国際会議論文



 2023年 

  1. Visualized measurement of the wake of a sphere having a uniaxial through-hole,
    Kobayashi, D., Takamure, K., Uchiyama, T.,
    International Conference on Materials and Systems for Sustainability 2023, A8-P-1, 2023, Nagoya.
  2. Measurement of particle collection efficiency of flat plate electrode type electrostatic precipitator,
    Haruki, T., Ando, S., Yagi, T., Amano, H., Iwatani, Y., Takamure, K., Uchiyama T.,
    International Conference on Materials and Systems for Sustainability 2023, A8-P-2, 2023, Nagoya.
  3. Experimental Investigation of Jet Characteristics with Cut NACA0036 Airfoil,
    Wang, C., Takamure, K., Uchiyama, T.,
    International Conference on Materials and Systems for Sustainability 2023, A8-P-3, 2023, Nagoya.
  4. Oil mist collection characteristics by using corrugated sheet type oil mist trap,
    Nakayama, H., Hisai, T., Takamure, K., Uchiyama, T.,
    International Conference on Materials and Systems for Sustainability 2023, A8-P-9, 2023, Nagoya.
  5. Particle Collection Characteristics of a Prismatic Two-stage Electrostatic Precipitator,
    Haruki, T., Ando, S., Yagi, T., Amano, H., Iwatani, Y., Takamure, K., Uchiyama T.,
    20th International Conference on Flow Dynamics (ICFD2023), OS13-6, 2023, Sendai.
  6. PIV Measurement of the Wake of Sphere with a Uniaxial Through-hole ,
    Kobayashi, D., Takamure, K., Uchiyama, T.,
    20th International Conference on Flow Dynamics (ICFD2023), OS13-5, 2023, Sendai.
  7. Collection performance of oil mist in corrugated sheet type oil mist trap,
    Takamure, K., Nakayama, H., Uchiyama, T.,
    The 3rd International Symposium on Design & Engineering by Joint Inverse Innovation for Materials Architecture, NGY08, 2023, Tokyo.
  8. Microparticle collection device using electrostatic precipitator technology,
    Kirita, Y., Haruki, T., Ando, S., Yagi, T., Amano, H., Iwatani, Y., Takamure, K., Uchiyama T., .,
    The 3rd International Symposium on Design & Engineering by Joint Inverse Innovation for Materials Architecture, NGY07, 2023, Tokyo.
  9. Particle collection characteristics of a prismatic two-stage electrostatic precipitator,
    Haruki, T., Ando, S., Yagi, T., Amano, H., Iwatani, Y., Takamure, K., Uchiyama T.,
    10th International Conference on Vortex Flow Mechanics, No026, 2023, Nanjing.
  10. Experimental Investigation on Jet Issuing from Two-Dimensional Nozzle Equipped with Cut Airfoil of NACA0036,
    Wang, C., Takamure, K., Uchiyama, T.,
    10th International Conference on Vortex Flow Mechanics, No016, 2023, Nanjing.
  11. Visualized measurement of the wake of a sphere having a uniaxial through-hole, Proc. 10th International Conference on Vortex Flow Mechanics,
    Kobayashi, D., Takamure, K., Uchiyama, T.,
    10th International Conference on Vortex Flow Mechanics, No036, 2023, Nanjing.

 2022年 

  1. Collection Performance of Oil Mist in T-shaped Mist Trap,
    Ando, S., Takamure, K., Uchiyama, T., Nakayama, H.,
    19th International Conference on Flow Dynamics (ICFD2022), OS13-16, 2022, Sendai.
  2. Simultaneous Measurement of Volumetric Flowrates of Each Phase of Gas-Liquid Two-Phase Flow by a Self-Powered IoT Turbine Flowmeter,
    Miyamoto, S., Sakamoto, Y., Horie, K., Uchiyama, T., Takamure, K., Nakayama, H.,
    19th International Conference on Flow Dynamics (ICFD2022), OS13-15, 2022, Sendai.
  3. Experimental investigation of aerosol Blocking effect by desktop air curtain device,
    Kobayashi, D., Muto, H., Haruki, T., Takamure, K., Amano, H., Yagi, T., Iwatani, Y., Uchiyama, T.,
    19th International Conference on Flow Dynamics (ICFD2022), OS13-8, 2022, Sendai.
  4. Numerical investigation of aerosol Blocking effect by desktop air curtain device,
    Muto, H., Takamure, K., Kobayashi, D., Haruki, T., Amano, H., Yagi, T., Iwatani, Y., Uchiyama, T.,
    19th International Conference on Flow Dynamics (ICFD2022), OS13-7, 2022, Sendai.
  5. Desktop air curtain system with virus inactivation function,
    Takamure, K., Uchiyama, T.,
    2nd International Symposium on Design & Engineering by Joint Inverse Innovation for Materials Architecture (DEJI2MA), DEJI2MA-03-L, 2022, Osaka (Invited).
  6. Development of Air Curtain Device Blocking Aerosols in Exhaled Breath,
    Takamure, K., Sakamoto, Y., Iwatani, Y., Amano H., Yagi, T., Muto, H., Uchiyama, T.,
    6th International Symposium on Visualization in Joining & Welding Science through Advanced Measurements and Simulation (Visual JW), P-DEJI2MA-09, 2022, Osaka.
  7. Effect of cone at the central axis of rotor on the power generation efficiency of self-powered turbine flowmeter,
    Takamure, K., Uchiyama, T., Horie, K. and Nakayama, H.,
    The 32nd International Symposium on Transport Phenomena (ISTP32) , No.13, 2022, Tianjin (by online).
  8. Characteristics of a Cavitating Jet through a Small Rectangular Orifice with Different Aspect Ratios,
    Takei, H., Terakawa, K., Iio, S., Takamure, K., Uchiyama, T. and Yoshida, F.,
    The 7th International Conference on Jets, Wakes and Separated Flows (ICJWSF2022), No.ICJWSF2022-H03, 2022, Tokyo (by online).
  9. Estimation of a water entrained by water exit of a sphere,
    Takamure, K. and Uchiyama,
    The 7th International Conference on Jets, Wakes and Separated Flows (ICJWSF2022), No.ICJWSF2022-I08, 2022, Tokyo (by online).

