Updated on 2024/10/06

Information

 

写真a

 
TAKEDA SHUTARO
 
Organization
Urban Insitute Associate Professor
Title
Associate Professor
Contact information
メールアドレス
Profile
Founder and a proponent of sustainametrics - a new academic approach to envision a sustainable future with data science. Former United Nations officer at the International Atomic Energy Agency, and currently a Co-Founder & Chief Strategist of Kyoto Fusioneering Ltd.
Homepage

Research Areas

  • Energy Engineering / Nuclear fusion

  • Energy Engineering / Earth resource engineering, Energy sciences

Degree

  • Bachelor of Engineering, Kyoto University Faculty of Engineering

  • Master’s Degree Equiv. in Energy Economics, Kyoto University Graduate School of Human Survivability

  • Master of Liberal Arts in Sustainability, Harvard University Extension School

  • Ph.D. in Energy Science, Kyoto University Graduate School of Energy Science

Research History

  • Kyushu University Urban Institute Associate Professor

    2022.5 - Present

      More details

  • Kyoto University GSAIS Associate Professor (Program-Specific)

    2021.3 - 2022.4

      More details

    Country:Japan

    researchmap

  • Kyoto Fusioneering Ltd. Co-founder & Chief Strategist

    2019.10 - Present

      More details

  • 2020年1月 国際原子力機関IAEA プロジェクト准担当官 2019年10月 京都フュージョニアリング株式会社 Co-Founder & Chief Strategist 2015年7月 独立行政法人国際協力機構 青年海外協力隊 バングラデシュ派遣 2013年8月 陸上自衛隊中部方面隊 予備2等陸曹

    2020年1月 国際原子力機関IAEA プロジェクト准担当官 2019年10月 京都フュージョニアリング株式会社 Co-Founder & Chief Strategist 2015年7月 独立行政法人国際協力機構 青年海外協力隊 バングラデシュ派遣 2013年8月 陸上自衛隊中部方面隊 予備2等陸曹

  • 2021年3月 京都大学大学院総合生存学館 特定准教授 2018年4月 京都大学大学院総合生存学館 特任助教 2016年4月 日本学術振興会 特別研究員(DC1)

Research Interests・Research Keywords

  • Research theme:Sustainametrics

    Keyword:Sustainametrics

    Research period: 2024

  • Research theme:Hydrogen Energy

    Keyword:Hydrogen Energy

    Research period: 2024

  • Research theme:nuclear fusion

    Keyword:nuclear fusion

    Research period: 2024

  • Research theme:renewable energy

    Keyword:renewable energy

    Research period: 2024

  • Research theme:Energy System

    Keyword:Energy System

    Research period: 2024

Awards

  • World OMOSIROI Award 10th.

    2024.2  

     More details

  • Japan-US Innovation Award

    2022.7   Stanford US-Asia Technology Management Center  

     More details

  • Knight of Magistral Grace

    2022.6   Order of Malta  

     More details

  • 若手キャリア賞

    2021.12   英国物理学会IOP  

  • 事務局長 特別功労賞

    2020.12  

  • 成績優等 学科長表彰

    2019.5   ハーバード大学大学院  

  • International Young Energy Professional of the Year

    2018.10   AEE   International Young Energy Professional of the Year

  • フェロー

    2018.5   英国ロイヤル・ソサエティ・オブ・アーツ  

  • 博士後期課程1年短縮修了(研究科初)

    2018.3   京都大学エネルギー科学研究科  

  • Member

    2017.12   International Distinguished Scholars Honor Society,   Member

  • PhD Poster Prize

    2016.9   29th Symposium on Fusion Technology   PhD Poster Prize

  • Key Scientific Article

    2016.2   Renewable Energy Global Innovations   Key Scientific Article

  • 関西支部賞(奨励賞)

    2015.10   第11回日本原子力学会関西支部若手研究発表会  

  • 最優秀賞

    2015.3   日本原子力学会 2015春の年会  

  • 学際研究着想コンテスト激励賞

    2014.8   京都大学  

  • 特待生奨励金

    2014.4   京都大学大学院思修館  

  • 主席合格

    2013.8   京都大学大学院エネルギー科学研究科エネルギー変換専攻  

▼display all

Papers

  • 若手スタートアップが考えるスタートアップ

    武田秀太郎

    学術の動向   2024 ( 10 )   2024.10

     More details

    Authorship:Lead author, Last author, Corresponding author  

  • 日本国民の核融合研究開発に対する税負担意思額 Reviewed

    岩本みさ, 馬奈木俊介, 武田秀太郎

    Journal of plasma and fusion research   100 ( 5 )   231 - 237   2024.6

     More details

    Authorship:Last author, Corresponding author  

  • Review of the Global Fusion Startups Scene Invited Reviewed

    Shutaro Takeda

    46 ( 3 )   2023.10

     More details

    Authorship:Lead author, Corresponding author  

    researchmap

  • A Framework to Enhance Financing Capacity and Incentivise Preservation of Natural Assets

    Alexander Ryota Keeley, Alin Halimatussadiah, Bambang Brodjonegoro, Matthew Agarwala, Muhammad Adriansyah, Robi Kurniawan, Roes Ebara Gikami Lufti, Shunsuke Managi, Shutaro Takeda, Teuku Riefky

    ORF: Observer Research Foundation   2023.7

     More details

    Language:Others  

    A Framework to Enhance Financing Capacity and Incentivise Preservation of Natural Assets

  • Potential for reducing CO_2 emissions from passenger cars in Japan by 2030 to achieve carbon neutrality

    Rinawati Dyah Ika, Keeley Alexander Ryota, Takeda Shutaro, Itsubo Norihiro, Managi Shunsuke

    IATSS Research   47 ( 2 )   185 - 195   2023.7   ISSN:03861112 eISSN:2210-4240

     More details

    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Elsevier BV  

    For Japan to achieve its targets for carbon neutrality and reduction of carbon dioxide (CO_2) emissions, decarbonization of road transport is essential. Japan regards next-generation vehicles, including hybrid electric vehicles (HEVs), plug-in hybrid electric vehicles (PHEVs), battery electric vehicles (BEVs), and fuel cell vehicles, as a key means of reducing carbon emissions from road transport. Four scenarios were proposed to predict the potential carbon emissions reduction of passenger car use in 2030: baseline, business-as-usual, government's target-based, and aggressive scenarios. Economic input–output life cycle assessment was used to evaluate potential CO_2 emissions, acidification, eutrophication, human toxicity, and photochemical oxidation associated with passenger cars. In this study, all environmental impacts were calculated using the multi-regional environmentally extended supply and use/input–output database by applying the CML 2001 impact assessment method. The findings indicate that PHEVs have the lowest CO_2 emissions per km traveled, followed by HEVs and BEVs. The prediction for carbon emissions from passenger cars shows that adopting electrified vehicles, such as HEVs, PHEVs, and BEVs could help decarbonize the passenger car sector. The population of vehicles, vehicle manufacturing, well-to-wheel cycle of fuel, and fuel economy will significantly contribute to CO_2 emissions. Finally, this study recommends policies to steer Japan into achieving its goal of carbon neutrality.

