Organization
Nagoya University Museum Professor
Graduate School
Graduate School of Environmental Studies
Title
Professor
Contact information
YOSHIDA, Hidekazu
Degree 1
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Doctor of Science ( 1994.8 Nagoya University )
Research Interests 1
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Mass transport, weathering, redox process, water-rock interaction, subsurface usage, nuclear geology, engineering geology
Research Areas 4
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Natural Science / Solid earth sciences / Engineering geology
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Others / Others / Environmental Geology
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Others / Others / Geochemistry
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Others / Others / Geology
Current Research Project and SDGs 1
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Concetion process and Nuclide migration and its natural analogue
Research History 2
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Nagoya University Director
2010.4
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Nagoya University, Nagoya University Museum, Prof.
2010.1
Country:Japan
Education 1
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Nagoya University Graduate School, Division of Natural Science Earth Science
- 1986
Country: Japan
Professional Memberships 3
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日本地質学会
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日本地球化学学会
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日本応用地質学会 中部支部幹事
2004.4
Committee Memberships 1
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資源エネルギー庁 放射性廃棄物ワーキンググループ委員会委員
2016.4
Committee type:Government
Awards 1
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日本原子力学会バックエンド部会表彰
2012 日本原子力学会 地層処分研究の普及貢献
吉田英一 本人
Papers 51
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Relation between U-series Nuclide Migration and Micro-structural Properties of Sedimentary Rocks Reviewed
H.Yoshida
Applied Geochemistry Vol. 9 page: 479-490 1994
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Characterizing the Chemical Containment Properties of the Deep Geosphere: Water-Rock Interactions in Relation to Fracture Systems within Deep Crystalline Rock in the Tono Area, Japan Reviewed
T.Iwatsuki and H.Yoshida
Geological Society, London, Special Publications Vol. 57 page: 71-84 1999
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Overview of the Stability and Barrier Functions of the Granitic Geosphere at the Kamaishi Mine; Relevance to Radioactive Waste Disposal in Japan Reviewed
Engineering Geology Vol. 56 page: 151-162 2000
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マトリクス拡散による元素移動の遅延効果の評価手法とその検討 Reviewed
応用地質学雑誌 Vol. 43 page: 22-33 2002
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W- and M-type tetrad effects in REE patterns for water-rock systems in the Tono uranium deposit, central Japan Reviewed
Chemical Geology Vol. 184 page: 311-335 2002
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Isotopic and morphological features of fracture calcite from granitic rocks of the Tono area, Japan: a promising palaeohydrogeological tool, Reviewed
Iwatsuki,T. Satake,H. Metcalfe,R. and Yoshida,H. (2002
Applied Geochemistry Vol. 17 page: 1241-1257 2002
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酸化還元フロントの形成と二次的物質移動現象, 地質環境中汚染物質の移動と長期的固定に関するアナログ研究 Reviewed
吉田英一・山本鋼志・A.E.Milodowski
地質学雑誌 Vol. 109 page: 158-168 2003
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花崗岩割れ目周辺の酸化還元反応と二次的物質移動現象―地質環境中汚染物質の移動と長期固定に関するアナログ研究― Reviewed
(7) 赤川史典・吉田英一・與語節生・山本鋼志
地質学雑誌 ( 110 ) page: 671-685 2004.11
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Gully erosion in Western Kenya Reviewed
(10) M.Hoshino, Y.Katsurada, Y.Yamamoto, H.Yoshida, M.Kadohira, K.Sugitani, J.M.Nyangaga, N.Opiyo-Akech, E.M.Mathu and E.K.Kang'ethe
Jour. Geological Society of Japan Vol. 110 page: II-III (cover page) 2004
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活断層周辺岩盤の割れ目と化学組成の変化―岐阜県付知地域の阿寺断層による事例研究― Reviewed
大嶋章浩・吉田英一
環境地質学論文集 Vol. 14 page: 1-11 2004
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酸化還元反応と長期的天然バリア機能 Invited Reviewed
吉田英一・山本鋼志
月刊地球 Vol. 26 page: 275-284 2004
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愛知県豊橋市高師原台地から産する「高師小僧」 Reviewed
吉田英一・松岡敬二
名古屋大学博物館報告 Vol. 20 page: 25-34 2004
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島根県仁多郡東出雲町横田地域の土壌の化学組成とたたら製鉄の関係 Reviewed
武邊勝道・鶴留浩和・赤川史典・山本鋼志・吉田英一
名古屋大学博物館報告 Vol. 21 page: 33-42 2005
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*Long-term stability of flow-path structure in crystalline rocks distributed in an orogenic belt, Japan Reviewed
H.Yoshida, M.Takeuchi and R.Metcalfe
Engineering Geology Vol. 78 page: 275-284 2005.2
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Appication of Sr isotopies to geochemical mapping and provence analysis: The case of Aichi Prefecture, central Japan Reviewed
Asahara,Y., Ishiguro, H., Tanaka, T., Yamamoto, K., Mimura, K., Minami,M. & Yoshida, H.