 2021年 

  1. Basic study on output characteristics of an undershot water turbine applicable to heavy snowfall areas,
    Sato, E., Ikeda, T., Uchiyama T., Okayama T. and Miyazawa T.,
    Proc. Int. Conf. Materials and Systems for Sustainability 2021 (ICMaSS2021), No.1157, 2021, Nagoya (by online).
  2. Numerical Study on the Flow and Performance of a Savonius Hydraulic Turbine with S-shaped Blades,
    Takamure, K., Wang H., Uchiyama T., Iio S. and Ikeda T.,
    Proc. Int. Conf. Materials and Systems for Sustainability 2021 (ICMaSS2021), No1014, 2021, Nagoya (by online).
  3. Development of a Self-powered Wireless Sensor Node to Measure the Water Flowrate by Using a Turbine Flowmeter,
    Uchiyama, T.,
    Proc. Int. Conf. Materials and Systems for Sustainability 2021 (ICMaSS2021), 2021, Nagoya (by online, invited).
  4. Effect of submergence depth of water tank on the motion of a sphere launched vertically upward in water,
    Takamure, K. and Uchiyama, T.,
    Proc. The 16th International Symposium on Advanced Science and Technology in Experimental Mechanics (ISEM2021), 2021, Hanoi (by online).
  5. Wake of a sphere having a uniaxial through-hole in a uniform flow,
    Kato H., Takamure, K. and Uchiyama, T.,
    Proc. The 16th International Symposium on Advanced Science and Technology in Experimental Mechanics (ISEM2021), 2021, Hanoi (by online).
  6. Effect of density of a sphere launched vertically in water on the sphere dynamics ,
    Takamure, K. and Uvhiyama, T.,
    Proc. 18th International Conference on Flow Dynamics (ICFD2021), Sendai (by online).
  7. Improvement of Power Generation Efficiency of Self-powered IoT Turbine Flowmeter with NACA airfoil Shaped Blades ,
    Sakamoto, Y., Uchiyama, T., Takamure, K. and Nakayama, H.,
    Proc. 18th International Conference on Flow Dynamics (ICFD2021), Sendai (by online).
  8. Experimental study of vortex shedding from a sphere with a uniaxial through-hole in uniform flow,
    Kato, H., Takamure, K. and Uvhiyama, T.,
    Proc. 18th International Conference on Flow Dynamics (ICFD2021), Sendai (by online).
  9. Flow Characteristic of Cavitating Jet from a Small Orifice,
    Terakawa, K., Iio, S., Takamure, K. and Uvhiyama, T.,
    Proc. 18th International Conference on Flow Dynamics (ICFD2021), Sendai (by online).
  10. An experimental study on the wake of a sphere having a uniaxial through-hole,
    Kato, H., Takamure, K. and Uvhiyama, T.,
    Proc. 9th International Conference on Vortex Flow Mechanics (ICVFM 2021), Patras (by online).
  11. Effect of Froude number on the motion of a sphere launched vertically upward in water,
    Takamure, K. and Uchiyama, T.,
    Proc. 9th International Conference on Vortex Flow Mechanics (ICVFM 2021), Patras (by online).
  12. Development of a self-powered turbine flowmeter suitable for IoT sensor node,
    Sakamoto, Y., Uchiyama, T., Takamure, K. Okuno, Y., Sato, E., Nakayama, H., Osa N. and Matsumoto, H.,
    Proc. The 16th Asian International Conference on Fluid Machinery, AICFM162021-00003, 2021, Yokohama (by online).
  13. Numerical Simulation of the flow and performance of a Savonius hydraulic turbine with S-shaped blades,
    Takamure, K., Wang, H., Uchiyama, T., Iio, S. and Ikeda, T.,
    Proc. The 16th Asian International Conference on Fluid Machinery, AICFM162021-00002, 2021, Yokohama (by online).
  14. Effect of time interval between injections of two vortex rings on the mixing of a density-stratified fluid,
    Cao L., Takamure, K., Degawa, T., Matsuda, Y. and Uchiyama, T.,
    Proc. The 19th International Symposium on Flow Visualization, 2021, Shanghai (by online).

 2020年 

  1. Numerical Simulation of Flow around a Hydraulic Savonius Turbine by Vortex in Cell Method,
    Qiang Gu, Haotian Wang,Tomohiro Degawa, Kotaro Takamure, Tomomi Uchiyama, Shouichiro Iio, and Toshihiko Ikeda,
    Proc. 4th Int. Conf. Environmental and Energy Engineering, E009,2020, Sanya.
  2. Numerical Simulation of Cryogenic Gas-Liquid Two-Phase Flow and Conjugate Heat Transfer in a Coil Winding of a Superconducting Magnet,
    Degawa, T., Obana, T. and Uchiyama, T.,
    Proc. 10th ACASC/2nd Asian ICMC/CSSJ Joint Conf., Okinawa, Poster No. 8P-39, 2020, p.134.

