Rchr
J-GLOBAL ID:200901093089837258
Update date: Oct. 01, 2022
Sato Kozo
サトウ コウゾウ | Sato Kozo
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Affiliation and department:
The University of Tokyo The Graduate School of Engineering
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Detailed information
Homepage URL (1):
http://gpre.geosys.t.u-tokyo.ac.jp/sato/index.html
Research field (1):
Earth resource engineering, energy science
Research keywords (5):
数値シミュレーション
, 地下微生物利用
, 非在来型エネルギー資源
, CCS
, 地球温暖化問題
Research theme for competitive and other funds (4):
2010 - 不確実性の工学
フロンティアエネルギーの環境調和型開発
統合型流体シミュレーション技術の開発
持続型炭素循環システムの構築
Papers (47):
Kei Tanaka, Kozo Sato. Development of Normalized Entropy Based Convergence Standards in Iterative Latin Hypercube Sampling Applied for CO2 Geological Storage. JOURNAL OF THE JAPAN PETROLEUM INSTITUTE. 2015. 58. 6. 384-391
Takashi Goda, Masahiro Nakayasu, Daisuke Murakami, Kozo Sato. Effects of Likelihood Functions on Value of Information Analysis in Resource Development. JOURNAL OF THE JAPAN PETROLEUM INSTITUTE. 2015. 58. 6. 376-383
Qian Fu, Naoya Fukushima, Haruo Maeda, Kozo Sato, Hajime Kobayashi. Bioelectrochemical analysis of a hyperthermophilic microbial fuel cell generating electricity at temperatures above 80 degrees C. BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY. 2015. 79. 7. 1200-1206
Qian Fu, Yoshihiro Kuramochi, Naoya Fukushima, Haruo Maeda, Kozo Sato, Hajime Kobayashi. Bioelectrochemical Analyses of the Development of a Thermophilic Biocathode Catalyzing Electromethanogenesis. ENVIRONMENTAL SCIENCE & TECHNOLOGY. 2015. 49. 2. 1225-1232
MAEDA HARUO, IKARASHI MASAYUKI, MIYAGAWA YOSHIHIRO, KOBAYASHI HAJIME, FUKUSHIMA NAOYA, SATO KOZO. 持続的炭素循環を目指した地下環境におけるCO
2
の電気化学的微生物メタン変換研究. 石油技術協会誌. 2014. 79. 4. 253
more...
MISC (103):
TANAKA KEI, SATO KOZO. 繰り返しラテン超方格法の解探索能力の向上とCO
2
地中貯留における坑井配置最適化問題への適用. 石油技術協会誌. 2015. 80. 4. 291
MAEDA HARUO, IGARASHI MASAYUKI, KOBAYASHI HAJIME, FUKUSHIMA NAOYA, SATO KOZO. 持続的炭素循環に向けた「CO
2
の電気化学的微生物メタン変換技術」研究. 石油・石油化学討論会講演要旨. 2014. 44th. 349-350
KAYAMA MIKI, FU QIAN, SATO KOZO, KOBAYASHI HAJIME, FUKUSHIMA NAOYA. 電気化学的メタン生成の触媒活性向上に関わるバイオカソード微生物叢の変化. 石油技術協会誌. 2014. 79. 4. 258
小林 肇, 佐藤 光三. CO2から資源を生み出す微生物電解合成システム (特集 触媒が拓く人工光合成). 水素エネルギーシステム = Journal of the Hydrogen Energy Systems Society of Japan. 2014. 39. 1. 24-32
UMEDA RYOSUKE, FU QIAN, KOBAYASHI HAJIME, SATO KOZO. Microbial fuel cells (MFC) in thermophilic conditions. 日本微生物生態学会講演要旨集. 2013. 29th. 113
more...
Books (2):
Complex Analysis for Practical Engineering
Springer 2015 ISBN:3319130625
ポテンシャル流れの複素変数境界要素法
培風館 2003 ISBN:4563067288
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