Applied Geochemistry Vol. 21 page: 419-436 2006.8
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Database for geochemical mapping of the northeastern areas of Aichi Prefecture, central Japan RF major element data of stream sediments collected in 1994 to 2004 Reviewed
Minami,M., Tanaka,T., Yamamoto,K., Mimura,K., Asahara,Y., Takeuchi,M., Yoshida, H. & Yogo, S.
Journal of Earth and Planetary Sciences, Nagoya University Vol. 52 page: 25-67 2006.11
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Natural immobilization processes aid the understanding of long-term evolusion of deep geological radioactive waste repositories Invited Reviewed
W.R.Alexander, R.Giere, H.Hidaka and H.Yoshida
Geochemistry: Exploration, Environment, and Analysis Vol. Vol.6 page: 3-4. 2006
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河岸段丘礫の風化殻にみる酸化フロントの形成とその移動速度 Reviewed
栗山健弘・吉田英一・山本博文・勝田長貴
地質学雑誌 Vol. Vol.112 page: 136-152 2006
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*Redox front formation in fractured crystalline rock: an analogue of matrix diffusion in oxidizing front along water conducting fracture Invited Reviewed
F.Akagawa, H.Yoshida, Y.Yogo and K.Yamamoto
Jour. Geochemistry, Exploration, Environment and Analysis Vol. 6 page: 1-8 2006.2
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Formation of biogenic iron-oxide nodules in reducing sediments as an anlogue of near-field redox reaction products. Invited Reviewed
Yoshida,H., Yamamoto,K., Murakami,Y. & Matasuoka,K.
Physics and Chemistry of the Earth Vol. 31 page: 593-599. 2006.4
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An analogue of matrix diffusion enhanced by biogenic redox reaction in fractured sedimentary rock. Reviewed
Yoshida,H., Yamamoto,K., Yogo,S. & Murakami,Y.
Journal of Geochemical Exploration Vol. 90 page: 134-142 2006.5
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地質環境中の物質移動現象とその評価方法について -粘土質難透水性堆積層における特徴と課題- Invited Reviewed
吉田英一
地質汚染-医療地質-社会地質学雑誌 Vol. 2 page: 72-81 2006
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地層処分システムと微生物-地下研究施設における微生物影響研究の考え方 Reviewed
吉田英一・大貫敏彦・長沼 毅
原子力バックエンド研究 Vol. 14 page: 31-41 2007
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Gully head retreat of Awach-Kano gullies, Nyanza Province, Kenya: field measurement and pixel-based upslope catchment assessment. Reviewed
Katsurada,Y., Hoshino,M., Yamamoto,K., Yoshida,H., Sugitani,K.