 2019年 
  1. Motion of a solid sphere launched vertically upward in water and deformation of water surface by the sphere,
    Takamure, K. and Uchiyama, T.,
    Proc. 16th Asian Cong. Fluid Mech., 16ACFM-89, 2019, Bengaluru.
  2. Mixing of two-layer density-stratified fluid induced by interaction between the density interface and two vortex rings,
    Cao, L., Takamure, K., Degawa, T., Matsuda, Y. and Uchiyama, T.,
    Proc. 11th Int. Sympo. Measurement Techniques for Multiphase Flows, 2019.
  3. Simulations of the Flow and Performance of a Hydraulic Savonius Turbine by the Vortex in Cell Method,
    Gu, Q., Wang, H., Degawa, T., Uchiyama, T., Takamure, K., Iio, S., Ikeda T. and Okayama, T.,
    Proc. Int. Conf. Materials and Systems for Sustainability, 4A9-P-2, 2019, Nagoya.
  4. Mixing of Two-Layer Density-Stratified Fluid by a Vortex Ring,
    Cao, L., Ito, R., Degawa, T., Uchiyama, T., Takamure, K. and Matsuda, Y.,
    Proc. Int. Conf. Materials and Systems for Sustainability, A4-P-11, 2019, Nagoya.
  5. Interaction of two-layer density-stratified fluid with two vortex rings,
    Cao, L., Takamure, K., Degawa, T., Matsuda, Y. and Uchiyama, T.,
    Proc. 4th Int. Sympo. Creation of Life Innivation Materials for Interdisciplinary and International Researcher Development, Sendai, 2019, paper number 1P-15.
  6. Experimental study of mixing of two-layer density-stratified fluid by a vortex ring,
    Cao, L., Ito, R., Degawa, T., Matsuda, Y., Takamure, K. and Uchiyama, T.,
    Proc. ASME-JSME-KSME Joint Fluids Engineering Conference 2019, San Francisco, 2019, AJKFluids2019-4972.
  7. Flow past two cylinders arranged in tandem within a microbubble plume,
    Uchiyama, T., Kano, R., Degawa, T. and Takamure, K.,
    Proc. ASME-JSME-KSME Joint Fluids Engineering Conference 2019, San Francisco, 2019, AJKFluids2019-4971.

 2018年 
  1. Numerical simulation of cryogenic gas-liquid two-phase flow in a coil winding of a superconducting magnet,
    Degawa, T., Obana, T. and Uchiyama, T.,
    Proc. 27th Int. Toki Conf. on Plasma and Fusion Research & 13th Asia Pacific Plasma Theory Conf., Toki, 2018, paper number P2-85.
  2. Numerical simulation of flow around a circular cylinder inside a bubble plume,
    Nguyen, V. L., Degawa, T. and Uchiyama, T.,
    Proc. 8th Int. Conf. Vortex Flows Mechanics, Xi'an, 2018, paper number 41.
  3. Numerical simulation of the flow around an oscillating cylinder by vortex in cell method,
    Gu, Q., Degawa, T. and Uchiyama, T.,
    Proc. 8th Int. Conf. Vortex Flows Mechanics, Xi'an, 2018, paper number 42.
  4. Multi-directional redistribution for the vortex particle method,
    Degawa, T. and Uchiyama, T.,
    Proc. 8th Int. Conf. Vortex Flows Mechanics, Xi'an, 2018, paper number 39.
  5. Falling of a solid spherical particle in microbubble plume and behavior of microbubble around the particle,
    Uchiyama, T. and Degawa, T.,
    Proc. 8th Int. Conf. Vortex Flows Mechanics, Xi'an, 2018, paper number 75.
  6. Effect of guidevane on the characteristics of a propeller-type hollow micro-hydraulic turbine with excellent performance in passing foreign matter,
    Uchiyama, T., Degawa, T., Honda, S., Kawai, T., Uehara, K. and Maekawa, Y.,
    Proc. 29th IAHR Sympo. Hydraulic Machinery and Systems, Kyoto, 2018, paper number IAHR2018-277.
  7. Interactions between vortex ring and density interface of two stratified fluids,
    Degawa, T., Matsuda, Y. and Uchiyama, T.,
    Proc. 3rd Int. Sympo. Creation of Life Innivation Materials for Interdisciplinary and International Researcher Development, Tokyo, 2018, paper number P-48.
  8. Experimental study of mixing of density-stratified fluid in a cylindrical tank by a diagonal jet,
    Degawa, T., Uno, K., Uchiyama, T.,
    Proc. 18th Int. Sympo. Flow Visualization, Zurich, 2018, paper number 158.

 2017年 
  1. Numerical simulation of mixing by a vortex ring launched vertically upward into two-layer density-stratified fluid,
    Degawa, T., Ito, T., Uchiyama, T.,
    Proc. 9th JSME-KSME Thermal and Fluids Eng. Conf., 2017, (on USB flash drive).
  2. Numerical simulation of the interaction between a vortex ring and bubble plume by vortex in cell method,
    Nguyen, V. L., Degawa, T., Uchiyama, T.,
    Proc. 9th JSME-KSME Thermal and Fluids Eng. Conf., 2017, (on USB flash drive).
  3. Numerical simulation of a vortex ring impacting with a density interface of density-stratified fluids,
    Ito, T., Degawa, T., Uchiyama, T., Tsunoda, H.,
    Proc. Int. Conf. Jets, Wakes and Separated Flow, 2017, (on USB flash drive).
  4. Numerical simulation of mixing of two-layer density-stratified fluid by vortex rings launched toward the density interface,
    Degawa, T. and Uchiyama, T.,
    Proc. Int. Conf. Jets, Wakes and Separated Flow, 2017, (on USB flash drive).
  5. Development of a micro-hydraulic turbine excellent in foreign matter passage performance,
    Kaneko, A., Honda, S., Uchiyama, T., Degawa, T., Okayama, T., Pasomsouk, K.,
    Proc. Int. Conf. Materials and Systems for Sustainability 2017, 2017, (on CD-ROM).
  6. Conscious survey of local governments in Japan about introduction of small hydroelectric project,
    Okayama, T., Uchiyama, T, Ikeda, T.,
    Proc. Int. Conf. Materials and Systems for Sustainability 2017, 2017, (on CD-ROM).
  7. Flow around a circular cylinder inside a bubble plume,
    Degawa, T., Uchiyama, T., Ishiguro, Y.,
    Proc. 4th Symposium on Fluid-Structure-Sound Interactions and Control, Tokyo, 2017, pp.46-47.
  8. Numerical simulation of jet issuing diagonally upward into density-stratified fluid in cylindrical tank,
    Degawa, T., Uchiyama, T., Aozasa, I., Ishikawa, A., and Motoyama, K.,
    Proc. 14th Asian Symposium on Visualization, Beijing, 2017, (on USB flash drive).
  9. Behavior of a jet issuing diagonally upward into two-layer density-stratified fluid in a cylindrical tank,
    Degawa, T., Fukue, S., Uchiyama, T., Ishikawa, A., and Motoyama, K.,
    Proc. 13th Int. Sympo. Experimental and Computational Aerothermodynamics of Internal Flows, Okinawa, 2017, (on USB flash drive).
  10. Numerical study of wall wettabilities by Immersed Boundary-Lattice Boltzmann method,
    Seta, T., Uchiyama, T., and Takano, N.,
    Proc. 3rd Int. Sympo. Multiscale Multiphase Process Engineering, Toyama, 2017, pp.267-272.

