論文- 山本 悟 -
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件数:216件
[2020]
1.A numerical and analytical coupling method for predicting the performance of intermediate-pressure steam turbines in operation.[Energy,198,(2020),117380]Satoru Yamamoto, Akihiro Uemura, Hironori Miyazawa, Takashi Furusawa, Koichi Yonezawa, Shuichi Umezawa, Shuichi Ohmori, Takeshi Suzuki
10.1016/j.energy.2020.117380
2.Simulation of unsteady flows through three-stage middle pressure steam turbine in operation.[Mechanical Engineering Journal,(2020)]Akihiro UEMURA, Hironori MIYAZAWA, Takashi FURUSAWA, Satoru YAMAMOTO, Koichi YONEZAWA, Shuichi UMEZAWA, Shuichi OHMORI
10.1299/mej.20-00068
[2019]
3.Numerical Simulation of Supercritical Octane Flows in a Heated Circular Tube with Simple Thermal Cracking Model.[Proc. ASME-JSME-KSME 2019 8th Joint Fluids Engineering Conference,(AJKFluids2019-4797),(2019),1-8]Takashi Furusawa, Noriyuki Taki, Shuto Yatsuyanagi, Satoru Yamamoto, Takuto Miyaura, Sadatake Tomioka
4.Numerical Simulation of Unsteady Moist-air Flows through Whole-annulus Rotor Blade Rows in Transonic Compressor.[Proc. ASME-JSME-KSME 2019 8th Joint Fluids Engineering Conference,(AJKFluids2019-4782),(2019),1-9]Shota Moriguchi, Takuro Endo, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto
5.Effect of Blade Secular Change on Unsteady Flows in Middle Pressure First-Stage Steam Turbines.[Proc. ASME 2019 Turbo Expo,(GT2019-90644),(2019),1-9]Akihiro Uemura, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Koichi Yonezawa, Shuichi Umezawa
6.Optical Couarse Droplet Measurement and Wet Loss Analysis on the Wet Air Flow Through the Subsonic Blade Cascade Channel.[Proc. ASME 2019 Turbo Expo,(GT2019-91928),(2019),1-12]Yasuhiro Sasao, Ryo Takata, Satoshi Miyake, Soichiro Tabata, Satoru Yamamoto
[2018]
7.Wetness Effect on Transonic Moist-air Flow through a Compressor Rotor.[Proc. ASME 2018 5th-Joint US-European Fluid Engineering Division Summer Meeting,(FEDSM2018-83422),(2018),1-10]Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa, and Satoru Yamamoto
8.Numerical Method for Simulating High Pressure CO2 Flows with Nonequilibrium Condensation.[Proc. ASME 2018 Turbo Expo,(GT2018-75592),(2018),1-10]Takashi Furusawa, Hironori Miyazawa and Satoru Yamamoto
9.Results of the International Wet Steam Modeling Project.[Proc. IMechE, Part A, Journal of Power and Energy,(2018),1-21]Jorg Startzmann et al.(including Satoru Yamamoto)
10.Effect of Inlet Wetness on Transonic Wet-steam and Moist-air Flows in Turbomachinery.[International Journal of Heat and Mass Transfer (Featured online on 'Advances in Engineering':https://advanceseng.com/free-energy-dominates-nucleation-condensation/),19,(2018),720-732]Satoru Yamamoto, Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa
11.Numerical Investigation of Transonic Supercritical CO2 Flows with Nonequilibrium Condensation in a Laval Nozzle.[Proc. 6th International Supercritical CO2 Power Cycles Symposium,(2018)]Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto
[2017]
12.FPGA-Based Scalable and Power-Efficient Fluid Simulation using Floating-Point DSP Blocks.[IEEE TRANSACTIONS ON PARALLEL AND DISTRIBUTED SYSTEMS,28(10),(2017),2823-2837]Kentaro Sano, Satoru Yamamoto
10.1109/TPDS.2017.2691770
http://gateway.isiknowledge.com/gateway/Gateway.cgi?&GWVersion=2&SrcAuth=TohokuUniv&SrcApp=TohokuUniv&DestLinkType=FullRecord&KeyUT=WOS:000410653500009&DestApp=WOS
13.Bandwidth Compression of Floating-Point Numerical Data Streams for FPGA-Based High-Performance Computing.[ACM TRANSACTIONS ON RECONFIGURABLE TECHNOLOGY AND SYSTEMS,10(3),(2017)]Tomohiro Ueno, Kentaro Sano, Satoru Yamamoto
10.1145/3053688
http://gateway.isiknowledge.com/gateway/Gateway.cgi?&GWVersion=2&SrcAuth=TohokuUniv&SrcApp=TohokuUniv&DestLinkType=FullRecord&KeyUT=WOS:000406426100002&DestApp=WOS
14.Mathematical Modeling and Computation of High-pressure Steam Condensation in a Transonic Flow.[Journal of Fluid Science and Technology,12(1),(2017),1-11]Takashi Furusawa and Satoru Yamamoto
15.Numerical Analysis of Condensation Effects on Final-stage Rotor-blade Rows in Low-pressure Steam Turbine.[Journal of Fluid Science and Technology,12(2),(2017),1-12]Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto
[2016]
16.Results of the International Wet Steam Modelling Project.[Proc. Wet Steam Conference, Prague,(2016),1-25]Jörg Starzmann他25名
17.Unsteady Force on Multi-stage and Multi-passage Turbine Long Blade Rows Induced by Wet-steam Flows.[Proc. ASME Turbo Expo 2016,(GT2016-56360),(2016),1-12]Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Yasuhiro Sasao, Hiroharu Ooyama
18.Numerical Method for Simulating Flows of Supercritical CO2 Compressor with Nonequilibrium Condensation.[Proc. ASME Turbo Expo 2016,(GT2016-56431),(2016),1-9]Takashi Furusawa, Hironori Miyazawa, Satoru Yamamoto
19.Performance Optimization of Numerical Turbine for Supercomputer SX-ACE.[Proc. Parallel CFD,(2016),130-131]Y.Sakaguchi, K.Kataumi, H.Matsuoka, O.Watanabe, A.Musa, K.Komatsu, R.Egawa, H.Kobayashi, S.Yamamoto
[2015]
20.Unsteady Force of Wet-steam Flow on Multi-stage Turbine Long Blade Rows.[Proc. Int. Gas Turbine Congress 2015 Tokyo,(2015),1-7]Hironori Miyazawa, Toshiki Iwasaki, Satoshi Miyake, Takashi Furusawa, Satoru Yamamoto
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