    DOI: 10.1016/j.iatssr.2023.02.004

    Web of Science

    Scopus

    CiNii Research

    researchmap

  • A Framework to Enhance Financing Capacity and Incentivise Preservation of Natural Assets

    Alexander Ryota Keeley, Alin Halimatussadiah, Bambang Brodjonegoro, Matthew Agarwala, Muhammad Adriansyah, Robi Kurniawan, Roes Ebara Gikami Lufti, Shunsuke Managi, Shutaro Takeda, Teuku Riefky

    ORF: Observer Research Foundation   2023.7

     More details

  • How Many Years Away is Fusion Energy? A Review

    Shutaro Takeda, Alexander Ryota Keeley, Shunsuke Managi

    Journal of Fusion Energy   42 ( 1 )   2023.6

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    DOI: 10.1007/s10894-023-00361-z

  • Kyoto Fusioneering's Mission to Accelerate Fusion Energy: Technologies, Challenges and Role in Industrialisation (vol 42, 10, 2023)

    Baus, C; Barron, P; D'Angio, A; Hirata, Y; Konishi, S; Mund, J; Nagao, T; Nakahara, D; Pearson, R; Sakaguchi, M; Sakamoto, K; Seko, K; Takeda, S; Wilson, A; Yoshioka, Y

    JOURNAL OF FUSION ENERGY   42 ( 1 )   2023.6   ISSN:0164-0313 eISSN:1572-9591

     More details

    Publisher:Journal of Fusion Energy  

    Journal of Fusion Energy (2023) 42:10 The original version of the above article, unfortunately the correction requested to replace Fig. 5 with Fig. 4 during the proofing stage was misunderstood by the typesetting team and the article forwarded for publication. This has been corrected by publishing this correction article. The original article has been corrected.

    DOI: 10.1007/s10894-023-00364-w

    Web of Science

    Scopus

  • How Many Years Away is Fusion Energy? A Review

    Takeda Shutaro, Keeley Alexander Ryota, Managi Shunsuke

    Journal of Fusion Energy   42   2023.5   ISSN:01640313 eISSN:15729591

     More details

    Language:English  

    article number 16

    CiNii Research

  • Kyoto Fusioneering’s Mission to Accelerate Fusion Energy: Technologies, Challenges and Role in Industrialisation

    Colin Baus, Paul Barron, Andrea D’Angiò, Yosuke Hirata, Satoshi Konishi, Jasmine Mund, Taka Nagao, Daisuke Nakahara, Richard Pearson, Masatsugu Sakaguchi, Keishi Sakamoto, Kiyoshi Seko, Shutaro Takeda, Andy Wilson, Yuto Yoshioka

    Journal of Fusion Energy   42 ( 1 )   2023.4   ISSN:0164-0313 eISSN:1572-9591

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Springer Science and Business Media LLC  

    Abstract

    Making fusion power viable both technologically and commercially has been a challenge for decades due to the great complexity of the science and engineering challenges. In recent years, changes in both government policies and the emergence of private fusion companies have ushered a newfound push to accelerate fusion energy development. Kyoto Fusioneering (KF) is a privately funded fusion engineering start-up, founded to accelerate the development of high performance, commercially viable technologies that will be required for a fusion power plant, specifically those associated with heating and current drive systems, power generation, and the tritium fuel cycle. The company is focused on supporting the rapid expansion of the budding fusion industry. This paper provides a high-level description of some of the technical and industrial challenges it is tackling in developing a commercial fusion reactor, in particular in relation to: plasma heating with gyrotrons, tritium handling and breeding, energy conversion, and fusion materials. It provides an overview of KF's activities in finding solutions to challenges in each of these areas, including via its new testing facility now under construction, UNITY (Unique Integrated Testing Facility). KF’s core capabilities and areas of R&D focus are discussed, with reference to how they benefit the development of a new fusion industry as a whole and bring the technology closer to industrialisation, including via UNITY and through collaboration with external partners. The importance of industrialisation and subsequently commercialisation is also discussed, through KF’s assessment of the newly emerging fusion ecosystem, and where KF as a company sits within it.

    DOI: 10.1007/s10894-023-00346-y

    Web of Science

    Scopus

    researchmap

    Other Link: https://link.springer.com/article/10.1007/s10894-023-00346-y/fulltext.html

  • Editorial: Sustainametrics—Envisioning a sustainable future with data science

    Takeda Shutaro, Keeley Alexander R., Gloria Tom, Managi Shunsuke

    Frontiers in Sustainability   4   2023.2   eISSN:26734524

     More details

  • UNITY: Kyoto Fusioneering's Unique Integrated Testing Facility for Fusion Power Generation

    Shutaro Takeda, Satoshi Ogawa, Masato Tabuchi, Yoshifumi Kume, Richard Pearson, Colin Baus, Satoshi Konishi

    Fusion Science and Technology   79 ( 8 )   1059 - 1064   2023.2   ISSN:1536-1055 eISSN:1943-7641

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    UNITY: Kyoto Fusioneering's Unique Integrated Testing Facility for Fusion Power Generation

    DOI: 10.1080/15361055.2023.2176689

    Web of Science

    Scopus

    researchmap

  • Why do I like Schumann more than Chopin? A Physiological Analysis of Pianists' Affinities for Composers

    Yuriko Watanabe, Shutaro Takeda

    Empirical Musicology Review   18 ( 1 )   2 - 16   2023   ISSN:1559-5749

     More details

    Publishing type:Research paper (scientific journal)  

    DOI: 10.18061/emr.v18i1.8385

    Web of Science

    researchmap

  • 環境親和型の低温精製技術の発展・応用

    中野 優, 武田秀太郎, 藤井 昇, 中道 勝

    金属   92 ( 12 )   2022.12

     More details

  • Overview of Kyoto Fusioneering’s SCYLLA(“Self-Cooled Yuryo Lithium-Lead Advanced”) Blanket for Commercial Fusion Reactors

    R. Pearson, C. Baus, S. Konishi, K. Mukai, A. D'Angio, S. Takeda

    IEEE Transactions on Plasma Science   50 ( 11 )   1 - 7   2022.11   ISSN:0093-3813 eISSN:1939-9375

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Institute of Electrical and Electronics Engineers (IEEE)  

    DOI: 10.1109/tps.2022.3211410

    Web of Science

    Scopus

    researchmap

  • A systematic review of the techno-economic assessment of various hydrogen production methods of power generation

    Zulfhazli, Alexander Ryota Keeley, Shutaro Takeda, Shunsuke Managi

    Frontiers in Sustainability   3   2022.10   eISSN:2673-4524

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    Hydrogen is a low or zero-carbon energy source that is considered the most promising and potential energy carrier of the future. In this study, the energy sources, feedstocks, and various methods of hydrogen production from power generation are comparatively investigated in detail. In addition, this study presents an economic assessment to evaluate cost-effectiveness based on different economic indicators, including sensitivity analysis and uncertainty analysis. Proton exchange membrane fuel cell (PEMFCs) technology has the most potential to be developed compared to several other technologies. PEMFCs have been widely used in various fields and have advantages (i.e., start-up, zero-emissions, high power density). Among the various sources of uncertainty in the sensitivity analysis, the cost estimation method shows inflationary deviations from the proposed cost of capital. This is due to the selection process and untested technology. In addition, the cost of electricity and raw materials, as the main factors that are unpredictable.

    DOI: 10.3389/frsus.2022.943145

    Web of Science

    Scopus

    researchmap

  • The commercialisation of fusion for the energy market: a review of socio-economic studies

    Thomas Griffiths, Richard Pearson, Michael Bluck, Shutaro Takeda

    Progress in Energy   4 ( 4 )   042008 - 042008   2022.10   eISSN:2516-1083

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:IOP Publishing  

    Abstract

    Progress in the development of fusion energy has gained momentum in recent years. However, questions remain across key subject areas that will affect the path to commercial fusion energy. The purpose of this review is to expose socio-economic areas that need further research, and from this assist in making recommendations to the fusion community, (and policy makers and regulators) in order to redirect and orient fusion for commercialisation: When commercialised, what form does it take? Where does it fit into a future energy system? Compared to other technologies, how much will fusion cost? Why do it? When is it likely that fusion reaches commercialisation? Investigations that have sought to answer these questions carry looming uncertainty, mainly stemming from the techno-economics of emerging fusion technology in the private sector, and due to the potential for applications outside of electricity generation coming into consideration. Such topics covered include hydrogen, desalination, and process-heat applications.