 2016年 
  1. Simulation of flow around two cylinders in tandem arrangement by vortex in cell method combined with immersed boundary method,
    Nguyen, V. L., Lavi, R. Z and Uchiyama, T.,
    Proc. 7th Int. Conf. Vortex Flows and Vortex Models, Rostock, 2016, (on USB flash drive).
  2. Feasibility study on micro-hydraulic power generation from sewage,
    Uchiyama, T., Honda, S. and Okayama, T.,
    Proc. The 3rd 3R Int. Scientific Conf. Material Cycles and Waste Management, Hanoi, 2016, (on USB flash drive).

 2015年 
  1. Development of a non-clogging micro-hydraulic turbine of propeller type,
    Uchiyama, T., Nishida, Y. and Ide, Y.,
    Proc. Int. Conf. Power Engineering 2015, 2015, (on CD-ROM).
  2. Study on a propeller type micro-hydraulic turbine excellent in foreign matter passage performance,
    Honda, S., Uchiyama, T., Ide, Y. and Okayama, T.,
    Proc. Int. Sympo. EcoTopia Science 2015, 2015, (on CD-ROM).
  3. Study on open type cross-flow turbine utilizing small waterfalls (Influence of relative position between dropping water flow and a runner),
    Katayama, Y., Iio, S., Veerapun, S., Uchiyama, T.,
    Proc. Int. Sympo. EcoTopia Science 2015, 2015, (on CD-ROM).
  4. Electric power generation from sewage by using a micro-hydraulic turbine,
    Uchiyama, T., Okayama, T. and Ide, Y.,
    Proc. 15th Int. Waste Management and Landfill Symposium, Sardinia, 2015, (on CD-ROM).
  5. Simulation of jet issued into two-layer density-stratified fluid by vortex in cell method combined with immersed boundary method,
    Aozasa, I. and Uchiyama, T.,
    Proc. ASME-JSME-KSME Joint Fluids Engineering Conference 2015, Seoul, 2015, (on USB flash drive).
  6. Control of air bubble cluster by a vortex ring in water,
    Uchiyama, T.,
    Proc. Int. Conf. Jets, Wakes and Separated Flows, 2015, (on USB flash drive).
  7. Power generation from sewage by a micro-hydraulic turbine,
    Uchiyama, T., Okayama, T. and Ide, Y.,
    Proc. 17th Int. Conf. Environmental and Computer Science, Rome, 2015, pp.52-56.

 2014年 
  1. Numerical simulation of air-water bubbly jet by vortex in cell method,
    Uchiyama, T. and Kishimoto, Y.,
    Proc. 6th Int. Conf. Vortex Flows and Vortex Models, 2014, Nagoya, (on CD-ROM).
  2. Experimental study of the interaction between rising bubbles and vortex core of swirling water flow,
    Uchiyama, T. and Ishiguro, Y.,
    Proc. 6th Int. Conf. Vortex Flows and Vortex Models, 2014, Nagoya, (on CD-ROM).
  3. Numerical simulation of the behavior for a vortex ring convecting along the axis of a rotating field,
    Degawa, T., Nakano, M. and Uchiyama, T.,
    Proc. 6th Int. Conf. Vortex Flows and Vortex Models, 2014, Nagoya, (on CD-ROM).

 2013年 
  1. Numerical simulation of water flow through a nano-hydraulic turbine applied to small weir,
    Uehara, S., Uchiyama, T., Ide, Y., Iio, S. and Ikeda, T.,
    Proc. Int. Sympo. EcoTopia Science 2013, 2013, (on CD-ROM).
  2. Mixing phenomena of density stratified fluid with jet flow,
    Shakouchi, S. and Uchiyama, T.,
    Proc. 4th Int. Conf. Jets, Wakes and Separated Flows, 2013, Nagoya, (on CD-ROM).
  3. Experimental investigation on interaction between bubble plume and swirling water flow,
    Uchiyama, T. and Sasaki, S.,
    Proc. 4th Int. Conf. Jets, Wakes and Separated Flows, 2013, Nagoya, (on CD-ROM).
  4. Numerical analysis on flow and performance of an open cross-flow type hydraulic turbine,
    Uehara, S., Uchiyama, T., Fukuhara H., Iio, S. and Ikeda T.,
    Proc. 2nd Int. Conf. Mechanical, Automotive and Aerospace Engineering, 2013, Kuala Lumpur, (on CD-ROM).
  5. Activation of mixing for density stratified fluid with jet flow,
    Shakouchi, S. and Uchiyama, T.,
    Proc. 2nd Int. Conf. Mechanical, Automotive and Aerospace Engineering, 2013, Kuala Lumpur, (on CD-ROM).
  6. Numerical simulation for interaction of two vortex system with solid particles near a wall,
    Shimada, S. and Uchiyama, T.,
    Proc. 8th Int. Conf. Multiphase Flow, 2013, Jeju, (on USB flash drive).
  7. Numerical simulation of water flow through nano-hydraulic turbine installed downstream of weir,
    Uehara, S., Uchiyama, T., Iio, S. and Ikeda, T.,
    Proc. 8th Int. Conf. Multiphase Flow, 2013, Jeju, (on USB flash drive).
  8. Entrainment and Transport of Solid Particles by a Vortex Ring Launched into Water,
    Yano, C. and Uchiyama, T.,
    Proc. 8th Int. Conf. Multiphase Flow, 2013, Jeju, (on USB flash drive).
  9. Behavior of jet flow promoting the mixing of density stratified fluid,
    Shakouchi, S. and Uchiyama, T.,
    Proc. 8th Int. Conf. Multiphase Flow, 2013, Jeju, (on USB flash drive).

