Papers in Refereed Journals

International

1.           Sato, K. and Horne, R.N. “Perturbation Boundary Element Method for Heterogeneous Reservoirs: Part-1 Steady-State Flow Problems,” SPE Formation Evaluation 8, 306-314 (1993).

2.           Sato, K. and Horne, R.N. “Perturbation Boundary Element Method for Heterogeneous Reservoirs: Part-2 Transient Flow Problems.” SPE Formation Evaluation 8, 315-322 (1993).

3.           Sato, K. and Abbaszadeh, M.D. “Tracer Flow and Pressure Performance of Reservoirs Containing Distributed Thin Bodies,” SPE Formation Evaluation 11, 185-193 (1996).

4.           Sato, K. “Productivity of Horizontal Sinks in the Presence of Distributed Fractures,” SPE Journal 2, 194-203 (1997).

5.           Sato, K., Wright, C. and Ichikawa, M. “Post-Frac Analyses Indicating Multiple Fractures Created in a Volcanic Formation,” SPE Production and Facilities 14, 284-291 (1999).

6.           Sato, K. “Productivity Correlation for Horizontal Sinks Completed in Fractured Reservoirs,” SPE Reservoir Evaluation and Engineering 3, 132-138 (2000).

7.           Sato, K. “Comparison of Boundary Element Methods for Streamline Tracking,” J of Petroleum Science & Engineering 30, 29-42 (2001).

8.           Sato, K. “Complex Variable Boundary Element Method for Potential Flow with Thin Objects,” Computer Methods in Applied Mechanics and Engineering 192, 1421-1433 (2003).

9.           Sato, K. “Modeling of Hydrodynamic Dispersion and Two-phase Flow in the Complex Variable Boundary Element Method,” Computer Methods in Applied Mechanics and Engineering 192, 4425-4438 (2003).

10.        Sato, K. “Modelling Infinite-conductivity Line Sinks in the Complex Variable Boundary Element Method,” Communications in Numerical Methods in Engineering 20, 43-49 (2004).

11.        Sato, K. and Watanabe, Y. “Treatment of Neumann Boundaries in the Complex Variable Boundary Element Method,” Communications in Numerical Methods in Engineering 20, 119-132 (2004).

12.        Sato, K. “Monitoring the Underground Migration of Sequestered Carbon Dioxide using Earth Tides,” Energy Conversion and Management 47, 2414-2423 (2006).

13.        Kawaguchi, H., Sakuma, T., Nakata, Y., Kobayashi, H., Endo, K., and Sato, K. “Methane production by Methanothermobacter thermautotrophicus to recover energy from carbon dioxide sequestered in geological reservoirs,” Journal of Bioscience and Bioengineering 110 (1), 106-108 (2010).

14.        Sato, K., Mito, S., Horie, T., Ohkuma, H., Saito, H., Watanabe J., and Yoshimura, T. “Monitoring and simulation studies for assessing macro- and meso-scale migration of CO2 sequestered in an onshore aquifer: Experiences from the Nagaoka pilot site, Japan,” International Journal of Greenhouse Gas Control 5, 125-137 (2011).

15.        Goda, T. and Sato, K. “Gravity currents of carbon dioxide with residual gas trapping in a two-layered porous medium,” Journal of Fluid Mechanics 673, 60-79 (2011).

16.        Sato, K. “Value of information analysis for adequate monitoring of carbon dioxide storage in geological reservoirs under uncertainty,” International Journal of Greenhouse Gas Control 5, 1294-1302 (2011).

17.        Kobayashi, H., Kawaguchi, H., Endo, K., Mayumi, D., Sakata, S., Ikarashi, M., Miyagawa, Y., Maeda, H., and Sato, K. “Analysis of methane production by microorganisms indigenous to a depleted oil reservoir for application in Microbial Enhanced Oil Recovery ,” Journal of Bioscience and Bioengineering 113, 84-7 (2012).

18.        Kobayashi, H., Endo, K., Sakata, S., Mayumi, D., Kawaguchi, H., Ikarashi, M., Miyagawa, Y., Maeda, H., and Sato, K. “Phylogenetic diversity of microbial communities associated with the crude-oil, large-insoluble-particle and formation-water components of the reservoir fluid from a non-flooded high-temperature petroleum reservoir,” Journal of Bioscience and Bioengineering 113, 204-10 (2012).

19.        Kawaguchi, H., Kobayashi, H., and Sato, K. “Metabolic engineering of hydrophobic Rhodococcus opacus for biodesulfurization in oil–water biphasic reaction mixtures,” Journal of Bioscience and Bioengineering 113, 360-6 (2012).

20.        Kawaguchi, H., Li, Z., Masuda, Y., Sato, K., and Nakagawa, H.  “Dissolved organic compounds in reused process water for steam-assisted gravity drainage oil sands extraction,” Water Research 46, 5566-74 (2012).