African Study Monographs Vol. 28 ( 3 ) page: 125-141 2007
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地下深部花崗岩の変質プロセス解析-土岐花崗岩を例にしてー Reviewed
西本昌司・鵜飼恵美・天野健治・吉田英一
応用地質 Vol. 49 ( 2 ) page: 94-104 2008
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*The development of Fe-nodules surrouding giological material mediated by microorganisms Reviewed
H.Yoshida, Y.Yamamoto, Y.Murakami, N.Katsuta, T.Hayashi
Environmental Geology Vol. 55 page: 1363-1374 2008
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Geochemical mapping in Aichi Prefecture, Japan: Its significance as a useful dataset for geological mapping Reviewed
Yamamoto,K., Tanaka,T., Minami,M., Mimura,K., Asahara,Y., Yoshida,H., Yogo,S., Takeuchi,M. & Inayoshi,M
Applied Geochemistry Vol. 23 ( 2364-2381 ) 2008
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地下花崗岩体の変質とその形態ー産総研岡山応力測定用深部花崗岩コア試料の変質を例にー Reviewed
吉田英一・西本昌司・長 秋雄・山本鋼志・勝田長貴
応用地質 Vol. 49 ( 5 ) page: 256-265 2008.12
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*断層周辺に発達する割れ目形態とその特徴―阿寺断層における‘ダメージゾーン’解析の試み― Reviewed
吉田英一・大嶋章浩・吉村久美子・長友晃夫・西本昌司
応用地質 Vol. 50 ( 1 ) page: 16-28 2009.4
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*Retardation capacity of altered granitic rock distributed along fractured and faulted zones in the orogenic belt of Japan Reviewed
Vol. 106 page: 116-122 2009.5
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Hydrothermal alteration of deep fractured granite: Effect of dissolution and precipitation Reviewed
Nishimoto,S., Yoshida,H.
Lithos Vol. 115 page: 153-162 2010.3
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Weathering rind formation in buried terrace cobbles during periods of up to 300ka Reviewed
YoshidaH., Metcalfe,R., Nishimoto,S., Yamamoto,H., Katsuta,N
Vol. 26 page: 1706-1721 2011
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Redox front penetration in the fractured Toki Granite, central Japan: An analogue for redox reactions and redox buffering in fractured crystalline host rocks for repositories of long-lived radioactive waste Reviewed
H. Yoshida et al.
Applied Geochemsitry ( 35 ) page: 75-87 2013
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Katsuta, N; Sirono, SI; Umemura, A; Kawahara, H; Masuki, Y; Yoshimizu, C; Tayasu, I; Murakami, T; Yoshida, H
SEDIMENTOLOGY Vol. 71 ( 1 ) page: 241 - 262 2024.1
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Bleached-spot formation in Fe-oxide-rich rock by inorganic process
Kawahara, H; Yoshida, H; Nishimoto, S; Kouketsu, Y; Katsuta, N; Umemura, A
CHEMICAL GEOLOGY Vol. 609 2022.10
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Glendonite concretion formation due to dead organism decomposition
Muramiya Yusuke, Yoshida Hidekazu, Minami Masayo, Mikami Tomoyuki, Kobayashi Toshinori, Sekiuchi Kousuke, Katsuta Nagayoshi
SEDIMENTARY GEOLOGY Vol. 429 2022.3
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Hydrothermal formation of Fe-oxide bands in zebra rocks from northern Western Australia
Kawahara, H; Yoshida, H; Yamamoto, K; Katsuta, N; Nishimoto, S; Umemura, A; Kuma, R
CHEMICAL GEOLOGY Vol. 590 2022.2
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Syngenetic rapid growth of ellipsoidal silica concretions with bitumen cores Invited Reviewed International coauthorship International journal
Yoshida Hidekazu, Kuma Ryusei, Hasegawa Hitoshi, Katsuta Nagayoshi, Sirono Sin-iti, Minami Masayo, Nishimoto Shoji, Takagi Natsuko, Kadowaki Seiji, Metcalfe Richard
SCIENTIFIC REPORTS Vol. 11 ( 1 ) 2021.2
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Numerical simulation of iron oxide concretions on Earth and Mars through calcite dissolution Invited Reviewed International journal
Sirono, S; Shibata, T; Katsuta, N; Yoshida, H