    DOI: 10.1088/2516-1083/ac84bf

    Web of Science

    Scopus

    researchmap

    Other Link: https://iopscience.iop.org/article/10.1088/2516-1083/ac84bf/pdf

  • Revisiting the measure of development: A critique of sustainametrics

    Go Okui, Shutaro Takeda

    Frontiers in Sustainability   3   2022.10   eISSN:2673-4524

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    For sustainametrics to gain a firm ground as an effective concept, the meaning of development shall be revisited first without depending on any statistical measurement. The word “development” originally meant the act of disclosure or opening a cover to disclose what is inside. Martin Heidegger (1889–1976) analyzed the significance of alētheuein, or “to bring the world out of its hidden and covered state and into ours,” and explicates that the alētheia under the condition of modern technology is dominated by a mode of revealing that is destructive to the earthly beings. Here, the danger inherent in the essence of technology, i.e., enframing [Ge-stell], renders human beings incapable of encountering the essence of beings as they are challenged and demanded to frame everything they encounter, including themselves, as mere variables. In contrast to Heidegger's thinking as releasement [Gelassenheit], Hannah Arendt's (1906–1975) conception of disclosure is closely tied to action. Following Heidegger's and Arendt's threads of thought, the authors conclude that any measures of development must be fundamentally grounded in disclosure through speech and action in the public realm. In this respect, the experts on the sustainametrics shall inspire fellow citizens to join the discourse by taking the risk of acting and speaking in public, disclosing who they are and what it is really meant for us. The course of development must ultimately be grounded in such an act of disclosure, only through which we may find something worth sustaining in our future development, and sustainametrics is no exception.

    DOI: 10.3389/frsus.2022.943202

    Web of Science

    Scopus

    researchmap

  • ESG metrics and social equity: Investigating commensurability

    Alexander R. Keeley, Andrew J. Chapman, Kenichi Yoshida, Jun Xie, Janaki Imbulana, Shutaro Takeda, Shunsuke Managi

    Frontiers in Sustainability   3   2022.9   eISSN:2673-4524

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    During the past two decades, the world has seen exponential growth in the number of companies reporting environmental, social, and governance (ESG) data, and various ESG metrics have been proposed and are now in use. ESG metrics play a crucial role as an enabler of investment strategies that consider ESG factors, which are often referred to as “ESG investments”. The ESG metrics and investment market are evolving rapidly, as investors, corporations, and the public are giving more priority to the “S” in ESG, including social equity issues, such as diversity, income inequality, worker safety, systemic racism, and companies' broader role in society. In this critical, systematic review, utilizing in-depth assessments, we investigate and compare the approaches employed in major ESG metrics and studies, then, we shed light on the “S” aspect by reviewing existing approaches used to assess social equity to clarify commensurability with ESG. Through the systematic review, this paper confirms that ESG investments can be expected to provide stable and high returns especially over the long term. This paper also clarifies how elements considered in social equity studies are largely reflected in major ESG metrics.

    DOI: 10.3389/frsus.2022.920955

    Web of Science

    Scopus

    researchmap

  • 民間資金での核融合研究 1. 世界の民間核融合業界で今何が起きているのか Invited Reviewed

    武田秀太郎, キーリー竜太アレックス, 馬奈木俊介

    日本原子力学会誌 ATOMOΣ   64 ( 10 )   553 - 556   2022.8

     More details

    Language:Others  

  • The Ultimate Owner of Environmental, Social, and Governance Investment

    Keeley Alexander R., Li Chao, Takeda Shutaro, Gloria Tom, Managi Shunsuke

    Frontiers in Sustainability   3   2022.7   eISSN:26734524

     More details

    Language:English  

    The coronavirus (COVID-19) pandemic has affected society in immeasurable ways, including investment. As the pandemic has impacted society’s values, it has proven to be a major turning point for environmental, social, and governance (ESG) investment. This investment approach, which evaluates a company’s ESG ratings alongside traditional financial metrics, was already “coming off a banner year,” and its reach continues to expand. Although numerous studies have investigated the impact of ESG scores on financial returns and the trend in ESG investment strategies, only a limited number of studies have attempted to capture the key players in ESG investment. Therefore, to determine the most influential investors in the ESG investment field, the cumulative impacts are calculated based on the ESG scores of invested companies, the total market price of invested companies, and the investor history portfolio report. We perform an iteration of calculation to convey the impacts that the invested companies have on the ultimate investors, and we identify the major players in the field and differences in the trend by type of investor and country.

    CiNii Research

  • The Ultimate Owner of Environmental, Social, and Governance Investment

    Alexander R. Keeley, Chao Li, Shutaro Takeda, Tom Gloria, Shunsuke Managi

    Frontiers in Sustainability   3   2022.7   eISSN:2673-4524

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    The coronavirus (COVID-19) pandemic has affected society in immeasurable ways, including investment. As the pandemic has impacted society's values, it has proven to be a major turning point for environmental, social, and governance (ESG) investment. This investment approach, which evaluates a company's ESG ratings alongside traditional financial metrics, was already “coming off a banner year,” and its reach continues to expand. Although numerous studies have investigated the impact of ESG scores on financial returns and the trend in ESG investment strategies, only a limited number of studies have attempted to capture the key players in ESG investment. Therefore, to determine the most influential investors in the ESG investment field, the cumulative impacts are calculated based on the ESG scores of invested companies, the total market price of invested companies, and the investor history portfolio report. We perform an iteration of calculation to convey the impacts that the invested companies have on the ultimate investors, and we identify the major players in the field and differences in the trend by type of investor and country.

    DOI: 10.3389/frsus.2022.909239

    Web of Science

    Scopus

    researchmap

  • Life-cycle assessment of hydrogen utilization in power generation: A systematic review of technological and methodological choices

    Dyah Ika Rinawati, Alexander Ryota Keeley, Shutaro Takeda, Shunsuke Managi

    Frontiers in Sustainability   3   2022.7   eISSN:2673-4524

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Frontiers Media SA  

    Interest in reducing the greenhouse gas emissions from conventional power generation has increased the focus on the potential use of hydrogen to produce electricity. Numerous life-cycle assessment (LCA) studies of hydrogen-based power generation have been published. This study reviews the technological and methodological choices made in hydrogen-based power generation LCAs. A systematic review was chosen as the research method to achieve a comprehensive and minimally biased overview of hydrogen-based power generation LCAs. Relevant articles published between 2004 and 2021 were identified by searching the Scopus and Web of Science databases. Electrolysis from renewable energy resources was the most widely considered type of hydrogen production in the LCAs analyzed. Fuel cell technology was the most common conversion equipment used in hydrogen-based electricity LCAs. A significant number of scenarios examine the use of hydrogen for energy storage and co-generation purposes. Based on qualitative analysis, the methodological choices of LCAs vary between studies in terms of the functional units, allocations, system boundaries, and life-cycle impact assessment methods chosen. These discrepancies were likely to influence the value of the environmental impact results. The findings of the reviewed LCAs could provide an environmental profile of hydrogen-based electricity systems, identify hotspots, drive future research, define performance goals, and establish a baseline for their large-scale deployment.

    DOI: 10.3389/frsus.2022.920876

    Web of Science

    Scopus

    researchmap

  • Low-carbon energy transition with the sun and forest: Solar-driven hydrogen production from biomass

    Shutaro Takeda, Hoseok Nam, Andrew Chapman

    International Journal of Hydrogen Energy   47 ( 58 )   24651 - 24668   2022.7   ISSN:0360-3199 eISSN:1879-3487

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Elsevier BV  

    There is a need to derive hydrogen from renewable sources, and the innovative stewardship of two natural resources, namely the Sun and forest, could provide a new pathway. This paper provides the first comparative analysis of solar-driven hydrogen production from environmental angles. A novel hydrogen production process proposed in this paper, named Solar-Driven Advanced Biomass Indirect-Gasification (SABI-Hydrogen), shows promise toward achieving continuous operation and scalability, the two key challenges to meet future energy needs. The calculated Global Warming Potential for 1 kg of solar-driven hydrogen production is 1.04 kg CO2-eq/kg H2, less than half of the current biomass gasification process which emits 2.67 kg CO2-eq/kg H2. Further, SABI-Hydrogen demonstrates the least-carbon intensive pathway among all current hydrogen production methods. Thus, solar-driven hydrogen production from biomass could lead to a sustainable supply, essential for a low-carbon energy transition.