 2012年 
  1. Mixing of density stratified fluid with jet flow,
    Shakouchi, S. and Uchiyama, T.,
    Proc. 23rd Int. Sympo. Transport Phenomena, 2012, Auckland, (on USB flash drive).
  2. Behaviour of air bubbles rising in swirling water flow,
    Sasaki, S. and Uchiyama, T.,
    Proc. 23rd Int. Sympo. Transport Phenomena, 2012, Auckland, (on USB flash drive).
  3. Numerical simulation of water flow through a small-scale hydraulic turbine of waterfall-type,
    Fukuhara, H., Uchiyama, T., Iio, S. and Ikeda, T.,
    Proc. 23rd Int. Sympo. Transport Phenomena, 2012, Auckland, (on USB flash drive).
  4. Numerical Investigation on the Interaction of a Vortex Ring with Gas Bubbles,
    Uchiyama, T., Yoshii, Y. and Kusamichi, S.,
    Proc. 6th Japanese-European Two-Phase Flow Group Meeting, 2012, Kumamoto, (on USB flash drive).
  5. Numerical Simulation of Particle-Laden Gas Flow by Vortex in Cell Method,
    Uchiyama, T.,
    Proc. 5th Asian Particle Technology Symposium, 2012, Singapore, (on USB flash drive).
  6. Numerical Simulation of a Bubbly Jet by Vortex in Cell Method,
    Uchiyama, T. and Kishimoto, Y.,
    Proc. The 8th KSME-JSME Thermal and Fluids Eng. Conf., 2012, Inchon.
  7. Numerical Simulation of Water Flow through a Hydraulic Turbine of Waterfall-type,
    Fukuhara, H., Uchiyama, T., Iio, S., Ikeda, T.,
    Proc. The 8th KSME-JSME Thermal and Fluids Eng. Conf., 2012, Inchon.

 2011年 
  1. Numerical Simulation for Water Flow through a Nano-Hydraulic Turbine,
    Fukuhara, H., Uchiyama, T., Iio, S., Ikeda, T.,
    Proc. Int. Sympo. EcoTopia Science '11, 2011, Nagoya.
  2. Interaction of Bubbles with a Vortex Ring Launched into Bubble Plume,
    Uchiyama, T., Kusamichi, S., Degawa, T.,
    Proc. 11th Int. Conf. Fluid Control, Measurements and Visualization, 2011, Keelung.
  3. Vortex Simulation of Rectangular Jet by Vortex in Cell Method,
    Uchiyama, T., Kobayashi, M., Iio, S, Ikeda, T, Yoshii, Y.,
    Proc. 11th Int. Conf. Fluid Control, Measurements and Visualization, 2011, Keelung.
  4. Vortex Simulation for Bahavior of Solid Particles Falling in Air,
    Yagami, H. and Uchiyama, T.,
    Proc. ASME-JSME-KSME Joint Fluids Engineering Conference 2011, Hamamatsu, (on USB flash drive).
  5. Numerical Simulation of Entrainment and Transport of Gas Bubbles by Vortex in Cell Method,
    Uchiyama, T. and Yoshii, Y,
    Proc. ASME-JSME-KSME Joint Fluids Engineering Conference 2011, Hamamatsu, (on USB flash drive).

 2010年 
  1. Vortex Simulation for Dispersed Gas-Liquid Two-Phase Flows,
    Uchiyama, T.,
    Proc. 5th International Conference on Vortex Flows and Vortex Models, Caserta, 2010, (on CD-ROM).
  2. Numerical Simulation of a Turbulent Channel Flow by Vortex Method,
    Uchiyama, T., Hamada, H. and Yoshii, Y.,
    Proc. 5th International Conference on Vortex Flows and Vortex Models, Caserta, 2010, (on CD-ROM).
  3. Numerical Simulation for Bubbly Flow by Three-Dimensional Vortex Method,
    Uchiyama, T. and Matsumura, S.,
    Proc. 3rd International Conference on Jets, Wakes and Separated Flows, Cincinnati, 2010, (on CD-ROM).
  4. Numerical Simulation for the Transport of Solid Particles with a Vortex Ring,
    Uchiyama, T. and Yagami, H.,
    Proc. World Congress on Particle Technology, Nuernberg, 2010, (on CD-ROM).

 2009年 
  1. Behavior of a Vortex Ring Launched into Annular Bubble Plume,
    Uchiyama, T. and Igarashi, K.,
    Proc. 6th Pacific Symposium on Flow Visualization and Image Processing, Kaohsiung, 2009, (on CD-ROM).

 2008年 
  1. Numerical Simulation of Particle-Laden Gas Jet by Lagrangian Method,
    Uchiyama, T.,
    Proc. 2nd Int. Conf. Jets, Wakes and Separated Flows, Berlin, 2008, (on CD-ROM).
  2. Vortex Simulation of Low Reynolds Number Gas Jet Laden with Solid Particles,
    Uchiyama, T. and Yagami, H.,
    Proc. 2nd Int. Conf. Jets, Wakes and Separated Flows, Berlin, 2008, (on CD-ROM).
  3. Numerical Simulation for Unaxisymmetric Collision of a Vortex Ring with Solid Particles,
    Uchiyama, T. and Yagami, H.,
    Proc. 4th Int. Conf. Vortex Flows and Vortex Models, Daejeon, 2008, (on CD-ROM).