GEOCHIMICA ET COSMOCHIMICA ACTA Vol. 295 page: 194 - 206 2021.2
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Concentric Fe-oxyhydroxide bands in dacite cobbles: Rates of buffering chemical reactions Invited Reviewed International coauthorship International journal
Yoshida Hidekazu, Katsuta Nagayoshi, Sirono Sin-iti, Nishimoto Shoji, Kawahara Hirokazu, Metcalfe Richard
CHEMICAL GEOLOGY Vol. 552 2020.10
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Rapid formation of gigantic spherical dolomite concretion in marine sediments Invited Reviewed International journal
Muramiya Yusuke, Yoshida Hidekazu, Kubota Kaoru, Minami Masayo
Vol. 404 2020.7
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Diffusion controlled formation of spherical carbonate concretion in muddy sedimentary matrices Invited Reviewed International coauthorship International journal
Yoshida Hidekazu, Yamamoto Koshi, Ohe Toshiaki, Katsuta Nagayoshi, Muramiya Yusuke, Metcalfe Richard
GEOCHEMICAL JOURNAL Vol. 54 ( 4 ) page: 233 - 242 2020
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Biogenically induced bedded chert formation in the alkaline palaeolake of the Green River Formation Invited Reviewed International coauthorship International journal
Kuma Ryusei, Hasegawa Hitoshi, Yamamoto Koshi, Yoshida Hidekazu, Whiteside Jessica H., Katsuta Nagayoshi, Ikeda Masayuki
SCIENTIFIC REPORTS Vol. 9 2019.11
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<SUP>87</SUP>Sr/<SUP>86</SUP>Sr age determination by rapidly formed spherical carbonate concretions (9, 1003, 2019) Invited Reviewed International coauthorship International journal
Yoshida, H; Asahara, Y; Yamamoto, K; Katsuta, N; Minami, M; Metcalfe, R
SCIENTIFIC REPORTS Vol. 9 2019.5
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87Sr/86Sr age determination by rapidly formed spherical carbonate concretions Reviewed
Hidekazu Yoshida, Yoshihiro Asahara, Koshi Yamamoto, Nagayoshi Katsuta, Masayo Minami & Richard Metcalfe
Scientific Reports (Nature.com) Vol. 9 2019.1
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Yamamoto, K; Haruta, Y; Yogo, S; Yoshida, H
GEOCHEMICAL JOURNAL Vol. 53 ( 3 ) page: 219 - 222 2019
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Fe-oxide concretions formed by interacting carbonate and acidic waters on Earth and Mars
Yoshida H., Hasegawa H., Katsuta N., Maruyama I., Sirono S., Minami M., Asahara Y., Nishimoto S., Yamaguchi Y., Ichinnorov N., Metcalfe R.
SCIENCE ADVANCES Vol. 4 ( 12 ) 2018.12
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Yoshida Hidekazu, Yamamoto Koshi, Minami Masayo, Katsuta Nagayoshi, Sin-ichi Sirono, Metcalfe Richard
SCIENTIFIC REPORTS Vol. 8 2018.4
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Long term behavior of hydrogeological structures associated with faulting: An example from the deep crystalline rock in the Mizunami URL, Central Japan Reviewed
M,Ishibashi, H.Yoshida, E,Sasao, T,Yuguchi
Engineering Geology Vol. 208 page: 114-127 2016.8
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Use of fracture filling mineral assemblages for characterizing waterrock interactions during exhumation of an accretionary complex: An example from the Shimanto Belt, southern Kyushu Japan Reviewed
Takuya Ono, Hidekazu Yoshida, Richard Metcalfe
Vol. 87 page: 81-94 2016.4
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Early post-mortem formation of carbonate concretions around tusk-shells over week-month timescales Reviewed
Hidekazu yoshida, Atsushi Ujihara, Masayo Minami, Yoshihiro Asahara, Nagayoshi Katsuta, Koshi Yamamoto, Sin-iti Sirono, Ippei Maruyama, Shoji Nihimoto, Richrad Metcalfe
Scientific Reports (Nature.com) 2015.9
Books 5
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地下環境機能 -廃棄物処分の最前線に学ぶ-.