    DOI: 10.1016/j.ijhydene.2021.11.203

    Web of Science

    Scopus

    researchmap

  • Low-carbon energy transition with the sun and forest: Solar-driven hydrogen production from biomass

    Takeda Shutaro, Nam Hoseok, Chapman Andrew

    International Journal of Hydrogen Energy   47 ( 58 )   24651 - 24668   2022.7   ISSN:03603199

     More details

    Language:English  

    There is a need to derive hydrogen from renewable sources, and the innovative stewardship of two natural resources, namely the Sun and forest, could provide a new pathway. This paper provides the first comparative analysis of solar-driven hydrogen production from environmental angles. A novel hydrogen production process proposed in this paper, named Solar-Driven Advanced Biomass Indirect-Gasification (SABI-Hydrogen), shows promise toward achieving continuous operation and scalability, the two key challenges to meet future energy needs. The calculated Global Warming Potential for 1 kg of solar-driven hydrogen production is 1.04 kg CO₂-eq/kg H₂, less than half of the current biomass gasification process which emits 2.67 kg CO₂-eq/kg H₂. Further, SABI-Hydrogen demonstrates the least-carbon intensive pathway among all current hydrogen production methods. Thus, solar-driven hydrogen production from biomass could lead to a sustainable supply, essential for a low-carbon energy transition.

    CiNii Research

  • What Would Happen to Fusion Power Plant in Case of Plasma Disruption?: A Dynamic Model Simulation Reviewed

    Shutaro Takeda, Satoshi Konishi

    Fusion Science and Technology   79 ( 1 )   1 - 8   2022.6   ISSN:1536-1055 eISSN:1943-7641

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:Informa UK Limited  

    What Would Happen to a Fusion Power Plant in the Case of Plasma Disruption? A Dynamic Model Simulation

    DOI: 10.1080/15361055.2022.2078137

    Web of Science

    Scopus

    researchmap

  • 森と太陽から水素を作る革新プラント 寂びある枯れ木から水素を作るSABI-Hydrogen

    武田秀太郎

    クリーンエネルギー   E2203-06   2022.6

     More details

    Language:Others  

  • Online Education: An Option for Increasing Motivation of Lao Students Reviewed

    Taiki Asato, Toshiki Muraoka, Guo Shimin, Liu Haiyi, Rimsa Goperma, Sadaf Ismail, Ayaka Watanabe, Satsuki Shioyama, Shutaro Takeda

    ( 2 )   90 - 96   2022.3

     More details

    Language:Others  

    Online Education: An Option for Increasing Motivation of Lao Students

  • The Impact of Road Construction in Laos Reviewed

    Shasha Li, Hiroaki Sato, Takato Nagano, Atsuko Yasunaga, Hidekazu Tamai, Ayaka Watanabe, Satsuki Shioyama, Shutaro Takeda

    Human Survivability Studies   ( 2 )   97 - 101   2022.3

     More details

    Language:Others  

    The Impact of Road Construction in Laos

  • Period Poverty in Laos Reviewed

    Takatoshi Shotsubo, Hayato Shinto, Emika Fujii, Samin Rassi, Yanghepu Li, Zelda Marquardt, Ayaka Watanabe, Satsuki Shioyama, Shutaro Takeda

    ( 2 )   84 - 89   2022.3

     More details

    Language:Others  

    Period Poverty in Laos

  • Online Education: An Option for Increasing Motivation of Lao Students Reviewed

    Taiki Asato, Toshiki Muraoka, Guo Shimin, Liu Haiyi, Rimsa Goperma, Sadaf Ismail, Ayaka Watanabe, Satsuki Shioyama, Shutaro Takeda

    Human Survivability Studies   ( 2 )   90 - 96   2022.3

     More details

    Authorship:Last author  

    researchmap

  • The Impact of Road Construction in Laos Reviewed

    Shasha Li, Hiroaki Sato, Takato Nagano, Atsuko Yasunaga, Hidekazu Tamai, Ayaka Watanabe, Satsuki Shioyama, Shutaro Takeda

    ( 2 )   97 - 101   2022.3

     More details

    Authorship:Last author  

    researchmap

  • Period Poverty in Laos Reviewed

    Takatoshi Shotsubo, Hayato Shinto, Emika Fujii, Samin Rassi, Yanghepu Li, Zelda Marquardt, Ayaka Watanabe, Satsuki Shioyama, Shutaro Takeda

    Human Survability Studies   ( 2 )   84 - 89   2022.3

     More details

    Authorship:Last author  

    researchmap

  • A systematic review of life cycle assessment of hydrogen for road transport use

    Dyah Ika Rinawati, Alex, er Ryota Keeley, Shutaro Takeda, Shunsuke Managi

    Progress in Energy   4 ( 1 )   012001 - 012001   2022.1   ISSN:2516-1083 eISSN:2516-1083

     More details

    Language:Others   Publishing type:Research paper (scientific journal)   Publisher:{IOP} Publishing  

    <jats:title>Abstract</jats:title>
    <jats:p>This study conducted a systematic literature review of the technical aspects and methodological choices in life cycle assessment (LCA) studies of the use of hydrogen for road transport. More than 70 scientific papers published during 2000–2021 were reviewed, in which more than 350 case studies of the use of hydrogen in the automotive sector were found. Only some studies used hybrid LCA and energetic input–output LCA, whereas most studies addressed attributional process-based LCA. A categorization based on the life cycle scope distinguished case studies that addressed the well-to-tank (WTT), well-to-wheel (WTW), and complete life cycle approaches. Furthermore, based on the hydrogen production process, these case studies were classified into four categories: thermochemical, electrochemical, thermal–electrochemical, and biochemical. Moreover, based on the hydrogen production site, the case studies were classified as centralized, on-site, and on-board. The fuel cell vehicle passenger car was the most commonly used vehicle. The functional unit for the WTT studies was mostly mass or energy, and vehicle distance for the WTW and complete life cycle studies. Global warming potential (GWP) and energy consumption were the most influential categories. Apart from the Greenhouse Gases, Regulated Emissions, and Energy Use in Transportation model and the Intergovernmental Panel on Climate Change for assessment of the GWP, the Centrum voor Milieukunde Leiden method was most widely used in other impact categories. Most of the articles under review were comparative LCA studies on different hydrogen pathways and powertrains. The findings provide baseline data not only for large-scale applications, but also for improving the efficiency of hydrogen use in road transport.</jats:p>

    DOI: 10.1088/2516-1083/ac34e9

    Web of Science

    Scopus

    researchmap

    Other Link: https://iopscience.iop.org/article/10.1088/2516-1083/ac34e9/pdf

  • Nuclear fusion development by private sector (1) Invited

    Takeda Shutaro, Keeley Alexander Ryota, Managi Shunsuke

    Journal of the Atomic Energy Society of Japan   64 ( 10 )   553 - 556   2022   ISSN:18822606 eISSN:24337285

     More details

    Authorship:Lead author   Language:Japanese   Publisher:Atomic Energy Society of Japan  

    DOI: 10.3327/jaesjb.64.10_553

    CiNii Research

    researchmap

  • Is resilience socially emerging or embedded? A review of “resilience” under climate change in Sri Lanka