 2007年 
  1. Numerical Simulation for the Transport of Solid Particles with a Vortex Ring,
    Yagami, H. and Uchiyama, T.,
    Proc. Int. Sympo. EcoTopia Science 2007, Nagoya, 2007, (on CD-ROM).
  2. Vortex Simulation of the Bubbly Flow around a Hydrofoil,
    Degawa, T. and Uchiyama, T.,
    Proc. 9th Int. Conf. Fluid Machinery, Jeju, 2007, (on CD-ROM).
  3. Numerical Prediction for the Bubbly Flow around a Hydrofoil by Vortex Method,
    Uchiyama, T. and Degawa, T.,
    Proc. 5th Joint ASME/JSME Fluid Eng. Conf., San Diego, 2007, (on CD-ROM).
  4. Measurement for Individual Gas-Liquid Two-Phase Flow Rates Based on Stochastic Features of Differential Pressure Fluctuation,
    Uchiyama, T., Tominaga, H. and Minemura, K.,
    Proc. 5th Joint ASME/JSME Fluid Eng. Conf., San Diego, 2007, (on CD-ROM).
  5. Numerical Simulation for the Collision of a Vortex Ring with Solid Particles,
    Yagami, H. and Uchiyama, T.,
    Proc. 5th Joint ASME/JSME Fluid Eng. Conf., San Diego, 2007, (on CD-ROM).
  6. Vortex Simulation for the Interaction between a Vortex Ring and Solid Particles,
    Uchiyama, T. and Yagami, H.,
    Proc. 6th Int. Conf. Multiphase Flow, Leipzig, 2007, (on CD-ROM).
  7. Numerical Simulation of Bubbly Flow around a Pair of Tandem Square Cylinders by Vortex Method,
    Degawa, T. and Uchiyama, T.,
    Proc. 6th Int. Conf. Multiphase Flow, Leipzig, 2007, (on CD-ROM).
  8. Numerical Visualization for the Collision of a Vortex Ring with Solid Particles,
    Uchiyama, T. and Yagami, H.,
    Proc. 6th Pacific Sympo. Flow Visualization and Image Processing, Hawaii, 2007, (on CD-ROM).

 2006年 
  1. Vortex Method for Free-Surface Flow Generated by Submerged Circular Cylinder,
    Uchiyama, T. and Degawa, T.,
    Proc. 23rd IAHR Sympo., Yokohama, 2006, (on CD-ROM).
  2. Vortex Simulation of the Bubble Plume around a Rectangular Cylinder,
    Degawa, T., Uchiyama, T. and Takamatsu, Y.,
    Proc. 17th Int. Sympo. Transport Phenomena, Toyama, 2006, (on CD-ROM).
  3. Numerical Simulation of the Interaction between a Vortex Ring and Solid Particles,
    Yagami, H. and Uchiyama, T.,
    Proc. 17th Int. Sympo. Transport Phenomena, Toyama, 2006, (on CD-ROM).
  4. Vortex Simulation of the Bubbly Flow around a Square-Section Cylinder,
    Degawa, T. and Uchiyama, T.,
    Proc. 11th Asian Cong. Fluid Mech., Kuala Lumpur, 2006, (on CD-ROM).
  5. Vortex Simulation for Gas-Particle Two-Phase Plane Mixing Layer,
    Yagami, H. and Uchiyama, T.,
    Proc. 11th Asian Cong. Fluid Mech., Kuala Lumpur, 2006, (on CD-ROM).

 2005年 
  1. Numerical Prediction of Particle-Laden Air Jet by Three-Dimensional Vortex Method,
    Uchiyama, T. and Fukase, A.,
    Proc. 3rd Int. Conf. Vortex Flows and Vortex Models, Yokohama, 2005, pp.281-286.
  2. Numerical Simulation of Bubble-Driven Plume by Vortex Method,
    Uchiyama, T. and Degawa, T.,
    Proc. 3rd Int. Conf. Vortex Flows and Vortex Models, Yokohama, 2005, pp.350-355.
  3. Numerical Simulation of Plume Diffusion Field around a Circular Cylinder by Particle Method,
    Uchiyama, T. and Yagami, H. and Sugiyama, M.,
    Proc. 3rd Int. Conf. Vortex Flows and Vortex Models, Yokohama, 2005, pp.356-361.
  4. Numerical Simulation of the Bubbly Flow around a Rectangular Cylinder by Vortex In Cell Method,
    Degawa, T. and Uchiyama, T.,
    Proc. Int. Conf. Jets, Wakes and Separated Flows, Toba, 2005, pp.235-240.
  5. Numerical Simulation of Particle-Laden Mixing Layer by Vortex Method,
    Yagami, H. and Uchiyama, T.,
    Proc. Int. Conf. Jets, Wakes and Separated Flows, Toba, 2005, pp.313-318.
  6. Vortex Simulation for Particulate Jet Generated by Free Falling Particles,
    Uchiyama, T. and Naruse, M.,
    Proc. 6th KSME-JSME Thermal and Fluids Engineering Conf., Jeju, 2005, (on CD-ROM).
  7. Numerical Simulation of Blood Flow in a Cerebral Aneurysm,
    Uchiyama, T., Fukuda, T., Arai, F., Negoro, M. and Ikeda, S.,
    Proc. 6th KSME-JSME Thermal and Fluids Engineering Conf., Jeju, 2005, (on CD-ROM).