21.        Fu, Q., Kobayashi, H., Kawaguchi, H., Vilcaez, J., Wakayama, H., Maeda, H., and Sato, K. “Electrochemical and phylogenetic analyses of current-generating microorganisms in a thermophilic microbial fuel cell,” Journal of Bioscience and Bioengineering 115, 268-71 (2013).

22.        Fu, Q., Kobayashi, H., Kuramochi, Y., Xu, J. , Wakayama, T., Maeda, H., and Sato, K. “Bioelectrochemical analyses of a thermophilic biocathode catalyzing sustainable hydrogen production," Int J. Hydrogen Energ, 38:15638-45 (2013).

23.        Fu, Q., Kobayashi, H., Kawaguchi, H., Wakayama, H., Maeda, H., and Sato, K. “A thermophilic Gram-negative nitrate-reducing bacterium, Calditerrivibrio nitroreducens, exhibiting electricity generation capability." Environ Sci Technol, 47:12583-90 (2013).

24.        Sato, K., Kawaguchi, H., and Kobayashi, H. “Bio-electrochemical conversion of carbon dioxide to methane in geological storage reservoirs,” Energy Conversion and Management 66, 343-50 (2013).

25.        Kobayashi, H., Saito, N., Fu, K., Kawaguchi, H., Vilcaez, J., Wakayama, T., Maeda, H., and Sato, K. “Electrochemical and microbial analysis of the bio-electrodes of the electromethanogenic reactor, ”  Journal of Bioscience and Bioengineering (2013).

26.        Goda, T and Sato, K. “History matching with Iterative Latin Hypercube Samplings and Parameterization of Reservoir Heterogeneity,” J of Petroleum Science & Engineering 114, 29-42 (2014).

27.        Fu, Q., Kuramochi, Y., Fukushima, N., Maeda, H., Sato, K. and Kobayashi, H. “Bioelectrochemical Analyses of the Development of a Thermophilic Biocathode Catalyzing Electromethanogenesis," Environ Sci Technol, 49, 1225-32 (2015).

28.        Fu, Q., Fukushima, N., Maeda, H., Sato, K. and Kobayashi, H. “Bioelectrochemical analysis of a hyper-thermophilic microbial fuel cell generating electricity at temperatures above 80 C," Biosci Biotechnol Biochem, in press (2015).

29.        Nakayasu, M., Goda, T., Tanaka, K., and Sato, K. “Evaluating the value of single-point data in heterogeneous reservoirs using the expectation-maximization algorithm," SPE Economics & Management, in press (2015).

 

Domestic

30.        佐藤光三,池田隆彦. 「火山岩レザバーの圧力解析」 石油技術協会誌 49, 52-59 (1984).

31.        佐藤光三. 「ラインソースを含む流体流動問題に対する境界要素法の応用」 石油技術協会誌 56, 232-240 (1991).

32.        佐藤光三. 「加速摂動境界要素法による不均質媒体内流動挙動シミュレーション」 石油技術協会誌 58, 483-491 (1993).

33.        Sato, K. “Boundary Element Methods for Flow Problems in Heterogeneous Media,” J of the Japan Petroleum Institute 42, 181-191 (1999).

34.        中島寿徳,在原典男,武田秀明,佐藤光三,矢澤仁徳. 「状態方程式による完全陰解多成分系モデルの開発」 石油技術協会誌 65, 342-351 (2000).

35.        Sato, K. and Takeda, H. “Effects of Perforation Schemes and Non-Darcy Flow on Hydraulically-fractured Gas Well Performances,” J of the Japanese Association for Petroleum Technology 65, 477-488 (2000).

36.        中島寿徳,佐藤光三,在原典男,矢澤仁徳. 「天然フラクチャー型貯留層の有効浸透率予測」 石油技術協会誌 66, 225-236 (2001).

37.        本阿彌幸子,在原典男,佐藤光三,武田秀明,矢澤仁徳. 「状態方程式による多成分系油層シミュレーションのための効率的な相平衡計算」 石油学会誌 44, 244-251 (2001).

38.        野村雅彦,安藤慎吾,佐藤光三. 「離散岩体を含む火山岩貯留層における有効浸透率評価」 石油技術協会誌 66, 540-552 (2001).

39.        Sato, K., Arihara, N., Nakashima, T. and Fujita, K. “Inconsistency between Fracture and Anisotropic Systems in Predicting Horizontal-sink Productivity,” J of the Japan Petroleum Institute 44, 232-243 (2001).

40.        Sutopo, Arihara, N., Sato, K. and Abbaszadeh, M.D. “Representative Elementary Volume of Naturally Fractured Reservoirs Evaluated by Flow Simulation,” J of the Japan Petroleum Institute 45, 156-168 (2002).

41.        Sato, K. “Formulations of the Complex Variable Boundary Element Method for Potential Flow with Sink and Source Singularities,” J of the Japan Petroleum Institute 45, 389-403 (2002).