    2 ( 4 )   258 - 266   2021.12

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.jnlssr.2021.11.001

  • Conclusions

    William J Nuttall, Satoshi Konishi, Shutaro Takeda, David Webbe-Wood

    Commercialising Fusion Energy   2020.12

     More details

    Language:Others  

    DOI: 10.1088/978-0-7503-2719-0ch13

  • Review of approaches to fusion energy Reviewed

    Richard J Pearson, Shutaro Takeda

    Commercialising Fusion Energy   2020.12

     More details

    Language:Others  

    DOI: 10.1088/978-0-7503-2719-0ch2

  • Introduction

    William J Nuttall, Satoshi Konishi, Shutaro Takeda, David Webbe-Wood

    Commercialising Fusion Energy   2020.12

     More details

    Language:Others  

    DOI: 10.1088/978-0-7503-2719-0ch1

  • Fusion energy and carbon management Reviewed

    Satoshi Konishi, Hoseok Nam, Shutaro Takeda

    Commercialising Fusion Energy   2020.12

     More details

    Language:Others  

    DOI: 10.1088/978-0-7503-2719-0ch12

  • Considerations for commercialization strategies for fusion energy Reviewed

    Shutaro Takeda, Sehila M Gonzalez de Vicente

    Commercialising Fusion Energy   2020.12

     More details

    Language:Others  

    DOI: 10.1088/978-0-7503-2719-0ch3

  • Economic Performance of Fusion Power Plant on Deregulated Electricity Markets Reviewed

    Shutaro Takeda, Shigeki Sakurai, Satoshi Konishi

    Journal of Fusion Energy   39 ( 1-2 )   31 - 39   2020.4

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    DOI: 10.1007/s10894-020-00230-z

  • Japanese Plutonium Balance Outlook to 2050: A Monte Carlo Approach Reviewed

    Shutaro Takeda

    Transactions of the American Nuclear Society   2019.6

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    Japanese Plutonium Balance Outlook to 2050: A Monte Carlo Approach

  • Are renewables as friendly to humans as to the environment?: A social life cycle assessment of renewable electricity Reviewed

    Sustainability   11 ( 5 )   1370   2019.3

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    Are renewables as friendly to humans as to the environment?: A social life cycle assessment of renewable electricity

    DOI: 10.3390/su11051370

  • Nuclear Fusion Power Plants Reviewed

    Shutaro Takeda, Richard Pearson

    Power Plants in the Industry   2019.2

     More details

    Language:Others  

    DOI: 10.5772/intechopen.80241

  • Economic Performance of Fusion Power Plant on Future Deregulated Electricity Market Reviewed

    Shutaro Takeda, Shigeki Sakurai, Satoshi Konishi

    Preprint of 27th IAEA Fusion Energy Conference   2018.10

     More details

    Language:Others  

    Economic Performance of Fusion Power Plant on Future Deregulated Electricity Market

  • Economic Performance of Fusion Power Plant on Deregulated Electricity Markets Reviewed

    Shutaro Takeda, Shigeki Sakurai, Satoshi Konishi

    Preprint of 27th IAEA Fusion Energy Conference   2018.10

     More details

    Language:Others  

    Economic Performance of Fusion Power Plant on Deregulated Electricity Markets

  • A System Dynamics Study on the Prospect of Japanese Plutonium Balance

    Shutaro Takeda, Takeshi Sakade, Hideki Iwaki

    Kyoto University, Graduate School of Economics Discussion Paper Series   E-18-002   2018.6

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    A System Dynamics Study on the Prospect of Japanese Plutonium Balance

  • The Success of the Link Model Programme in Rural Bangladesh: An Empirical Analysis Reviewed

    Shutaro Takeda

    Journal of Development Policy and Practice   3 ( 2 )   1 - 24   2018.6

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    The Success of the Link Model Programme in Rural Bangladesh: An Empirical Analysis

    DOI: 10.1177/2455133318777163

  • Plasma control requirements for commercial fusion power plants: A quantitative scenario analysis with a dynamic fusion power plant model Reviewed

    Shutaro Takeda, Shigeki Sakurai, Ryuta Kasada, Satoshi Konishi

    IEEE Transactions on Plasma Science   46 ( 5 )   1205 - 1210   2018.5

     More details

    Language:Others   Publishing type:Research paper (scientific journal)  

    DOI: 10.1109/TPS.2018.2794560

  • 核融合発電所の将来電力系統への受容性に関する研究 Reviewed

    武田秀太郎

    京都大学   2018.3

     More details

    Language:Others  

  • Limitation of fusion power plant installation on future power grids under the effect of renewable and nuclear power sources Reviewed

    Shutaro Takeda, Shigeki Sakurai, Yasushi Yamamoto, Ryuta Kasada, Satoshi Konishi

    FUSION ENGINEERING AND DESIGN   109   1754 - 1758   2016.11

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.fusengdes.2015.10.003

  • DYNAMIC SIMULATION-BASED CASE STUDY OF FUSION ON SMALL-SCALE ELECTRICAL GRIDS Reviewed

    Shutaro Takeda, Satoshi Konishi, Yasushi Yamamoto, Ryuta Kasada, Shigeki Sakurai

    FUSION SCIENCE AND TECHNOLOGY   68 ( 2 )   341 - 345   2015.9

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.13182/FST15-106

  • Fe2Nbラーベス相金属間化合物の塑性変形挙動

    武田秀太郎

    京都大学   2014.2

     More details

    Language:Others  

▼display all

Books

  • マルタ騎士団-知られざる領土なき独立国 (単行本)

    武田 秀太郎

    中央公論新社  2023.6    ISBN:4120056597

     More details

    Total pages:256   Language:Japanese  

    CiNii Books

    ASIN

    researchmap

  • マルタ騎士団-知られざる領土なき独立国 (単行本)

    武田 秀太郎

    中央公論新社  2023.6 

     More details

    Responsible for pages:総ページ数:256   Language:Japanese  

  • マルタ騎士団 : 知られざる領土なき独立国

    武田 秀太郎

    中央公論新社  2023    ISBN:9784120056598

     More details

    Language:Japanese  

    CiNii Books

  • 原子力の魅力を高めるための課題とその解決のための提言

    日本原子力学会未来像検討ワーキンググループ( Role: Joint author)

    2022.3 

     More details

    Language:Others  

  • 原子力の魅力を高めるための課題とその解決のための提言

    日本原子力学会未来像検討ワーキンググループ( Role: Joint author)

    2022.3 

     More details

  • Commercialising Fusion Energy: How small businesses are transforming big science

    William Nuttall, Satoshi Konishi, Shutaro Takeda, David Webbe-Wood( Role: Edit)

    Institute of Physics Publishing  2020.12 

     More details

    Language:Others  

  • 騎士道 (単行本)

    武田 秀太郎

    中央公論新社  2020.1 

     More details

    Responsible for pages:総ページ数:359   Language:Japanese  

  • Power Plants in the Industry

    ( Role: Joint author)

    IntechOpen  2018.10 

     More details

    Language:Others  

    Power Plants in the Industry

▼display all

Presentations

  • 国際政治経済学からみたエネルギー問題 Invited

    武田秀太郎

    第91回CAPS研究会  2019.2 

     More details

    Language:Others  

    Country:Other  

  • 太陽光・水素融合による革新的バイオマスCCSプラント構想 Invited

    武田秀太郎

    Global CCS Institute 第27回勉強会  2019.7 

     More details

    Language:Others  

    Country:Other  

  • 脱炭素社会の実現に向けた日本の明るい将来像を描く Invited

    武田秀太郎

    環境省「パリ協定に基づく成⻑戦略としての⻑期戦略(仮称)(案)」に関するユース世代との意⾒交換会  2019.5 

     More details

    Language:Others  

    Country:Other  

  • Economic Performance of Fusion Power Plant on Future Deregulated Electricity Market

    27th IAEA Fusion Energy Conference (FEC 2018)  2018.10 

     More details

    Language:Others  

    Country:Other  

    Economic Performance of Fusion Power Plant on Future Deregulated Electricity Market

  • Let’s Talk about Fukushima: A Chronology of Japanese Nuclear Research Invited

    武田秀太郎

    2018.3 

     More details

    Language:Others  

    Country:Other  

  • Nuclear Fusion Integrated Biomass Gasification Fuel Cell Cycle: A Promising Option for Future Energy Sustainability?

