Hydrogen energy and vehicle systems / edited Scott E. Grasman.
Material type:
TextSeries: Green chemistry and chemical engineeringPublisher: c2013Description: xxvii, 332 pages : illustrations ; 24 cmISBN: 9781439826812 Subject(s): Hydrogen as fuel | Fuel cells | Hybrid electric cars | SCIENCE / Chemistry / Industrial & Technical | SCIENCE / Energy | TECHNOLOGY & ENGINEERING / Power Resources / Alternative & RenewableDDC classification: 665.81 LOC classification: TP359.H8 | H935 2013Other classification: SCI013060 | SCI024000 | TEC031010 Online resources: Cover image Summary: "Preface Purpose and Audience Hydrogen shows great promise both as an energy carrier and as a fuel for transportation, portable, and stationary sources; however, the expanded use of hydrogen as a renewable energy source raises a number of concerns and challenges that complicate planning efforts. Organizations are researching, developing, and validating hydrogen pathways to establish a business case for market implementation. However, significant research and educational challenges still must be addressed. The use of hydrogen technologies addresses critical societal issues related to energy security, stability, and sustainability. First, hydrogen may be produced from local resources, thus eliminating the need for complex energy/fuel supply lines. Second, hydrogen, used in conjunction with renewable energy sources, provides a stable method of energy/fuel production. Third, hydrogen produced from renewable sources provides clean, emission-free energy/fuel. Hydrogen technology constitutes a highly interdisciplinary field that extends from the fundamentals of materials, electrochemical processes, and fuel processing/storage systems, to complex design concepts for hybrid vehicles, and renewable power/fuel systems. Infrastructure analysis, market transformation, public policy, safety, and environment also play key roles. Additionally, sustainable energy systems is an emerging field that aims to develop new and improved energy technologies, systems, and services, while understanding the impact of energy on the economy and society. Hydrogen technology research encompasses traditional engineering disciplines (biological, chemical, electrical, environmental, geological, material science, mechanical, systems), sciences (biology, chemistry, mathematics, physics)"--
| Item type | Current location | Home library | Collection | Shelving location | Call number | Status | Date due | Barcode | Item holds |
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Book
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US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | NFIC | General Stacks | 665.81 HYD 2013 (Browse shelf) | Available | CAS-E0000367 |
"A Chapman & Hall book"--Cover.
Includes bibliographical references and index.
"Preface Purpose and Audience Hydrogen shows great promise both as an energy carrier and as a fuel for transportation, portable, and stationary sources; however, the expanded use of hydrogen as a renewable energy source raises a number of concerns and challenges that complicate planning efforts. Organizations are researching, developing, and validating hydrogen pathways to establish a business case for market implementation. However, significant research and educational challenges still must be addressed. The use of hydrogen technologies addresses critical societal issues related to energy security, stability, and sustainability. First, hydrogen may be produced from local resources, thus eliminating the need for complex energy/fuel supply lines. Second, hydrogen, used in conjunction with renewable energy sources, provides a stable method of energy/fuel production. Third, hydrogen produced from renewable sources provides clean, emission-free energy/fuel. Hydrogen technology constitutes a highly interdisciplinary field that extends from the fundamentals of materials, electrochemical processes, and fuel processing/storage systems, to complex design concepts for hybrid vehicles, and renewable power/fuel systems. Infrastructure analysis, market transformation, public policy, safety, and environment also play key roles. Additionally, sustainable energy systems is an emerging field that aims to develop new and improved energy technologies, systems, and services, while understanding the impact of energy on the economy and society. Hydrogen technology research encompasses traditional engineering disciplines (biological, chemical, electrical, environmental, geological, material science, mechanical, systems), sciences (biology, chemistry, mathematics, physics)"--
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