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  • Understanding Urban Cycling : Exploring the Relationship Between Mobility, Sustainability and Capital
    Understanding Urban Cycling : Exploring the Relationship Between Mobility, Sustainability and Capital

    Academic interest in cycling has burgeoned in recent years with significant literature relating to the health and environmental benefits of cycling, the necessity for cycle-specific infrastructure, and the embodied experiences of cycling. Based upon primary research in a variety of contexts such as London, Shanghai and Taipei, this book demonstrates that recent developments in urban cycling policy and practice are closely linked to broader processes of capital accumulation.It argues that cycling is increasingly caught up in discourses around smart cities that emphasise technological solutions to environmental problems and neoliberal ideas on individual responsibility and bio-political conduct, which only results in solutions that prioritise those who are already mobile.Accordingly, the central argument of the book is not that the popularisation of cycling is inherently bad, but that the manner in which cycling is being popularised gives cause for social and environmental concern.Ultimately the book argues that cycling has now become a vehicle for sustaining pro-growth agendas rather than subverting them or shifting to sustainable no-growth/de-growth and less technologically driven visions of modernity. This book makes an innovative contribution to the fields of Cycling Studies, Mobilities and Transport and will be of interest to students and academics working in Human Geography, Transport Studies, Urban Studies, Urban Planning, Public Policy, Sociology and Sustainability.

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  • Managing Urban Mobility Systems
    Managing Urban Mobility Systems

    Urban mobility is currently a major problem all over the world.Space is limited, and individuals aim for a level of quality in mobility that is only achieved by largely motorised solutions, which have a detrimental effect on the urban environment.Careful analysis of urban mobility systems across the world reveals that consistent and effective policies can only be defined and implemented if the various components of the system and their interrelations are considered.This book addresses the problem of managing urban mobility systems in a novel way by considering the complexity and diversity of the conurbation and agents involved in a UMS, putting forward the evidence that urban mobility must be managed at system level.The value of this book lies in bringing together a sound theoretical approach to urban mobility systems supported by evidence from several cities across the world where this approach was either implemented or at least assessed, together with clear instructional guidelines.It constitutes a handbook for practitioners, politicians, researchers and students of urban mobility management.

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  • A U-Turn to the Future : Sustainable Urban Mobility since 1850
    A U-Turn to the Future : Sustainable Urban Mobility since 1850

    From local bike-sharing initiatives to overhauls of transport infrastructure, mobility is one of the most important areas in which modern cities are trying to realize a more sustainable future.Yet even as politicians and planners look ahead, there remain critical insights to be gleaned from the history of urban mobility and the unsustainable practices that still impact our everyday lives.United by their pursuit of a “usable past,” the studies in this interdisciplinary collection consider the ecological, social, and economic aspects of urban mobility, showing how historical inquiry can make both conceptual and practical contributions to the projects of sustainability and urban renewal.

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  • Urban Air Mobility : Intelligent, Safe and Sustainable Systems for Future Transportation
    Urban Air Mobility : Intelligent, Safe and Sustainable Systems for Future Transportation

    This book is a resource for engineers and researchers to develop intelligent, safe, and sustainable systems for urban air mobility.In recent years, the growth of the world’s urban population has increased tremendously, and it is predicted that by 2040, 70% of the world population will be living in an urban setting.Existing ground transportation will be unable to cope with such an expansion, especially as congestion and over-crowding becomes more common.An answer may be found with the advent of recent technologies such as urban air mobility, which may play a vital role in providing solutions for public transportation. The impact of modelling, analysis and application of intelligent algorithms is very much at the core of the design and implementation of Urban Air Mobility.The various chapters are configured to address the challenges in modelling, analysis, navigation, traffic control, battery efficiency, safety and security in terms of Artificial intelligence techniques.

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  • Which stocks are in the E-Mobility Hydrogen Index?

    The E-Mobility Hydrogen Index includes stocks of companies that are involved in the production, development, or utilization of hydrogen fuel cell technology for electric vehicles. Some of the stocks in this index may include companies like Plug Power, Ballard Power Systems, ITM Power, and FuelCell Energy. These companies are at the forefront of the e-mobility industry, focusing on advancing hydrogen fuel cell technology to power electric vehicles and reduce carbon emissions.

  • What are the key milestones in the history of hydrogen mobility?

    The key milestones in the history of hydrogen mobility include the development of the first fuel cell vehicle in 1966 by General Motors, the establishment of the first hydrogen fueling stations in the early 2000s, and the introduction of commercial fuel cell vehicles by automakers such as Toyota, Honda, and Hyundai in the 2010s. Another important milestone was the launch of government initiatives and policies to support the development of hydrogen infrastructure and vehicles, such as the California Fuel Cell Partnership and the European Union's Hydrogen Mobility Europe program. Additionally, the increasing investment in hydrogen production and infrastructure, as well as the expansion of hydrogen fueling networks, are also significant milestones in the history of hydrogen mobility.

  • How will future mobility be influenced?

    Future mobility will be influenced by advancements in technology, such as the development of autonomous vehicles and electric cars. These innovations will lead to more efficient and sustainable transportation options. Additionally, the integration of smart city infrastructure and the rise of shared mobility services will also play a significant role in shaping the future of mobility. Overall, future mobility will be characterized by increased connectivity, reduced environmental impact, and a shift towards more convenient and flexible transportation solutions.

  • Are hydrogen engines the future or electric engines?