    23rd Topical Meeting on the Technology of Fusion Energy (TOFE)  2018.11 

     More details

    Language:Others  

    Country:Other  

    Nuclear Fusion Integrated Biomass Gasification Fuel Cell Cycle: A Promising Option for Future Energy Sustainability?

  • Sustainable energy conversion and resource recycle: A challenge of biomass conversion by clean energy Invited

    2018.5 

     More details

    Language:Others  

    Country:Other  

    Sustainable energy conversion and resource recycle: A challenge of biomass conversion by clean energy

  • Towards the Sustainable Development in Rural Bangladesh: The 3-stage Hypothesis of Success of Link Model

    7th International Symposium on Human Survivability  2018.12 

     More details

    Language:Others  

    Country:Other  

    Towards the Sustainable Development in Rural Bangladesh: The 3-stage Hypothesis of Success of Link Model

  • Environmental Life Cycle Assessment of High Temperature Nuclear Fission and Fusion Biomass Gasification Plant

    2017 International Congress on Advancements on Nuclear Power Plant (ICAPP 2017)  2017.4 

     More details

    Language:Others  

    Country:Other  

    Environmental Life Cycle Assessment of High Temperature Nuclear Fission and Fusion Biomass Gasification Plant

  • Heat Storage for Stable Electricity Generation: A Quantitative Scenario Analysis with Dynamic Fusion Power Plant Model

    Shutaro Takeda, Shigeki Sakurai, Ryuta Kasada, Satoshi Konishi

    13th International Symposium on Fusion Nuclear Technology (ISFNT-13)  2017.9 

     More details

    Language:Others  

    Country:Other  

    Heat Storage for Stable Electricity Generation: A Quantitative Scenario Analysis with Dynamic Fusion Power Plant Model

  • Plasma Control Requirements for Commercial Fusion Power Plants: A Quantitative Scenario Analysis with a Dynamic Fusion Power Plant Model

    Shutaro Takeda, Shigeki Sakurai, Ryuta Kasada, Satoshi Konishi

    27th IEEE Symposium On Fusion Engineering (SOFE 2017)  2017.7 

     More details

    Language:Others  

    Country:Other  

    Plasma Control Requirements for Commercial Fusion Power Plants: A Quantitative Scenario Analysis with a Dynamic Fusion Power Plant Model

  • 核融合若手インフォーマルミーティング Invited

    武田秀太郎

    第33回プラズマ・核融合学会年会  2017.11 

     More details

    Language:Others  

    Country:Other  

  • Environmental Life Cycle Assessment of Nuclear Fusion Biomass Gasification Plant: A Promising Option for the Sustainable Future of Humanity?

    Shutaro Takeda

    29th Symposium on Fusion Technology (SOFT 2016)  2016.9 

     More details

    Language:Others  

    Country:Other  

    Environmental Life Cycle Assessment of Nuclear Fusion Biomass Gasification Plant: A Promising Option for the Sustainable Future of Humanity?

  • Life Cycle Cost Analysis of Fusion Power Plant Installation Scenarios to Deregulated Electricity Market

    22nd Topical Meeting on the Technology of Fusion Energy (TOFE 2016)  2016.8 

     More details

    Language:Others  

    Country:Other  

    Life Cycle Cost Analysis of Fusion Power Plant Installation Scenarios to Deregulated Electricity Market

  • Oceanic Behavior of Tritium upon Deep-water Release

    11th International Conference on Tritium Science & Technology (TRITIUM 2016)  2016.4 

     More details

    Language:Others  

    Country:Other  

    Oceanic Behavior of Tritium upon Deep-water Release

  • ライフサイクルコスト試算に基づく電力自由化時代における原型炉戦略の考察

    武田秀太郎

    第11回 核融合エネルギー連合講演会  2016.7 

     More details

    Language:Others  

    Country:Other  

  • 核融合バイオマス燃料化プラントのライフサイクルアセスメントによる環境影響評価

    武田秀太郎

    第33回 プラズマ・核融合学会年会  2016.11 

     More details

    Language:Others  

    Country:Other  

  • 若手の立場から; 核融合発電の研究開発を担う核融合コミュニティーの活性化に向けて Invited

    武田秀太郎

    第11回 核融合エネルギー連合講演会  2016.7 

     More details

    Language:Others  

    Country:Other  

  • A Simulation-based Quantitative Analysis of Limitation on Fusion Power Plant Installation to Future Power Grids

    Shutaro Takeda

    Fourth International Symposium on Human Survivability  2015.11 

     More details

    Language:Others  

    Country:Other  

    A Simulation-based Quantitative Analysis of Limitation on Fusion Power Plant Installation to Future Power Grids

  • An innovative liquid fuel production system through nuclear fusion

    Shutaro Takeda

    2015.1 

     More details

    Language:Others  

    Country:Other  

    An innovative liquid fuel production system through nuclear fusion

  • Limitation of Fusion Power Plant Installation to Future Power Grids Under the Effect of Renewable and Nuclear Power Sources

    Shutaro Takeda

    The 12th International Symposium on Fusion Nuclear Technology (ISFNT-12)  2015.9 

     More details

    Language:Others  

    Country:Other  

    Limitation of Fusion Power Plant Installation to Future Power Grids Under the Effect of Renewable and Nuclear Power Sources

  • ゼロエミッションを目指した「核融合炉 + 海洋インバースダム」構想

    武田秀太郎

    ZE会合インフォーマルミーティング  2015.1 

     More details

    Language:Others  

    Country:Other  

  • バイオマス核融合炉のライフサイクルアセスメントによる環境への影響評価

    武田秀太郎

    第6回原型炉設計プラットフォーム会合  2015.12 

     More details

    Language:Others  

    Country:Other  

  • 動的シミュレーションによる核融合炉の電力網導入限界の定量的評価

    武田秀太郎

    第11回日本原子力学会関西支部若手研究発表会  2015.10 

     More details

    Language:Others  

    Country:Other  

  • 将来電力市場における小型核融合炉:先進国・途上国それぞれにおける優位性と劣位性 Invited

    武田秀太郎

    第32回 プラズマ・核融合学会年会  2015.11 

     More details

    Language:Others  

    Country:Other  

  • 核融合炉の電力網への導入限界の評価を目的とした電力網安定性ダイアグラムとその応用による導入戦略の考察

    武田秀太郎

    第32回 プラズマ・核融合学会年会  2015.11 

     More details

    Language:Others  

    Country:Other  

  • 電力需給制御シミュレータに基づいたDEMO炉運用に際する我が国2040年電力系統の安定性評価

    武田秀太郎

    日本原子力学会 2015年春の年会  2015.3 

     More details

    Language:Others  

    Country:Other  

  • 革新的電力貯蔵装置による将来電力市場への原子力導入に関する考察;(1) 海洋を用いた革新的電力貯蔵装置と原子力による電力系統への影響

    武田秀太郎

    日本原子力学会 2015年春の年会  2015.3 

     More details

    Language:Others  

    Country:Other  

  • Dynamic Simulation-Based Case Study of Fusion on Regional Power Systems

    21st Topical Meeting: Technology Of Fusion Energy (TOFE 2014)  2014.11 

     More details

    Language:Others  

    Country:Other  

    Dynamic Simulation-Based Case Study of Fusion on Regional Power Systems

  • 核融合炉を含んだ小規模系統安定用蓄電装置についてのシミュレーションによる評価

    武田秀太郎

    第5回原型炉設計プラットフォーム会合  2014.12 

     More details

    Language:Others  

    Country:Other  

  • ビジネス段階に入った核融合エネルギー開発

    武田秀太郎

    科学のフロントランナーが語る未来世界  2019.5 

     More details

    Language:Others  

    Country:Other  

  • 世界の民間核融合業界で今何が起きているのか

    武田秀太郎

    日本原子力学会2022春の年会  2022.3 

     More details

    Language:Others  

    Country:Other  

  • 民間資金による核融合イノベーション

    武田秀太郎

    第55回原産年次大海  2022.4 

     More details

    Language:Others  

    Country:Other  

  • Issues affecting resilience of energy supply and proposed solutions

    Shutaro Takeda

    The 2nd Workshop on Enhancing Climate Adaptation Capacity of ASEAN Energy Systems through the Concept of Energy Resilience  2021.9 

     More details

    Language:Others  

    Country:Other  

    Issues affecting resilience of energy supply and proposed solutions

  • Pushing for fusion energy – what is happening now?

