen generating system which employs nanotechnology one way or the other and presents a detailed update on research activities, achievements and challenges. It explores how nanotechnology is reshaping science in general and how this can be applied to the generation and storage of hydrogen energy.
This book begins by highlighting the importance of hydrogen a source of sustainable energy and its impact on the technical advances of fuel cells, internal combustion engines, batteries and power plants. The book depicts the role of nanotechnology in the development of sustainable hydrogen. Comprehensive studies on various nanotechnologies involved in hydrogen generation are discussed in separate chapters, representing a complete picture of hydrogen generation utilizing nanotechnology.
This book serves as a useful research tool for academics and practitioners looking towards new ways to develop and consume energy, without conceding our environment. Providing the advantages and disadvantages of each technology discussed, this book shows the benefits of utilizing nanotechnology in this field.

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Specificații

ISBN-13: 9783030604011
ISBN-10: 3030604012
Pagini: 109
Ilustrații: XI, 109 p. 11 illus., 7 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.35 kg
Ediția:1st ed. 2021
Editura: Springer International Publishing
Colecția Springer
Seria Green Energy and Technology

Locul publicării:Cham, Switzerland

Cuprins

Introduction.- Generation of Sustainable Hydrogen and Nanotechnology.- Storage and Use of Sustainable Hydrogen and Nanotechnology.- Hydrogen Future: Towards Industrial Applications.

Notă biografică

Assistant Professor Sarah Farrukh has two master’s degrees, in physics and energetic materials engineering, as well as a Ph.D. from National University of Science & Technology, Pakistan. Since completing her Ph.D., she has worked in several research positions before becoming an Assistant Professor at NUST, Pakistan. She is a member of APCOMS and has submitted three patents. She is an author of around 45 conference and journal papers and of 3 book chapters.
Professor Xianfeng Fan gained his B.Sc. from Jiangxi University of Science & Technology, his M.Sc. from Central South University and Beijing General Research Institute of Mining & Metallurgy and his Ph.D. from the University of Birmingham. He has worked in several research and teaching positions and is now a Professor in the Institute for Materials and Processes at the University of Edinburgh. He has published over 90 journal articles, 85 conference papers and 3 book chapters.
Kiran Mustafa gained her B.S. and M.Phil. degrees from the Women University of Multan, where she is now studying for her Ph.D. She has published 6 research papers and is involved in several research projects including the Development of Polymeric Membranes for Disinfection, Desalination and Photocatalytic Degradation of Water Pollutants.
Professor Arshad Hussain has gained his bachelor’s degree in 1994 from NED University of Engineering & Technology Pakistan, M.Sc. in 2001 from Friedrich–Alexander University Erlangen and Ph.D. from OVG University in 2005. He has undertaken several research and teaching positions, before becoming a Professor and Head of the Department in the Department of Chemical Engineering at NUST, Pakistan. He has more than 70 conference and journal papers.
Dr. Muhammad Ayoub is Senior Lecturer at the Department of Chem/Petroleum Engineering, UTP, Malaysia. He had completed his Ph.D. in Chemical Engineering from USM, Malaysia, M.S. in Environmental Engineering from KU, Korea, and B.S. in Chemical Engineering from ICET, PU Pakistan. He has conducted a number of industrial and academic projects and currently working in the field of sustainable & renewable energy, NOx reduction, CO2 capture, biomass production, enhanced oil recovery, development of catalysis and nanoparticle technology.  He has more than 100 publications. 
Dr. Mohammad Younas is the graduate of Universite de Montpellier 2 France. He also worked in TU/e Netherlands as Research Associate. He also worked as Visiting Scholar at the University of Toledo, USA, and at State Key Laboratory of Separation Membranes and Membrane Processes, School of Materials Science and Engineering, Tiangong University, Tianjin 300387, China. He is currently serving the department of chemical engineering at the University of Engineering and Technology, Peshawar, Pakistan, as Professor and the leader of the “membrane technology: from synthesis to process intensification” group. His research interests are membrane technology for water, energy, environment and food, modeling and simulation.


Textul de pe ultima copertă

This book explains the aspiring vision of a sustainable hydrogen generating system which employs nanotechnology one way or the other and presents a detailed update on research activities, achievements and challenges. It explores how nanotechnology is reshaping science in general and how this can be applied to the generation and storage of hydrogen energy.
This book begins by highlighting the importance of hydrogen a source of sustainable energy and its impact on the technical advances of fuel cells, internal combustion engines, batteries and power plants. The book depicts the role of nanotechnology in the development of sustainable hydrogen. Comprehensive studies on various nanotechnologies involved in hydrogen generation are discussed in separate chapters, representing a complete picture of hydrogen generation utilizing nanotechnology. This book serves as a useful research tool for academics and practitioners looking towards new ways to develop and consume energy, without conceding our environment. Providing the advantages and disadvantages of each technology discussed, this book shows the benefits of utilizing nanotechnology in this field.


Caracteristici

Explains the relevance and importance of hydrogen in the quest for sustainable energy sources Presents numerous nanotechnology methods and how these can be applied to hydrogen energy generation and storage Offers a thorough analysis of the methodologies discussed, allowing for a well-rounded opinion to be formed