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HONMA Shunji
Open innovation centerDirector

Researcher information

■ Degree
  • Doctor of Engineering, Saitama University
    Mar. 1995
  • Master of Engineering, Saitama University
    Mar. 1989
■ Research Keyword
  • Transport Phenomena, Computational Fluid Dynamics, Free Surface Flow, Fluid Particles (Bubbles and Droplets), Atomization, Condensation
  • Ink jet, Coating, Atomization, Condensation
  • Process Simulation, Nuclear Fuel Reprocessing, Solvent Extraction, Vitrification
■ Field Of Study
  • Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Chemical reaction and process system engineering
  • Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Fluid engineering
  • Energy, Nuclear engineering
  • Other, Other
■ Career
  • Apr. 2024 - Present, Saitama University, Comprehensive Open Innovation Center, Professor
  • Jan. 2023 - Present, Saitama University, Research Center for Social Transformation, Adjunct Professor
  • Aug. 2016 - Present, Saitama University, Advanced Institute of Innovative Technology, Adjunct Professor
  • Apr. 2018 - Mar. 2024, Saitama University, Comprehensive Open Innovation Center, Adjunct Professor
  • Apr. 2007 - Mar. 2024, Graduate School of Saitama University, Division of Materials Science, Associate Professor
  • Apr. 2012 - Mar. 2014, Saitama University, Education and Student Services Bureau, Adjunct Professor
  • Apr. 2001 - Mar. 2007, Saitama University, Department of Applied Chemistry, Associate Professor
  • Apr. 1999 - Mar. 2001, Saitama University, Cooperative Research Center, Associate Professor
  • Apr. 1997 - Mar. 1999, University of Michigan, Department of Mechanical Engineering and Applied Mechanics, Visiting Scholar, United States
  • Apr. 1997 - Mar. 1999, JSPS, Overseas Fellow, United States
  • Apr. 1992 - Mar. 1999, Saitama University, Department of Applied Chemistry, Research Associate
  • Apr. 1989 - Mar. 1992, Saitama University, Department of Environmental Chemical Engineering, Research Associate
■ Educational Background
  • Apr. 1987 - Mar. 1989, Graduate School of Saitama University, Environmental Chemical Engineering, Japan
  • Apr. 1983 - Mar. 1987, Saitama University, Faculty of Engineering, Department of Environmental Chemical Engineering, Japan
■ Member History
  • Apr. 2014 - Present
    Society
  • Apr. 2011 - Present
  • Aug. 2019 - Jul. 2021
    Society
  • Apr. 2015 - Mar. 2021
    Society
  • Apr. 2015 - Mar. 2019
    Society
  • Apr. 2015 - Mar. 2018
    Society
  • Jun. 2013 - Mar. 2017
    Society
  • Apr. 2014 - Mar. 2016
    Society
  • Jan. 2011 - Mar. 2015
  • Apr. 2012 - Mar. 2014
    Society
  • Mar. 2011 - Nov. 2013
    Others
  • Apr. 2009 - Mar. 2012
    Society
  • Jun. 2007 - Aug. 2009
    Society
■ Award
  • Mar. 2025, 技術賞(化学工学会第90年会)
  • Nov. 2022, ベストレクチャー賞 「科学技術英語」
  • Nov. 2021, ベストレクチャー賞 「プロセス工学Ⅱ」
  • Apr. 2018, 永年会員
  • Mar. 2016, 平成27年度 業績賞
  • Apr. 2014, Outstanding Paper Award of 2013, Journal of Chemical Engineering of Japan
  • Aug. 2013, 2012年度論文審査貢献賞
  • Mar. 2009, 平成20年度 業績賞
  • Dec. 2008, 平成19年度外部資金調達に関する学長表彰
  • May 2007, 平成18年度外部資金調達に関する学長表彰

Performance information

■ Paper
  • Drag Coefficients of Rising Ellipsoidal Droplets in a Stagnant Liquid               
    Matsubara Hijiri; Nakajima Ryota; Homma Shunji
    KAGAKU KOGAKU RONBUNSHU, Volume:46, Number:3, First page:57, Last page:62, 2020, [Reviewed], [Corresponding]

    Numerical analysis of the motion of ellipsoidal droplets in a stagnant liquid was performed by a front-tracking method. Drag coefficients of ellipsoidal droplets were determined using the projected areas and the terminal velocities obtained by numerical simulations. The drag coefficients based on the projected areas of ellipsoidal droplets were in good agreement with those predicted by the semi-empirical model for spherical droplets. In order to take into account the deformation of droplets, the aspect ratio of ellipsoidal droplets was correlated by the Reynolds and Eötvös numbers. Terminal velocities predicted by the combination of the proposed correlation equation of the aspect ratio and the drag model for spherical droplets were in good agreement with those obtained by numerical simulations.