    2021.11 

     More details

    Language:Others  

    Country:Other  

  • 新しい資本主義への切り札か、科学者の夢か 脚光を浴びる核融合エネルギー Invited

    武田秀太郎

    第7 回アジア・サステナブルエネルギー研究会  2021.11 

     More details

    Language:Others  

    Country:Other  

  • 新型コロナウイルスの影響下において国際原子力機関で働く: 核融合エネルギーの社会実装に向けた挑戦 Invited

    武田秀太郎

    日本原子力学会核融合工学部会 WEB セミナー  2021.3 

     More details

    Language:Others  

    Country:Other  

  • 果たして再生可能エネルギーは人を幸せにしているか? サステナビリティの本質から考える

    武田秀太郎

    早稲田大学大学院経営管理研究科 池上先生ゼミ  2021.9 

     More details

    Language:Others  

    Country:Other  

  • 果たして再生可能エネルギーは人を幸せにしているか

    武田秀太郎

    グローバルビジネス学会グローバル人材育成研究部会  2021.7 

     More details

    Language:Others  

    Country:Other  

  • 核融合の早期実現という破壊的イノベーション Invited

    武田秀太郎

    第17 回YGN 若手勉強会  2021.6 

     More details

    Language:Others  

    Country:Other  

  • Exploring the Origin of Sustainability: My Experience as an Ex-scientist UN Staff Invited

    GSAIS Global Career Seminar  2020.10 

     More details

    Language:Others  

    Country:Other  

    Exploring the Origin of Sustainability: My Experience as an Ex-scientist UN Staff

  • IAEA核融合研究開発政策と国際協力の新潮流 Invited

    武田秀太郎

    第36回プラズマ・核融合学会年会  2020.12 

     More details

    Language:Others  

    Country:Other  

  • Learning from Social Entrepreneurs – Entrepreneuring Big Science Invited

    武田秀太郎

    Global Social Entrepreneurship – Sustainable Development Goals (SDGs) as a Theme  2020.6 

     More details

    Language:Others  

    Country:Other  

  • Opening Ceremony

    Virtual Exhibition on Atomic Bombs in Hiroshima and Nagasaki  2020.8 

     More details

    Language:Others  

    Country:Other  

    Opening Ceremony

  • エネルギー分野の可能性と核融合の未来 Invited

    武田秀太郎

    九州大学・土木と社会セミナー  2020.10 

     More details

    Language:Others  

    Country:Other  

  • 国際機関から見た核融合分野における国際協調の潮流

    武田秀太郎

    Fusion2030研究会第2回全体会議  2020.8 

     More details

    Language:Others  

    Country:Other  

  • ASEAN Renewable Energy Development Strategy for 2040 Invited

    2nd East Asia Energy Forum  2019.9 

     More details

    Language:Others  

    Country:Other  

    ASEAN Renewable Energy Development Strategy for 2040

  • Electricity and Non-electricity Generation Pathway for Faster Fusion Commercialization Invited

    The 1st JUNO Anglo-Japanese Conference on Commercialisation of Nuclear Fusion  2019.6 

     More details

    Language:Others  

    Country:Other  

    Electricity and Non-electricity Generation Pathway for Faster Fusion Commercialization

  • The Benefits of ASEAN Power Grid on Renewable Energy Invited

    13th East Asia Summit Energy Ministers Meeting  2019.9 

     More details

    Language:Others  

    Country:Other  

    The Benefits of ASEAN Power Grid on Renewable Energy

  • 誰かのために生きるってなんだろう?

    武田秀太郎

    ワークショップコレクションin 福岡2024  2024.3 

     More details

  • 総合司会

    武田 秀太郎

    公開シンポジウム「若手×多様性×イノベーションを地方から話すコロキウム」  2024.9 

     More details

  • 究極のエネルギー・フュージョン(核融合)の現在地 日本から世界で戦うビジネスは生まれるか

    2024 SPEED研究会 夏季セミナー  2024.7 

     More details

  • 研究室から世界ビジネスへ:日本初核融合スタートアップの5年間から考える金属×起業の可能性

    武田 秀太郎

    2024年日本金属学会秋期講演大会  2024.9 

     More details

  • 研究室から世界ビジネスへ:日本初「フュージョンエネルギー」 スタートアップの5年間から考える大学×グローバル起業の可能性

    武田 秀太郎

    夏季公開シンポジウム 「研究者になって世界を駆け巡ろう」  2024.8 

     More details

  • 研究で世界へ羽ばたこう!スタートアップから科学外交まで広がるアカデミックキャリアの可能性

    武田秀太郎

    慶応大学 2024 年度物理情報⼯学特別講義  2024.6 

     More details

  • 産業としての核融合:多国間産業連関分析による原型炉建設の経済効果推定

    武田秀太郎

    日本原子力学会2023年秋  2023.9 

     More details

  • Innovations in Fusion Energy driven by the Private Funding

    Shutaro Takeda

    The 55th JAIF ANNUAL CONFERENCE  2022.4 

     More details

  • 核融合開発は投資として妥当なのか? 開発にかかる経済波及効果ならびに支払意志額推計

    武田秀太郎

    SEEPSワークショップ2023  2023.12 

     More details

  • 果たして再生可能エネルギーは人を幸せにしているか?

    武田秀太郎

    対論型サイエンスカフェ:どうする?電気の作り方  2023.10 

     More details

  • 救貧と信仰の守護者:知られざる領土なき独立国、マルタ騎士団1000年の献身

    武田秀太郎

    第135回Q-AOSブラウンバッグセミナー  2024.3 

     More details

  • 救貧と信仰の守護者:マルタ騎士団1000年の献身

    武田秀太郎

    第2回マルタ学研究会  2023.10 

     More details

  • 大学発スタートアップと科学の社会実装(特別編)

    武田 秀太郎

    エッセンスフォーラム2024  2024.9 

     More details

  • What is happening in fusion industry now

    Shutaro Takeda

    2022.3 

     More details

  • 世界のフュージョンスタートアップ最前線

    武田秀太郎

    エネルギー総合工学研究所第431回月例定例会  2023.7 

     More details

  • フュージョンエネルギー(核融合)が拓く未来 脱炭素に向けた新たな国際産業の創出へ

    武田秀太郎

    日本経済研究センター長期経済予測勉強会  2023.9 

     More details

  • フュージョンエネルギーを取り巻く環境

    武田秀太郎

    レーザーフュージョンエネルギー  2024.3 

     More details

  • フュージョン〔地球上の太陽×スタートアップ企業で世界を救う!?〕

    武田秀太郎

    東工大 原子力オープンキャンパス  2024.7 

     More details

  • 「誰かのために生きる」ということ

    武田秀太郎

    第45回サタデープログラム(東海中学・高校)  2024.6 

     More details

  • 「自然を大切に」が当たり前の社会に向けて-ネイチャーポジティブを実現する九州大学の産学連携プロジェクト

    武田秀太郎

    大学見本市2023~イノベーション・ジャパン セミナー  2023.8 

     More details

  • The Japanese Fusion Grand Vision: Deciphering the bureaucratic Japanese fusion policy

    武田 秀太郎

    Insights Q&A online event  2024.9 

     More details

  • Seeds at GSAIS:A Life Lived for Others

    武田秀太郎

    2023年度遊聞会(第7回同窓会)  2023.10 

     More details

  • Quantifying Human Rights in Global Supply Chain (1): Socially-extended InputOutput Analysis (MRSEIO)

    Shutaro Takeda

    EcoDesign 2023  2023.11 

     More details

    Presentation type:Oral presentation (general)  

    researchmap

  • JA-DEMO建設に係る社会経済効果:⽇本国内は核融合に税⾦を⽀払う意思があるか?