42.        Sutopo, Arihara, N. and Sato, K. “Accurate Simulation for Strongly Heterogeneous Reservoirs,” J of the Japanese Association for Petroleum Technology 67, 215-228 (2002).

43.        Sato, K. “Sensitivity of Interfacial-tension Predictions to Parachor-method Parameters,” J of the Japan Petroleum Institute 46, 148-153 (2003).

44.        Sato, K. “Inclusion of Hydrodynamic Dispersion in Fluid Flow Computations using the Complex Variable Boundary Element Method,” J of the Japan Petroleum Institute 46, 272-279 (2003).

45.        佐藤光三. 「離散的不均質体を含む多孔質媒体内分散流れの数値シミュレーション」 土木学会論文集, II-68, No. 768, 23-32 (2004).

46.        山下紘司,佐藤光三,増田昌敬. 「遺伝的アルゴリズムを用いたトレーサー試験逆解析によるフラクチャーの同定」 石油学会誌 48, 308-313 (2005).

47.        佐藤光三,藤田圭吾. 「地球潮汐を利用した貯留層モニタリング手法」 石油学会誌, 49, 78-85 (2006).

48.        Sato, K. and Iwasaki, H. “Effects of Well Arrangement on Characterization of Discrete Fracture Systems by Inverse Analysis of Tracer Tests,” J of the Japan Petroleum Institute, 49, 91-97 (2006).

49.        山下紘司,佐藤光三,増田昌敬,前田治男. 「薄膜流動を利用した増油効果の実験およびシミュレーションによる検証」 石油学会誌, 50, 169-177 (2007).

50.        長縄成実,佐藤光三,荒川英一.  「エタノールベントナイト混合液の多孔質媒体内への圧入と孔隙の閉塞に関する実験」 石油技術協会誌, 73, 287295 (2008).

51.        合田隆,佐藤光三. 「関数変換を用いたアンサンブルカルマンフィルターによる相対浸透率の推定」 石油学会誌 52, 248-256 (2009).

52.        合田隆,佐藤光三. CIP法適用による多孔質媒体内二相流動シミュレーション」 石油学会誌 52, 257-264 (2009).

53.        合田隆,佐藤光三. 「アンサンブルカルマンフィルターを用いたトレーサー試験データの逐次同化によるフラクチャーの同定」 石油学会誌 52, 275-282 (2009).

54.        合田隆,佐藤光三. 「繰り返しラテン超方格法を用いたCO2地中貯留における坑井配置の大局的最適化」石油技術協会誌, 76, 233-243 (2011).

55.        前田治男,五十嵐雅之,宮川喜洋,小林肇,佐藤光三,真弓大介,坂田将.  「地下常在微生物を利用した二酸化炭素のメタン変換システム構築」 石油技術協会誌, 76, 530-537 (2011).

56.        佐藤光三. 「資源開発と不確実性下における意思決定」 石油技術協会誌, 77, 128-136 (2012).

57.        長尾大道,佐藤光三,樋口知之. 「マルコフ連鎖モンテカルロ法を利用したトレーサー試験からフラクチャーの物理パラメータを推定する方法」石油技術協会誌, 78, 197-209 (2013).

58.        Attavitkamthorn, V., Vilcaez, J. and Sato, K. “Metamodeling of gas flooding EOR in Pattani Basin, Thailand,” J of the Japanese Association for Petroleum Technology 78, 508-519 (2013).

59.        長尾大道,佐藤光三,樋口知之. 「討論に対する回答:マルコフ連鎖モンテカルロ法を利用したトレーサー試験からフラクチャーの物理パラメータを推定する方法」石油技術協会誌, 79, 90-92 (2014).

60.        Goda, T., Nakayasu, M., Murakami, D. and Sato, K. “Effects of likelihood functions on value of information analysis in resource development," J of the Japan Petroleum Institute, 58, 376-83 (2015).

61.        田中啓,佐藤光三. 「繰り返しラテン超方格法における正規化エントロピーを利用した収束判定法の導入とCO2地中貯留への適用」 石油学会誌 58, 384-91 (2015).

 

書籍

1.           ポテンシャル流れの複素変数境界要素法 佐藤光三 培風館 (2003) ISBN4-563-06728-8.

2.           Boundary Elements VVXI Brebbia, C.A. (ed.) WIT Press (2004) ISBN1-85312-708-6.

3.           温室効果ガス貯留・固定と社会システム 共著 コロナ社 (2009) ISBN978-4-339-06614-2.

4.           エネルギーの事典 共著 朝倉書店 (2010) ISBN978-4-254-20125-3.

5.           CCS技術の新展開 座談会 シーエムシー出版 (2011) ISBN978-4-7813-0468-7.

6.           Complex Analysis for Practical Engineering  K. Sato, Springer (2015) ISBN 978-3-319-13062-0