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사진확대

Hyrdogen Storage Technologies (Advances in Hydrogen Production and Storage (AHPS))
ASIN번호 1119459885
상품상태 New   
상품구분 Books / Engineering & Transportation
판매자 Amazon.com
판매자위치 미국
현지 판매 가격
$159.27
상품가격 상세보기
관련상품



상품설명
From the Back Cover Provides a comprehensive practical review of the available hydrogen storage technologies such as: electrochemical hydrogen storage; chemical hydrogen storage; graphene and hydrogen storage; nanotechnology and hydrogen storage; carbon- based materials and hydrogen storage. Hydrogen storage is considered a key technology for stationary and portable power generation especially for transportation. This volume covers the novel technologies to efficiently store and distribute hydrogen and discusses the underlying basics as well as the advanced details in hydrogen storage technologies. The book has two major parts: Chemical and electrochemical hydrogen storage and Carbon-based materials for hydrogen storage. The following subjects are detailed in Part I: Multi stage compression system based on metal hydrides; Metal-N-H systems and their physico-chemical properties; Mg-based nano materials with enhanced sorption kinetics; Gaseous and electrochemical hydrogen storage in the Ti-Z-Ni; Electrochemical methods for hydrogenation/dehydrogenation of metal hydrides. In Part II the following subjects are addressed: Activated carbon for hydrogen storage obtained from agro-industrial waste; Hydrogen storage using carbonaceous materials; Hydrogen storage performance of composite material consisting of single walled carbon nanotubes and metal oxide nanoparticles; Hydrogen storage characteristics of graphene addition of hydrogen storage materials; Discussion of the crucial features of hydrogen adsorption of nanotextured carbon-based materials. Audience The book will have a wide audience including those in electrochemistry, physics, materials science and engineering, mechanical and chemical engineering as well as renewable energy and storage technologies. Read more About the Author Mehmet Sankir received his PhD degree in Macromolecular Science and Engineering from the Virginia Polytechnic and State University, USA in 2005. He is a Full Professor in the Department of Materials Science and Nanotechnology Engineering, TOBB University of Economics and Technology, Ankara, Turkey and group leader of Advanced Membrane Technologies Laboratory. Dr. Sankir has actively carried out research and consulting activities in the areas of membranes for fuel cells, flow batteries, hydrogen generation and desalination. Nurdan Demirci Sankir is an Associate Professor in the Materials Science and Nanotechnology Engineering Department at the TOBB University of Economics and Technology (TOBB ETU), Ankara, Turkey. She received her MEng and PhD degrees in Materials Science and Engineering from the Virginia Polytechnic and State University, USA in 2005. She established the Energy Research and Solar Cell Laboratories at TOBB ETU. Nurdan has actively carried out research and consulting activities in the areas of photovoltaic devices, solution based thin film manufacturing, solar driven water splitting, photocatalytic degradation and nanostructured semiconductors. Read more








상품설명
From the Back Cover Provides a comprehensive practical review of the available hydrogen storage technologies such as: electrochemical hydrogen storage; chemical hydrogen storage; graphene and hydrogen storage; nanotechnology and hydrogen storage; carbon- based materials and hydrogen storage. Hydrogen storage is considered a key technology for stationary and portable power generation especially for transportation. This volume covers the novel technologies to efficiently store and distribute hydrogen and discusses the underlying basics as well as the advanced details in hydrogen storage technologies. The book has two major parts: Chemical and electrochemical hydrogen storage and Carbon-based materials for hydrogen storage. The following subjects are detailed in Part I: Multi stage compression system based on metal hydrides; Metal-N-H systems and their physico-chemical properties; Mg-based nano materials with enhanced sorption kinetics; Gaseous and electrochemical hydrogen storage in the Ti-Z-Ni; Electrochemical methods for hydrogenation/dehydrogenation of metal hydrides. In Part II the following subjects are addressed: Activated carbon for hydrogen storage obtained from agro-industrial waste; Hydrogen storage using carbonaceous materials; Hydrogen storage performance of composite material consisting of single walled carbon nanotubes and metal oxide nanoparticles; Hydrogen storage characteristics of graphene addition of hydrogen storage materials; Discussion of the crucial features of hydrogen adsorption of nanotextured carbon-based materials. Audience The book will have a wide audience including those in electrochemistry, physics, materials science and engineering, mechanical and chemical engineering as well as renewable energy and storage technologies. Read more About the Author Mehmet Sankir received his PhD degree in Macromolecular Science and Engineering from the Virginia Polytechnic and State University, USA in 2005. He is a Full Professor in the Department of Materials Science and Nanotechnology Engineering, TOBB University of Economics and Technology, Ankara, Turkey and group leader of Advanced Membrane Technologies Laboratory. Dr. Sankir has actively carried out research and consulting activities in the areas of membranes for fuel cells, flow batteries, hydrogen generation and desalination. Nurdan Demirci Sankir is an Associate Professor in the Materials Science and Nanotechnology Engineering Department at the TOBB University of Economics and Technology (TOBB ETU), Ankara, Turkey. She received her MEng and PhD degrees in Materials Science and Engineering from the Virginia Polytechnic and State University, USA in 2005. She established the Energy Research and Solar Cell Laboratories at TOBB ETU. Nurdan has actively carried out research and consulting activities in the areas of photovoltaic devices, solution based thin film manufacturing, solar driven water splitting, photocatalytic degradation and nanostructured semiconductors. Read more




2019-11-01 13:09:37