Transition to Hydrogen Pathways Toward Clean Transportation 1st Edition by Alexander Wokaun, Erik Wilhelm ISBN 0521192889 9780521192880

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ISBN 10: 0521192889 
ISBN 13: 9780521192880
Author: Alexander Wokaun, Erik Wilhelm

“Transition to Hydrogen: Pathways Toward Clean Transportation” by Alexander Wokaun is an in-depth exploration of hydrogen as a key enabler for sustainable and clean transportation. This first edition offers a thorough analysis of the technological, economic, and environmental challenges and opportunities associated with hydrogen adoption in the transport sector. Wokaun examines the potential of hydrogen fuel cells, infrastructure development, and the integration of renewable energy sources to facilitate a transition from conventional fossil fuels to a more sustainable future. With its detailed approach, this book serves as an essential resource for policymakers, engineers, and researchers interested in advancing clean transportation solutions through hydrogen technology.

Transition to Hydrogen Pathways Toward Clean Transportation 1st Table of contents:

Chapter 1: Introduction to Hydrogen and Clean Transportation

• 1.1 Overview of the Global Energy and Transportation Landscape

• 1.2 The Need for Clean Alternatives: Emissions, Climate Change, and Energy Security

• 1.3 Hydrogen as a Clean Energy Solution: Basics and Potential

• 1.4 Key Drivers for Hydrogen in the Transportation Sector

Chapter 2: Hydrogen Technologies and Infrastructure

• 2.1 The Chemistry of Hydrogen: Production, Storage, and Distribution

• 2.2 Hydrogen Production Methods: Electrolysis, Steam Methane Reforming, and More

• 2.3 Hydrogen Storage Technologies: Compressed, Liquid, and Solid-State

• 2.4 Developing the Hydrogen Infrastructure: Fueling Stations, Pipelines, and Distribution Networks

• 2.5 The Role of Renewable Energy in Green Hydrogen Production

Chapter 3: Hydrogen in Road Transport

• 3.1 Hydrogen Fuel Cell Vehicles (FCVs): Technology and Market Overview

• 3.2 Passenger Cars: Opportunities and Challenges for Hydrogen Adoption

• 3.3 Heavy-Duty Transport: Trucks, Buses, and Freight

• 3.4 Light Commercial Vehicles and the Hydrogen Advantage

• 3.5 Key Manufacturers and Industry Players in Hydrogen Road Transport

Chapter 4: Hydrogen in Rail, Maritime, and Aviation Transport

• 4.1 Hydrogen-Powered Trains: Current Developments and Future Prospects

• 4.2 Hydrogen in Shipping: Decarbonizing the Maritime Industry

• 4.3 The Promise of Hydrogen for Aviation: Challenges and Opportunities

• 4.4 Integrating Hydrogen into Multi-Modal Transport Systems

Chapter 5: Hydrogen and the Decarbonization of Public Transit

• 5.1 Hydrogen-Powered Buses and Public Transportation Fleets

• 5.2 Case Studies of Hydrogen Transit Systems in Cities Around the World

• 5.3 Policy and Incentives for Hydrogen in Public Transport

• 5.4 The Environmental and Economic Benefits of Hydrogen Public Transit Solutions

Chapter 6: Environmental Impacts and Sustainability of Hydrogen

• 6.1 Life Cycle Assessment of Hydrogen Fuel Production

• 6.2 Emission Reduction Potential of Hydrogen Vehicles

• 6.3 The Sustainability of Hydrogen Supply Chains

• 6.4 The Role of Hydrogen in Achieving Net-Zero Emissions in Transportation

Chapter 7: Economic and Market Considerations for Hydrogen Transport

• 7.1 The Economics of Hydrogen Production: Costs and Competitiveness

• 7.2 Market Dynamics: Supply, Demand, and Global Hydrogen Markets

• 7.3 Financial Incentives and Policy Support for Hydrogen Adoption

• 7.4 Economic Viability of Hydrogen vs. Other Alternatives (e.g., EVs, Biofuels)

Chapter 8: Policy, Regulation, and Global Initiatives

• 8.1 Global Hydrogen Strategies: EU, Japan, South Korea, and the U.S.

• 8.2 National and Regional Policy Frameworks Supporting Hydrogen Transport

• 8.3 Government Incentives, Subsidies, and Taxation Policies

• 8.4 International Standards for Hydrogen Safety and Transport

• 8.5 Hydrogen and the Green Deal: Global Cooperation for a Clean Transport Future

Chapter 9: Challenges and Barriers to Hydrogen Adoption in Transport

• 9.1 Technological Hurdles: Efficiency, Cost, and Infrastructure Development

• 9.2 Scaling Up Hydrogen Production and Storage Technologies

• 9.3 Public Perception, Consumer Acceptance, and Market Readiness

• 9.4 Regulatory and Political Barriers to Widespread Adoption

Chapter 10: Future Prospects and Pathways Toward a Hydrogen-Based Transportation System

• 10.1 Scaling Hydrogen Infrastructure: Feasibility and Roadmaps

• 10.2 Innovation and Emerging Technologies in Hydrogen Transport

• 10.3 The Role of Hydrogen in the Post-Petroleum Future

• 10.4 Integrating Hydrogen with Other Clean Energy Solutions

• 10.5 Long-Term Vision: Hydrogen as a Key Pillar of Global Clean Transportation Systems

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Tags: Alexander Wokaun, Erik Wilhelm, Hydrogen Pathways