    The Society of Chemical Engineers, Japan, Japanese
    DOI:https://doi.org/10.1252/kakoronbunshu.46.57
    DOI ID:10.1252/kakoronbunshu.46.57, ISSN:0386-216X, J-Global ID:202002231571140827, CiNii Articles ID:130007844609, CiNii Books ID:AN00037234
  • Growth of a Pinhole Generated on a Coated Film of Adhesives               
    Nakajima Ryota; Chiba Takumi; Homma Shunji; Yamada Noboru; Okubo Yosuke; Umemiya Hirokazu; Oda Sumihisa
    KAGAKU KOGAKU RONBUNSHU, Volume:45, Number:3, First page:109, Last page:114, 2019, [Reviewed], [Corresponding]

    The growth of pinholes generated in coated films of adhesives was simulated numerically. Rheological properties of the adhesives were approximated by a power-law model. The motion of the interface of the adhesives was traced by a VOF method. Simulated results were in good agreement with experimental ones. The growth rate was proportional to the inverse of Ohnesorge number and therefore decreases when the viscosity of the adhesives is high and the surface tension is low.


    The Society of Chemical Engineers, Japan, Japanese
    DOI:https://doi.org/10.1252/kakoronbunshu.45.109
    DOI ID:10.1252/kakoronbunshu.45.109, ISSN:0386-216X, J-Global ID:201902245876983409, CiNii Articles ID:130007651434, CiNii Books ID:AN00037234
  • Numerical Simulations for Curtain Coating by VOF Method               
    NAKAJIMA Ryota; CHIBA Takumi; UMEMIYA Hirokazu; ODA Sumihisa; HOMMA Shunji
    JAPANESE JOURNAL OF MULTIPHASE FLOW, Volume:33, Number:4, First page:417, Last page:423, 2019, [Reviewed], [Corresponding]

    Numerical simulations of two-dimensional curtain coating were performed using VOF method in order to find operational conditions of coating processes. The curtain shape was dependent on the flow rate of liquid, the viscosity of liquid, and the moving speed of a substrate. The results reproduced the previously obtained coating window which represented five regimes of coatable, uncoatable, heel formation, air entrainment, and heal formation with air entrainment. Formation of the curtain and its shape were discussed using the numerically visualized flow fields.