吉田英一( Role: Sole author)
近未来社 2003
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サイエンス・コミュニケーション -科学を伝える人の理論と実践-.
( Role: Joint author)
丸善プラネット 2003
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球状コンクリーションの科学
吉田英一( Role: Sole author)
近未来社 2019.6
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地層処分
吉田英一( Role: Sole author)
近未来者 2012
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環境学研究ソースブック
名古屋大学環境学研究科( Role: Joint author)
藤原書店 2005.12
Presentations 7
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球状コンクリーションの理解と応用 Invited International coauthorship
吉田英一
日本地質学会2021年大会 2021.9 日本地質学会
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球状コンクリーションに学ぶ
吉田英一
東海化石研究会講演会 2021.3.11
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球状コンクリーションの不思議 Invited
吉田英一
宮崎県総合博物館50周年事業講演会 2021.3.6
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Formation of biogenic iron-oxide nodules in reducing sediments as an analogue of near-field redox reaction products International conference
Migration 2005
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In-situ experiment and investigation relevant to HLW dipodsal in Japan],韓国地質学会シンポジウム. 1999.
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地質環境中での物質移動現象とナチュラルアナログ研究、産業総合研究所、地下環境部会. 2002
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放射性廃棄物地層処分研究の現状と今後の課題、地質学会地質環境長期安定性委員会主催研究会. 2001.
Research Project for Joint Research, Competitive Funding, etc. 6
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変動帯地質環境中での断層活動等に伴う割れ目形成と長期安定性に関する研究
2005.8 - 2006.3
Grant type:Competitive
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断層の影響(範囲)と調査手法の検討に関する研究
2004.8 - 2005.3
企業からの受託研究
断層周辺地質環境の変化と断層運動との相関についての基礎的研究
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(活)断層の影響(範囲)と原位置における調査手法の検討に関する研究
2003.8 - 2004.3
Grant type:Competitive
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断層および周辺岩盤中の割れ目形成に関する研究
2002.7 - 2003.3
Grant type:Competitive
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地下環境の長期的安定性とナチュラルアナログ
2001
Grant type:Competitive
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地下環境下における物質移動現象の評価と調査手法の開発
2000
企業からの受託研究
KAKENHI (Grants-in-Aid for Scientific Research) 7
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コンクリーション化を応用した史跡・文化遺産等劣化抑制・修復技術開発研究
Grant number:23K17275 2023.6 - 2029.3
科学研究費助成事業 挑戦的研究(開拓)
吉田 英一, 門脇 誠二, 南 雅代
Authorship:Principal investigator
Grant amount:\24960000 ( Direct Cost: \19200000 、 Indirect Cost:\5760000 )
名古屋大学博物館では,これまで国内外の研究機関と共同で国内史跡の石材調査,軍艦島などの古いコンクリート分析の他,海外(ヨルダンなど)での古代遺跡の発掘調査を行なってきている.これらのこれまでの調査から,石材や古いコンクリートの劣化は酸性雨などによる炭酸カルシウムの溶出が主たる原因であり,また海外の石材や煉瓦は炭酸カルシウムが豊富に含まれているものが多く,乾燥地域でも長期間におけるこれらの溶出が劣化・崩壊の主な原因であることが分かってきた.本音件研究では,コンクリーション化剤によってこれらの影響を上記研究計画によって固定化させ劣化を抑制する手法を開発する.