 2004年 
  1. Numerical Simulation of Particle-Laden Gas Wake Flow by Vortex Method,
    Uchiyama, T. and Yagami, H.,
    Proc. 4th Int. Sympo. Environmental Hydraulics, Hong Kong, 2004, (on CD-ROM).
  2. Vortex Simulation for Bubble-Laden Free Turbulent Flow,
    Uchiyama, T., Degawa, T. and Takamatsu, Y.,
    Proc. Japan-U.S. Seminar on Two-Phase Flow Dynamics, Nagahama, 2004, Vol.1, pp.261-270.
  3. Numerical Analysis for the Effect of Reynolds Number on Propulsive Performance of a Submerged Wiggling Micromachine,
    Uchiyama, T. and Kikuyama, K.,
    Proc. 2004 Int. Sympo. Micro/Nanomechatronics and Human Science, Nagoya, 2004,pp.295-300.
  4. Numerical Simulation for Bubble-Laden Plane Mixing Layer by Vortex in Cell Method,
    Uchiyama, T. and Degawa, T.,
    Proc. 3rd Int. Sympo. Two-Phase Flow Modelling and Experimentation, Pisa, 2004, (on CD-ROM).
  5. Numerical Simulation of Particle-Laden Compound Jet by Vortex Method,
    Uchiyama, T., Fukase, A. and Minemura, K.,
    Proc. 3rd Int. Sympo. Two-Phase Flow Modelling and Experimentation, Pisa, 2004, (on CD-ROM).
  6. Numerical Simulation for Bubble-Laden Free Turbulent Flow by Vortex in Cell Method,
    Uchiyama, T. and Degawa, T.,
    Proc. 5th Int. Conf. Multiphase Flow, Yokohama, 2004, (on CD-ROM).
  7. Numerical Simulation of Gas-Particle Two-Phase Jet by Three-Dimensional Vortex Method,
    Uchiyama, T. and Fukase, A.,
    Proc. 5th Int. Conf. Multiphase Flow, Yokohama, 2004, (on CD-ROM).

 2003年 
  1. Numerical Simulation of Wake Gas Flow Laden with Solid Particles,
    Uchiyama, T. and Yagami, H.,
    Proc. 2nd Asian Particle Technol. Sympo., Vol. II, Penang, 2003, pp. 353-358.
  2. Three-Dimensional Vortex Simulation for Gas-Particle Two-Phase Compound Round Jet,
    Uchiyama, T., Fukase, A. and Minemura, K.,
    Proc. 2nd Asian Particle Technol. Sympo., Vol. II, Penang, 2003, pp.359-364.
  3. Numerical Simulation of a Compound Round Jet by Three-Dimensional Vortex Method,
    Uchiyama, T.,
    Proc. 4th ASME/JSME Joint Fluids Eng. Conf., Honolulu, FEDSM2003-45224, 2003, (on CD-ROM).
  4. Numerical Simulation of Particulate Jet Generated by Free Falling Particles,
    Uchiyama, T.,
    Proc. 4th ASME/JSME Joint Fluids Eng. Conf., Honolulu, FEDSM2003-45742, 2003, (on CD-ROM).
  5. Numerical Simulation for Free Turbulent Reacting Flow by Particle Method,
    Uchiyama, T. and Otsuki, N.,
    Proc. 4th ASME/JSME Joint Fluids Eng. Conf., Honolulu, FEDSM2003-45289, 2003, (on CD-ROM).
  6. Three-Dimensional Simulation for Diffusion of Matter in Compound Round Jet by Particle Method,
    Uchiyama, T. and Ichikawa, A.,
    Proc. 4th ASME/JSME Joint Fluids Eng. Conf., Honolulu, FEDSM2003-45290, 2003, (on CD-ROM).
  7. Observation and Numerical Simulation for Wet Chemical Etching Process of Semiconductor,
    Kaneko, K., Noda, T., Sakata, M. and Uchiyama, T.,
    Proc. 4th ASME/JSME Joint Fluids Eng. Conf., Honolulu, FEDSM2003-45707, 2003, (on CD-ROM).

 2002年 
  1. Stochastic Features of Fluctuating Pressure Waveforms through a Wedge in Air-Water Flow,
    Masutani, N., Uchiyama, T., Minemura, K. and Tokai, H.,
    Proc. 5th JSME-KSME Fluids Eng. Conf., 2002, (on CD-ROM).
  2. Numerical Simulation of the Bubbly Flow around a Hydrofoil in Pitching and Heaving Motions,
    Uchiyama, T. and Ido, M.,
    Proc. 5th JSME-KSME Fluids Eng. Conf., 2002, (on CD-ROM).
  3. Vortex in Cell Method for Gas-Particle Two-Phase Free Turbulent Flow,
    Naruse, M. and Uchiyama, T.,
    Proc. 5th JSME-KSME Fluids Eng. Conf., 2002, (on CD-ROM).
  4. Particle Simulation for Diffusion of Matter in Plane Mixing Layer,
    Otsuki, N., Murakami, K. and Uchiyama, T.,
    Proc. 5th JSME-KSME Fluids Eng. Conf., 2002, (on CD-ROM).
  5. Vortex Simulation of Bubble Dispersion in an Excited Round Jet,
    Uchiyama, T. and Honda, T.,
    Proc. German-Japanese Workshop on Multi-Phase Flow, Karlsruhe, 2002, pp.G-22 - G-33.

 2001年 
  1. Numerical Simulation of Plume Diffusion Field around a Circular Cylinder by Vortex Method,
    Uchiyama, T. and Okita, T.,
    Proc. 3rd Int. Sympo. Environmental Hydraulics, Arizona, 2001, (on CD-ROM).
  2. Vortex Simulation of Gas-Particle Two-Phase Mixing Layer,
    Uchiyama, T., Naruse, M. and Hirata, K.,
    Proc. 4th Int. Conf. Multiphase Flow, New Orleans, 2001, p307.pdf (on CD-ROM).