    THE JAPANESE SOCIETY FOR MULTIPHASE FLOW, Japanese
    DOI:https://doi.org/10.3811/jjmf.2019.013
    DOI ID:10.3811/jjmf.2019.013, ISSN:0914-2843, J-Global ID:202002212856451982, CiNii Articles ID:130007775552, CiNii Books ID:AN10088286
  • Computations of Buoyancy Driven Motion of a Single Droplet in Another Immiscible Liquid
    Shunji Homma; Tamaki Yoshikawa
    Volume 1C, Symposia: Gas-Liquid Two-Phase Flows; Gas and Liquid-Solid Two-Phase Flows; Numerical Methods for Multiphase Flow; Turbulent Flows: Issues and Perspectives; Flow Applications in Aerospace; Fluid Power; Bio-Inspired Fluid Mechanics; Flow Manipulation and Active Control; Fundamental Issues and Perspectives in Fluid Mechanics; Transport Phenomena in Energy Conversion From Clean and Sustainable Resources; Transport Phenomena in Materials Processing and Manufacturing Processes, Jul. 2017, [Reviewed], [Lead, Corresponding]
    Buoyancy driven motion of a single droplet in another quiescent fluid was simulated by a Front-Tracking method. The rising velocity and the projected area of the droplet were obtained in spherical, ellipsoidal, and wobbling regimes. Form and skin drag forces were calculated by integrating pressure distribution and velocity profiles along the interface of the droplet. Drag coefficient was obtained from those values when the rising velocity reached the terminal velocity. The scaling for drag of a liquid droplet was compared with the theoretical model. When the viscosity of the droplets was lower than that of the surrounding fluid, the drag coefficients can be predicted by the model for the limiting case of gas bubbles. When the viscosity of the droplets was larger than that of the surrounding fluid, on the other hand, the drag coefficients can be predicted by the model when solid particles are assumed.
    American Society of Mechanical Engineers, International conference proceedings
    DOI:https://doi.org/10.1115/fedsm2017-69139
    DOI ID:10.1115/fedsm2017-69139
  • Computations of Rayleigh-Taylor Instability with Highly Viscous Fluids               
    Nakajima, R; Homma, S
    May 2017
    International conference proceedings
  • Computations of the Motion of a Deformable Droplet in Liquid-Liquid System               
    Yoshikawa, T; Homma, S
    May 2017
    International conference proceedings
  • Numerical investigations of drop solidification on a cold plate in the presence of volume change               
    Truong V. Vu; G. Tryggvason; S. Homma; John C. Wells
    International Journal of Multiphase Flow, Volume:76, First page:73, Last page:85, Nov. 2015, [Reviewed]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/j.ijmultiphaseflow.2015.07.005
    DOI ID:10.1016/j.ijmultiphaseflow.2015.07.005, ISSN:0301-9322
  • Front Tracking Computation of Trijunction Solidification with Volume Change               
    Truong V. Vu; Gretar Tryggason; Shunji Homma; John Wells; Hideyuki Takakura
    Procedia IUTAM, Volume:15, First page:14, Last page:17, 2015, [Reviewed]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/j.piutam.2015.04.003
    DOI ID:10.1016/j.piutam.2015.04.003, ISSN:2210-9838
  • Compound Droplet Formation with Flow Focusing               
    Homma, S., Kim, T., Koga, J.
    Sep. 2014, [Lead, Corresponding]
    International conference proceedings
  • Numerical Investigations of Drop Solidification by a Front-Tracking Method
    Truong V. Vu; Gretar Tryggvason; Shunji Homma; John C. Wells; Hideyuki Takakura
    FEDSM2014-21899, Aug. 2014, [Reviewed]
    We present a front-tracking/finite difference method for simulation of drop solidification, where the melt is confined by its own surface tension. The problem includes temporal evolution of three interfaces, i.e. solid–liquid, solid–air, and liquid–air, that are explicitly tracked under the assumption of axisymmetry. The solid–liquid interface is propagated with a normal velocity that is calculated from the normal temperature gradient across the front and the latent heat. The liquid–air front is advected by the velocity interpolated from nearest bulk fluid flow velocities. Method validation is carried out by comparing computational results with exact solutions for two-dimensional Stefan problems, and with related experiments. We then use the method to investigate a drop solidifying on a cold plate in which there exists volume expansion due to density difference between the solid and liquid phases. Effects of the tri-junction in terms of growth angles on the solidification process are also investigated. Computational results show that a decrease in the density ratio of solid to liquid or an increase in the growth angle results in an increase in the height of the solidified drop. In addition, reducing the gravitational effect also increases the drop height after solidification.
    American Society of Mechanical Engineers, International conference proceedings
    DOI:https://doi.org/10.1115/fedsm2014-21899
    DOI ID:10.1115/fedsm2014-21899
  • Computations of Compound Droplet Formation from a Co-axial Dual Nozzle by a Three-Fluid Front-Tracking Method               
    Shunji Homma; Kouta Moriguchi; Taeseon Kim; Jiro Koga
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:47, Number:2, First page:195, Last page:200, 2014, [Reviewed], [Lead, Corresponding]
    Society of Chemical Engineers, Japan, English, Scientific journal
    DOI ID:10.1252/jcej.13we125, ISSN:0021-9592, eISSN:1881-1299, CiNii Articles ID:40020026858, CiNii Books ID:AA00709658
  • Computations of breakup modes in laminar compound liquid jets in a coflowing fluid               
    Truong V. Vu; S. Homma; G. Tryggvason; John C. Wells; H. Takakura
