Transition Analysis of Budgetary Allocation for Projects on Hydrogen-Related Technologies in Japan

Hikima, Kazuhiro; Tsujimoto, Masaharu; Takeuchi, Mizutomo; Kajikawa, Yuya

doi:10.3390/su12208546

Cited by 11 publications

(5 citation statements)

References 27 publications

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“…In Japan, much budget has been spent on fuel cells research in the last decades, although with little impact on the actual deployment of commercial applications [113]. In contrast, little focus has been put on other steps of the supply chain, resulting in low national expertise on generation and supply.…”

Section: National Strategiesmentioning

confidence: 99%

The Role of Green and Blue Hydrogen in the Energy Transition—A Technological and Geopolitical Perspective

et al. 2020

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Hydrogen is currently enjoying a renewed and widespread momentum in many national and international climate strategies. This review paper is focused on analysing the challenges and opportunities that are related to green and blue hydrogen, which are at the basis of different perspectives of a potential hydrogen society. While many governments and private companies are putting significant resources on the development of hydrogen technologies, there still remains a high number of unsolved issues, including technical challenges, economic and geopolitical implications. The hydrogen supply chain includes a large number of steps, resulting in additional energy losses, and while much focus is put on hydrogen generation costs, its transport and storage should not be neglected. A low-carbon hydrogen economy offers promising opportunities not only to fight climate change, but also to enhance energy security and develop local industries in many countries. However, to face the huge challenges of a transition towards a zero-carbon energy system, all available technologies should be allowed to contribute based on measurable indicators, which require a strong international consensus based on transparent standards and targets.

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Section: National Strategiesmentioning

confidence: 99%

The Role of Green and Blue Hydrogen in the Energy Transition—A Technological and Geopolitical Perspective

et al. 2020

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“…Japan has been a pioneer in the adoption of hydrogen technology, particularly in the development of catalyst materials for various hydrogen production methods. The country has made significant investments in research and development to enhance catalyst materials, including advanced metal-based catalysts and cutting-edge technologies for electrolysis processes (Ayo-Farai et al, 2023; Hikima et al, 2020). Japanese researchers have also focused on catalysts for ammonia decomposition, which is a promising avenue for sustainable hydrogen production (Zhan et al, 2016).…”

Section: Advancements In Catalyst Materials For Hydrogen Productionmentioning

confidence: 99%

Material science in hydrogen energy: A review of global progress and potential

Igberaese clinton festus-ikhuoria,

Nwankwo Constance Obiuto,

Oladiran Kayode Olajiga

et al. 2023

World J. Adv. Res. Rev.

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This Review provides a concise overview of the comprehensive exploration into the advancements, challenges, and future prospects of material science in the context of hydrogen energy. This review encapsulates the global progress made in harnessing materials for hydrogen-related applications and illuminates the untapped potential within this dynamic field. This review scrutinizes the pivotal role of material science in shaping the landscape of hydrogen energy, underscoring its significance in addressing critical challenges and unlocking opportunities for sustainable energy solutions. The Review encapsulates the essence of the comprehensive analysis, which spans the exploration of novel materials for hydrogen production, storage, and utilization, presenting a holistic perspective on the intricate interplay between materials and hydrogen technologies. The Review provides a snapshot of key themes, including advancements in catalyst materials for efficient hydrogen production, innovations in storage materials to overcome challenges related to safety and capacity, and the development of materials for fuel cells to enhance the efficiency of hydrogen utilization. It also hints at the global dimension of this review, acknowledging the collaborative efforts and breakthroughs across diverse regions. In essence, the Review sets the stage for an in-depth journey through the current state of material science in hydrogen energy, offering insights into the transformative potential of materials and their role in shaping a sustainable and hydrogen-centric energy landscape globally. The Review acts as a teaser, inviting readers to delve into a comprehensive exploration of the intricate and promising realm of material science in the context of hydrogen energy.

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“…These studies also highlight the last decade's increase in coal consumption up to a maximum of 29.9% of the world's primary energy, corresponding to the year 2012 [3]. Simultaneously, consequences of natural disasters that led to Fukushima's nuclear power plant accident forced the Japanese government to move away from nuclear energy, reducing its dependence by 89% (6.9% around the world) [4,5]. Knowing that coal-fired power plants are able to reach efficiencies up to 41% [3], reducing heat waste appears as a key goal to envisage in the immediate future, both from a technological and economical viewpoint.…”

Section: Introductionmentioning

confidence: 99%

Literature Review of Energy Management in Combined Heat and Power Systems Based on High-Temperature Proton Exchange Membrane Fuel Cells for Residential Comfort Applications

López

Costa‐Castelló

Batlle³

2022

Energies

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Combined heat and power technologies represent an efficient way to ensure energy efficiency, as they promote usage of both electrical and thermal energy, something not done by most traditional energy sources, especially in residential environments. In this context, high-temperature proton exchange membrane fuel cells allow the implementation of combined heat and power systems. Additionally, in this environment, fuel cells are more efficient and less polluting than their traditional counterparts. We present a literature review of energy management in residential systems based on this type of fuel cell. In addition, we classify and detail the current state of fuel cell technologies, paying special attention to their characteristics, mathematical modelling and control, as well as combined heat and power systems and energy management strategies.

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Transition Analysis of Budgetary Allocation for Projects on Hydrogen-Related Technologies in Japan

Cited by 11 publications

References 27 publications

The Role of Green and Blue Hydrogen in the Energy Transition—A Technological and Geopolitical Perspective

The Role of Green and Blue Hydrogen in the Energy Transition—A Technological and Geopolitical Perspective

Material science in hydrogen energy: A review of global progress and potential

Literature Review of Energy Management in Combined Heat and Power Systems Based on High-Temperature Proton Exchange Membrane Fuel Cells for Residential Comfort Applications

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