Rchr
J-GLOBAL ID:202001021085769662   Update date: Apr. 17, 2024

takimoto hiroshi

タキモト ヒロシ | takimoto hiroshi
Research theme for competitive and other funds  (7):
  • 2015 - 2020 Studies on internalizing processes of external technologies into rural Africa and establishment of a model for the cyclical use of natural resources
  • 2013 - 2016 Development of system for measurement of water quality load and elucidation of water and mass balance in an experimental watershed
  • 2007 - 2008 Development of micro hydro systems contribute to the practical implementation of distributed energy
  • 2005 - 2008 Study on hydrological evaluation of green dam effects
  • 2005 - 2006 富山県諏訪川用排水路の新型洪水調整池における浸透機能の評価
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Papers (63):
  • Toshisuke Maruyama, Sanshiro Fujii, Hiroshi Takimoto. Comparison of estimated and observed evapotranspiration from farmland using inverse analysis and FLUXNET2015. Agricultural Water Management. 2023. 287. 108414-108414
  • Characteristics of Intake Screen in Bypass Channel for Small Hydropower Generation. Journal of Japanese Society of Irrigation, Drainage and Reclamation Engineering. 2023. 543-546
  • RYOKO SEKIFUJI, LE VAN CHIEU, MASAFUMI TATEDA, HIROSHI TAKIMOTO. Effects of Compaction on Silica Solubility and Physical Properties of Rice Husk Ash for Fertilizer Use. Japanese Journal of Water Treatment Biology. 2021. 57. 3. 55-65
  • Ryoko Sekifuji, Van Chieu Le, Masafumi Tateda, Hiroshi Takimoto. Solubility and physical composition of rice husk ash as a function of calcination temperature and duration. International Journal of Recycling of Organic Waste in Agriculture. 2021. 10. 19-27
  • Yoshioka Yumi, Nakamura Kimihito, Takimoto Hiroshi, Sakurai Shinji, Nakagiri Takao, Horino Haruhiko, Tsuchihara Takeo. Multiple-indicator study of the response of groundwater recharge sources to highly turbid river water after a landslide in the Tedori River alluvial fan, Japan. Hydrological Processes. 2020. 34. 16. 3539-3554
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MISC (26):
  • Micro hydro power generation systems using agricultural water. 2021. 60. 3. 1-5
  • 砺波地方の未来を照らす小規模水力発電. 砺波散村地域研究所紀要. 2020. 37. 62-66
  • 瀧本 裕士. 熱収支ボーエン比法における異常値の定義とその適用例. 応用水文. 2019. 31. 41-50
  • 瀧本 裕士. 蒸発散推定のためのボーエン比法と逆解析法との比較. 応用水文. 2019. 31. 51-60
  • 瀧本 裕士. 志賀町エネルギービジョン(2018~2026年度). 石川県志賀町環境安全課. 2018. 1-102
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Patents (5):
  • 水力発電装置
  • 水力発電装置
  • クロスフロー水車の羽根車、クロスフロー水車並びに発電設備
  • 水力発電装置
  • オープンクロスフロー水車発電装置
Books (4):
  • 地域水力を考える
    株式会社昭和堂 2021
  • 改訂6版 農業農村工学標準用語事典
    農業農村工学会 2019 ISBN:9784889801651
  • 地域環境水利学
    朝倉書店 2017 ISBN:9784254445022
  • 甦るらせん水車 : マイクロ水力発電への可能性を探る
    パワー社 2010 ISBN:9784827723366
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