    The future of transportation is likely to involve a combination of both hydrogen and electric engines. Electric engines are currently more widely adopted and have advanced infrastructure for charging, but hydrogen engines offer the advantage of faster refueling and longer driving ranges. Both technologies have their own strengths and weaknesses, and it is likely that they will coexist and complement each other in the future, with different applications and use cases. Ultimately, the future of engines will depend on continued technological advancements, infrastructure development, and market demand.

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  • Hydrogen Economy, The: Fundamentals, Technology, Economics
    Hydrogen Economy, The: Fundamentals, Technology, Economics

    The 'Hydrogen Economy' is very broad subject ranging from the potential use of hydrogen for domestic use to the mass production of hydrogen replacing coal, natural gas (LNG) and conventional transport fuels.For any given project, there are many alternatives to consider for each stage of making, storing and transporting hydrogen.The book aims to assist proponents, and financiers of hydrogen projects to identify the optimum alternatives and identify hurdles and approaches to overcome them.This book attempts to describe an optimum approach to implement and its cost. It sets out to identify hurdles to implementation which may not be apparent to those entering the field for the first time.The book covers the various means and costs of production from fossil fuels (with carbon capture) - blue hydrogen - electrolysis - green hydrogen - or biomass.The book covers hydrogen storage as liquid or compressed gas and transport, through pipelines as liquid or by an intermediary fluid such as ammonia or a hydrocarbon.The book also discusses the production and costs of hydrogen delivery at the user end of a logistics chain.It also compares the relative energy value of energy delivered hydrogen versus the current suite of conventional fuels.

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  • The Future of E-Mobility : Investigating the Role of Electric Mobility for Consumers and Industries
    The Future of E-Mobility : Investigating the Role of Electric Mobility for Consumers and Industries

    E-mobility is the future. Its development and consumer adoption are strongly contributing to several of the UN's Sustainable Development Goals, playing a huge role in the shift from linear to circular economies.Providing extensive insight into this dynamic, the book reviews extant management and marketing research describing the E-mobility state-of-the-art literature from a twofold perspective; industries and consumers.Industries must consider the benefits and drawbacks related to E-mobility implementation in their business models and strategies, including the communication (online and offline) to stakeholders of such advancements.Meanwhile, consumers experience different perceptions and motivations including barriers related to the adoption of E-mobility, leading in turn to different behaviors across generational cohorts (e.g.Gen Z and Gen Alpha versus Millennials). Offering an empirical analysis based on a consumer survey, this book sheds light on all these aspects, thus giving useful insights to academics, marketers and policy makers into the challenges facing consumers in their E-mobility adoption.

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  • Compendium of Hydrogen Energy : Hydrogen Use, Safety and the Hydrogen Economy
    Compendium of Hydrogen Energy : Hydrogen Use, Safety and the Hydrogen Economy

    Compendium of Hydrogen Energy Volume 4: Hydrogen Use, Safety and the Hydrogen Economy focuses on the uses of hydrogen.As many experts believe the hydrogen economy will, at some point, replace the fossil fuel economy as the primary source of the world’s energy, this book investigates the uses of this energy, from transport, to stationary and portable applications, with final sections discussing the difficulties and possibilities of the widespread adoption of the hydrogen economy.

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  • 20A Hydrogen Generator Electrolytic Water Hydrogen Production Electrolytic PEM Cell Hydrogen
    20A Hydrogen Generator Electrolytic Water Hydrogen Production Electrolytic PEM Cell Hydrogen

    20A Hydrogen Generator Electrolytic Water Hydrogen Production Electrolytic PEM Cell Hydrogen

    Price: 36.09 € | Shipping*: 9.55 €
  • What is solar hydrogen technology?

    Solar hydrogen technology is a process that uses solar energy to produce hydrogen gas through water electrolysis. This involves splitting water molecules into hydrogen and oxygen using electricity generated by solar panels. The hydrogen gas produced can then be stored and used as a clean and renewable energy source for various applications, such as fuel cells for vehicles or electricity generation. This technology is considered a promising solution for reducing greenhouse gas emissions and transitioning towards a more sustainable energy system.

  • Hydrogen or Electric 2?

    When deciding between hydrogen and electric vehicles, it ultimately depends on individual preferences and needs. Hydrogen vehicles offer longer driving ranges and quicker refueling times compared to electric vehicles, but they have limited infrastructure and higher costs. On the other hand, electric vehicles are more widely available, have lower operating costs, and are more environmentally friendly due to their zero emissions. Consider factors such as driving habits, access to charging stations, and environmental impact when choosing between the two options.

  • Hydrogen or electric car?

    The choice between a hydrogen car and an electric car depends on various factors. Electric cars are more widely available and have a more established infrastructure for charging. They are also more energy-efficient and environmentally friendly. On the other hand, hydrogen cars have a longer driving range and can be refueled faster than electric cars. However, the infrastructure for hydrogen refueling stations is still limited. Ultimately, the decision between a hydrogen car and an electric car should be based on individual needs and priorities.

  • Do you think that the failed e-mobility will soon be replaced by hydrogen-powered cars?

    It's difficult to predict the future of e-mobility and hydrogen-powered cars, but both technologies have their own advantages and challenges. While e-mobility has seen significant advancements in recent years, hydrogen-powered cars are also gaining attention due to their potential for longer driving ranges and faster refueling times. However, the infrastructure for hydrogen fueling stations is still limited, and the production of hydrogen itself can be energy-intensive. It's possible that both technologies will coexist and complement each other in the future, rather than one completely replacing the other.

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