    武田秀太郎

    第40回 プラズマ・核融合学会 年会  2023.11 

     More details

    Presentation type:Poster presentation  

    researchmap

  • IAEA委員として出席

    武田 秀太郎

    IAEA: the Second Consultancy Meeting on the Development of Fusion Key Elements  2024.2 

     More details

  • How can machine learning contribute to solving real-life social issues?

    武田 秀太郎

    国際会議「JSST2024 & AsiaSim2024」  2024.9 

     More details

  • ESG – Nuclear Fusion – The Trump Card for a Decarbonized Society - Its Expectations and Market Overview Invited

    Morgan Stanley Virtual Japan Summit 2022  2022.6 

     More details

  • Accelerating Fusion Energy Toward A Viable Fusion Power Plant: Kyoto Fusioneering’S Pathway To Commercialisation

    Shutaro Takeda

    29th IAEA Fusion Energy Conference (FEC 2023)  2023.10 

     More details

▼display all

MISC

Professional Memberships

  • American Nuclear Society

  • IEEE Computer Society

  • IEEE Information Theory Society

  • IEEE Nuclear and Plasma Sciences Society

  • IEEE Power & Energy Society

  • The Japan Society of Plasma Science and Nuclear Fusion Research

  • Atomic Energy Society of Japan

  • American Nuclear Society

      More details

  • Atomic Energy Society of Japan

      More details

  • The Japan Society of Plasma Science and Nuclear Fusion Research

      More details

  • IEEE Power & Energy Society

      More details

  • IEEE Nuclear and Plasma Sciences Society

      More details

  • IEEE Information Theory Society

      More details

  • IEEE Computer Society

      More details

▼display all

Committee Memberships

  • 文部科学省 核融合の挑戦的な研究の支援の在り方に関する検討会   委員  

    2023.6 - Present   

      More details

    Committee type:Municipal

    researchmap

  • Ministry of Education, Culture, Sports, Science and Technology (MEXT)   Council for Science and Technology  

    2023.4 - Present   

      More details

    Committee type:Government

    researchmap

  • Aomori Prefecture   Advisor  

    2022.9 - Present   

      More details

    Committee type:Municipal

    researchmap

  • International Atomic Energy Agency IAEA   Session Chair, Fission-Fusion TM  

    2022.3 - 2022.10   

      More details

    Committee type:Government

    researchmap

  • Society of Global Business   Chief Senior Editor  

    2021.10 - Present   

      More details

  • International Atomic Energy Agency IAEA   Chair, International Program Advisory Committee  

    2021.4 - Present   

      More details

    Committee type:Other

    researchmap

  • Kyushu University Urban Institute   Fellow  

    2020.6 - Present   

      More details

    Committee type:Academic society

    researchmap

  • Kyoto Fusioneering Ltd.   Co-founder  

    2019.10 - Present   

      More details

    Committee type:Other

    researchmap

  • 英国ロイヤル・ソサエティ・オブ・アーツ   フェロー  

    2018.6 - Present   

      More details

    Committee type:Academic society

    researchmap

▼display all

Research Projects

  • 途上国における持続可能な再生可能エネルギー開発にかかる社会経済研究

    2017 - 2020

    日本学術振興会  科学研究費助成事業  基盤研究(C)

      More details

    Grant type:Scientific research funding

  • Renewable Development Strategy for ASEAN 2040: A Dynamic Multilateral Scenario Analysis

    2017 - 2019

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (C)

      More details

    Grant type:Scientific research funding

  • Promoting Social Deployment of CCU&S Based on COP21 Outcome - Vision of Future Social Innovation Focused on CCU-

    2016 - 2019

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (C)

      More details

    Grant type:Scientific research funding

  • モデル規範形適応制御の過度応答性改善に関する研究とその核融合炉制御への応用

    2016 - 2017

    日本学術振興会  科学研究費助成事業  基盤研究(C)

      More details

    Authorship:Principal investigator  Grant type:Scientific research funding

Social Activities

  • 「誰かのために生きる」ということ

    Role(s): Lecturer

    武田 秀太郎  第45回サタデープログラム(東海中学・高校)  2024.6

     More details

  • 誰かのために生きる

    Role(s): Lecturer

    武田 秀太郎  糸島市立二丈中学校  2023.9

     More details

  • 青年海外協力隊 バングラデシュ派遣 コミュニティ開発

    2015.8

     More details

    Audience: General, Scientific, Company, Civic organization, Governmental agency

  • Japan Ground Self Defense Force Sergeant First Class

     More details

Media Coverage

  • 株式会社誠文堂新光社 『子供の科学』は「科学する心」を教えてくれた Internet

    KoKaNet 子供の科学100周年記念スペシャルサイト  2024.8

     More details

    Author:Myself 

    researchmap

  • 核融合発電 「青田買い」も TV or radio program

    BSテレビ東京  石川和男の危機のカナリア  2024.7

     More details

  • 京都新聞 『スタートアップ 京で熱弁』 Newspaper, magazine

    京都新聞 7月5日付 朝刊 11面  2024.7

     More details

    Author:Other 

    researchmap

  • 25ans(2024年1月号掲載)ひとりひとりの意識の変化で作り上げる輝かしい未来

    25ans|ヴァンサンカン  p258  2024.1

     More details

  • 日本経済新聞 「京大系VC、ディープテック研究者の起業を「仕組み化」ディープテック VC駆ける」

    2023.12

     More details

  • 西日本新聞 (地域面)ユニーク経歴を二丈中生に語る

    2023.9

     More details

  • 大学ジャーナル(掲載)「フュージョンエネルギー」に注目 「ENGINEERING(工学)」を 「FUSION(融合)」し、 エネルギーの未来を切り拓く

    2023.5

     More details

  • 日経電子版(トップ掲載)『ゲイツ氏ら注目の核融合発電、京大発スタートアップ挑む』

    2021.5

     More details

    日経電子版(トップ掲載)『ゲイツ氏ら注目の核融合発電、京大発スタートアップ挑む』

  • 日経産業新聞(1面)『京大発、主要な消耗品開発』

    2021.5

     More details

    日経産業新聞(1面)『京大発、主要な消耗品開発』

  • 中国新聞(1面)『国連職員 ネット原爆展 日本人有志』

    中国新聞  2020.8

     More details

    中国新聞(1面)『国連職員 ネット原爆展 日本人有志』

  • NHKドキュメンタリー『素顔のギフテッド』

    2020.3

     More details

    NHKドキュメンタリー『素顔のギフテッド』

  • 京都新聞(地域面)『最新の科学研究 親子ら触れる』

    京都新聞  2017.10

     More details

    京都新聞(地域面)『最新の科学研究 親子ら触れる』

  • NHK総合『世界の”ハッピー”を探して』

    2017.1

     More details

    NHK総合『世界の”ハッピー”を探して』

  • NHK ETV特集『“グローバル人材”を育成せよ~京都大学・改革への挑戦~』

    2015.4

     More details

    NHK ETV特集『“グローバル人材”を育成せよ~京都大学・改革への挑戦~』

▼display all