 2000年 
  1. Numerical Study on Solid Liquid Two-Phase Flow around a Circular Cylinder Using a Vortex Method,
    Uchiyama, T., Arai, H. and Naruse, M.,
    Proc. Asia Particle Technology 2000, Bangkok, 2000, (on CD-ROM).
  2. Numerical Simulation of Gas-Particle Two-Phase Jet by Vortex Method,
    Uchiyama, T. and Naruse, M.,
    Proc. Asia Particle Technology 2000, Bangkok, 2000, (on CD-ROM).
  3. Numerical Simulation of Bubbly Flow Around a Cross-Flow Forced Oscillating Cylinder,
    Uchiyama, T. and Minemura, K.,
    Proc. 2nd Japanese-European Two-Phase Flow Group Meeting, Tsukuba, 2000, (on CD-ROM).

 1999年 
  1. Numerical Simulation of Bubbly Flow Around an Oscillating Hydrofoil,
    Uchiyama, T. and Minemura, K.,
    Proc. Asian Symposium on Multiphase Flow, Osaka, 1999, pp.27-32.

 1998年 
  1. Upstream Finite Element Method for an Incompressible Two-Fluid Model,
    Uchiyama, T. and Minemura, K.,
    Proc. 3rd Int. Conf. Multiphase Flow, Lyon, 1998, p138.pdf (on CD-ROM).
  2. Stochastic Features of Pressures Detected by a Vortex Generator -Applicability to Measurement of Individual Phase Flow Rates of Gas-Liquid Flow-,
    Minemura, K., Takabe, S., Uchiyama, T., Shoda, S., Yamashita, M., Ogawa, Y., Tanimoto, J.,
    Proc. 3rd Int. Conf. Multiphase Flow, Lyon, 1998, p577.pdf (on CD-ROM).

 1997年 
  1. Finite Element Method for Gas-Liquid Two-Phase Flow Using a Fractional Step Method,
    Uchiyama, T. and Minemura, K.,
    Proc. 2nd Japanese-German Symposium on Multi-Phase Flow, Tokyo, 1997, pp.289-300.
  2. Prediction of Gas-Liquid Two-Phase Flow Performance of a Centrifugal Pump Based on One-Dimensional Two-Fluid Model,
    Minemura, K., Uchiyama, T., Kinoshita, K., Liu, L., Shoda, S. and Egashira, K.,
    Proc. Int. Conf. on Fluid Engng, Vol.1, JSME, Tokyo, 1997, pp.467-472.
  3. Numerical Prediction of Cavitating Flow by the Finite Element Method,
    Uchiyama, T.,
    Proc. Int. Conf. on Fluid Engng, Vol.1, JSME, Tokyo, 1997, pp.449-454.
  4. Large Eddy Simulation by the Finite Element Method Using Multi-Pass Algorithm,
    Uchiyama, T.,
    Proc. Int. Conf. on Fluid Engng, Vol.3, JSME, Tokyo, 1997, pp.1284-1288.
  5. Stability Analysis of the Finite Element Method for Two-Fluid Model,
    Uchiyama, T.,
    Proc. ISAC'97 High Performance Computing on Multiphase Flows, JSME, Tokyo, 1997, pp.139-144.

 1996年 
  1. Study on Discretization of Convective Terms in Finite Element Method for Incompressible Two-Fluid Model,
    Uchiyama, T.,
    Proc. The Second Asian Computational Fluid Dynamics Conference, Tokyo, 1996, pp.529-534.
  2. Numerical Simulation of Bubbly Flows in a Rotating Straight Channel,
    Uchiyama, T., Minemura, K., Wu, J. C. and Emura, T.,
    Proc. Int. Symposium on Fluid Machinery and Fluid Engineering, Beijin, 1996, pp.131-138.

 1995年 
  1. Finite Element Analysis of Incompressible Two-Fluid Model,
    Uchiyama, T.,
    Proc. Cavitation and Multiphase Flow Forum, FED-210, ASME, South Carolina, 1995, pp.115-119.
  2. Knowledge-Based Fault Diagnosis for Pump Stations by Process Modeling,
    Uchiyama, T., Kallweit, S. and Siekmann, H.,
    Proc. Fluid Machinery Forum, FED-222, ASME, South Carolina, 1995, pp.117-121.

 1994年 
  1. Flow Visualization in a Cavitating Flow,
    Dues, M., Gebhardt, A., Kallweit, S., Scheffler, T., Siekmann, H. and Uchiyama, T.,
    Proc. German-Japanese Symposium on Multi-Phase Flow, Karlsruhe, 1994, pp.391-402.
  2. Numerical Prediction of Two-Phase-Flow Pump Performance by a Bubbly Flow Model with Fixed Cavity,
    Minemura, K. and Uchiyama, T.,
    Proc. German-Japanese Symposium on Multi-Phase Flow, Karlsruhe, 1994, pp.403-417.

 1991年 
  1. Calculation of Two-phase Flow Pump Performance by a Bubbly Flow Model with Fixed Cavity,
    Minemura, K. and Uchiyama, T.,
    Proc. Cavitation and Multiphase Flow Forum, FED-109, ASME, Portland, 1991, pp.131-134.
  2. Simplex Finite Element Analysis for Cascade Flows Satisfying the Kutta Condition,
    Minemura, K. and Uchiyama, T.,
    Proc. Fluid Machinery Forum, FED-119, ASME, Portland, 1991, pp.65-69.

 1989年 
  1. Interactive Pattern-Making for Men's or Women's Garments Based on Measurements of a Body Form,
    Minemura, K., Uchiyama, T. and Wang, D. Z.,
    Proc. 2nd Int. Conf. Computer Aided Drafting, Design and Manufacturing Technology, 1989, pp.349-354.

 1986年 
  1. Theoretical Analysis of Cavitation Bubble Behavior in a Radial-flow Impeller,
    Minemura, K., Murakami, M., Kikuyama, K., Uchiyama, T. and Sawada, S.,
    Proc. Int. Symposium on Cavitation, Sendai, 1986, pp.281-286.

研究成果