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Application of concretion process for neutlization of excavated mud
Grant number:23H00280 2023.4 - 2028.3
Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (A)
Authorship:Principal investigator
Grant amount:\45630000 ( Direct Cost: \35100000 、 Indirect Cost:\10530000 )
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Grant number:19K22008 2019.6 - 2021.3
Grants-in-Aid for Scientific Research Grant-in-Aid for Challenging Research (Exploratory)
MARUYAMA IPPEI
Authorship:Coinvestigator(s)
Aggregate in concrete is considered to be an inactive material and is not involved in the hydration reaction of cement. However, detailed physical tests and chemical analyses of 50-year-old concrete structures suggest that feldspars in concrete tend to react with calcium hydroxide. In this study, we selected rock minerals that can be used in concrete, and confirmed whether or not they react with calcium hydroxide, which is a typical hydrate of cement, and the temperature dependence of the reaction. The results showed that the minerals reacted with calcium hydroxide to form calcium aluminosilicate hydrate and a kind of zeolite, which contributes to the strength development in concrete.
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Grant number:18H03893 2018.4 - 2022.3
Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (A)
Yoshida Hidekazu
Authorship:Principal investigator
Grant amount:\37960000 ( Direct Cost: \29200000 、 Indirect Cost:\8760000 )
This study is concerning about the spherical calcium carbonate concretion yield from sedimentary rocks and we could reveal the rapid formation process and used this process to develop synthetic concretion resin developed with private chemical company as well as to get a patent. Now we have almost the last stage before to make commercial materials distributed in our society.
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Understanding the process of spherical carbonate concretions formation and its application to civil engineering
Grant number:15H04224 2015.4 - 2019.3
Yoshida Hidekzau
Authorship:Principal investigator
Grant amount:\11570000 ( Direct Cost: \8900000 、 Indirect Cost:\2670000 )
Based on the study, the process of spherical concretions formation was revealed as follows; 1)spherical carbonate concretions are only found in marine sediments. 2)Sphere is formed by the diffusive process. 3)The reason why carbonate has been accumulated, is the process by the reaction with carbon and calcium in the sea water. 4)The fossils inside was well preserved, because of the reason by self sealing. 5)The reaction of carbon and calcium to form concretions is quite rapidly that before we had thought.
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Field investigation of iron concretion and related elemental migration
Grant number:15H05227 2015.4 - 2018.3
Yoshida Hidekazu
Authorship:Principal investigator
Grant amount:\8450000 ( Direct Cost: \6500000 、 Indirect Cost:\1950000 )
Spherical Fe-oxide concretions in both in Utah and Mongolia have been investigated to understand the geochemical migration features relevant to the heavy metal adsorption. The results are not only Uranium but other REE elements are concentrated in the layer of Fe rich crust. This feature might be used for future heavy metal absorption and fixation technology.
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Understanding of the flow-path structure in orogenic crystalline rocks
2011.4 - 2015.3
Grant-in-Aid for Scientific Research Grant-in-Aid for Scientific Research(B)
Authorship:Principal investigator
Industrial property rights 4
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構造材、構造物、構造物の建造方法、シール用組成物、及びイオン供給材
吉田英一
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充填材
吉田英一
-
構造物用表面保護シート及び表面保護シート付き構造物
吉田英一
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構造物用補修剤及び構造物用補修剤作製キット
吉田英一
Teaching Experience (On-campus) 7
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堆積地質学
2021
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地球表層過程論
2021
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博物館資料保存論
2021
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博物館概論
2021
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博物館実習
2020
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博物館資料保存論
2020
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博物館概論
2020
Teaching Experience (Off-campus) 2
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自然科学特別セミナー
2021.12 (Niigata University)
Level:Undergraduate (specialized) Country:Japan
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集中講義(筑波大学)
2020.12 (University of Tsukuba)
Level:Postgraduate
Media Coverage 5
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自然現象模倣 岩盤の亀裂補修 Newspaper, magazine
日経産業新聞 研究面 2021.11
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地下水遮断 半永久的に 岩盤形成プロセス応用 Newspaper, magazine
電気新聞 2021.11
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岩盤亀裂ふさぎ透水性1/1000 Newspaper, magazine
日刊工業新聞 2021.11
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チコちゃんに叱られる出演(コンクリーション化プロセス) TV or radio program
NHK チコちゃんに叱られる 2021.11
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名大フロントライン
名古屋大学広報 名古屋大学 2021.12