    International Journal of Multiphase Flow, Volume:49, First page:58, Last page:69, Mar. 2013, [Reviewed]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/j.ijmultiphaseflow.2012.10.004
    DOI ID:10.1016/j.ijmultiphaseflow.2012.10.004, ISSN:0301-9322
  • Computations of Compound Droplet Formation in a Flow Focusing Device               
    Homma, S
    2013, [Lead, Corresponding]
    International conference proceedings
  • A Front-Tracking Method for Three-Phase Computations of Solidification with Volume Change               
    Truong V. Vu; Gretar Tryggvason; Shunji Homma; John C. Wells; Hideyuki Takakura
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:46, Number:11, First page:726, Last page:731, 2013, [Reviewed]
    We use a front-tracking method to simulate solidification with volume change of a droplet on a fixed cooling plate. The problem includes temporal evolution of three interfaces, i.e., solid–liquid, solid–air, and liquid–air, that are explicitly tracked under the assumption of axisymmetry. The solid–liquid interface is propagated with a normal velocity that is calculated from the normal temperature gradient across the front and the latent heat. The liquid–air front is advected by the velocity interpolated from nearest bulk fluid flow velocities. Accordingly, the evolution of the solid–air front is simply the temporal imprint of the triple point at which simple and straightforward conditions are imposed. The governing Navier–Stokes equations are solved for the whole domain, setting the velocities in the solid phase to zero and with the non-slip condition on the solid–liquid interface. Computational results are compared with exact solutions for two-dimensional Stefan problems and with corresponding experimental results, and show good agreement.
    Society of Chemical Engineers, Japan, English, Scientific journal
    DOI:https://doi.org/10.1252/jcej.13we169
    DOI ID:10.1252/jcej.13we169, ISSN:0021-9592, eISSN:1881-1299, CiNii Articles ID:130003381993
  • Numerical Calculations of Pattern Formation of Compound Drops Detaching from a Compound Jet in a Co-Flowing Immiscible Fluid               
    Truong V. Vu; John C. Wells; Hideyuki Takakura; Shunji Homma; Gretar Tryggvason
    Journal of Chemical Engineering of Japan, Volume:45, Number:9, First page:721, Last page:726, 2012, [Reviewed]
    In this paper, we present a numerical investigation of various types of drops detaching from an axisymmetric, laminar compound jet of immiscible fluids. The compound jet flows in a co-flowing immiscible outer fluid. We use a front-tracking/finite difference method to track the unsteady evolution and breakup of the compound jet which is governed by the Navier–Stokes equations for incompressible and Newtonian fluids. Numerical results show that depending on flow parameters, the compound jet can break up into different types of drops: simple drops, single-core compound drops and multi-core compound drops.
    Society of Chemical Engineers, Japan, English, Scientific journal
    DOI:https://doi.org/10.1252/jcej.11we256
    DOI ID:10.1252/jcej.11we256, ISSN:0021-9592, eISSN:1881-1299, CiNii Articles ID:130001858762, CiNii Books ID:AA00709658
  • Application of Data Reconciliation and Gross Error Detection to Nuclear Material Accounting for Spent Fuel Reprocessing               
    Shunji HOMMA; Makio WATANABE; Jiro KOGA; Shiro MATSUMOTO
    Journal of Nuclear Science and Technology, Volume:48, Number:10, First page:1285, Last page:1288, Oct. 2011, [Reviewed], [Lead, Corresponding]
    Informa UK Limited, English, Scientific journal
    DOI ID:10.1080/18811248.2011.9711818, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10029464824, CiNii Books ID:AA00703720
  • Retraction of the edge of an initially discotic liquid sheet
    Shunji Homma; Hiroki Oka; Jiro Koga
    The Canadian Journal of Chemical Engineering, Volume:89, Number:4, First page:691, Last page:695, Aug. 2011, [Reviewed], [Lead, Corresponding]
    Wiley, Scientific journal
    DOI:https://doi.org/10.1002/cjce.20418
    DOI ID:10.1002/cjce.20418, ISSN:0008-4034
  • Numerical Simulation of Formation and Breakup of a Compound Jet by the Front–Tracking/Finite Difference Method
    Truong V. Vu; Shunji Homma; John C. Wells; Hideyuki Takakura; Gretar Tryggvason
    ASME-JSME-KSME 2011 Joint Fluids Engineering Conference: Volume 1, Symposia – Parts A, B, C, and D, Jan. 2011, [Reviewed]
    The formation and breakup of an axisymmetric immiscible, viscous, laminar compound jet flowing vertically downward into and breaking up in another immiscible liquid is studied numerically. We use a front-tracking/finite difference method to track the unsteady motion and the breakup of the compound jet interfaces, which are governed by the incompressible Navier-Stokes equations for Newtonian fluids. We consider the formation and breakup of a three-fluid compound jet in which the inner fluid density is greater than the shell’s fluid density, and compare with the case when the inner fluid density is less than the shell’s fluid density. The effects of interfacial tensions in terms of Weber number are investigated. An increase in Weber number leads to an increase in the breakup length of the compound jet and a decrease in the size of compound drops.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/ajk2011-04011
    DOI ID:10.1115/ajk2011-04011
  • Numerical simulation of an axisymmetric compound droplet by three-fluid front-tracking method               
    S. Homma; M. Yokotsuka; T. Tanaka; K. Moriguchi; J. Koga; G. Tryggvason
    Fluid Dynamics and Materials Processing, Volume:7, Number:3, First page:231, Last page:240, 2011, [Reviewed], [Lead, Corresponding]
    English, Scientific journal
    DOI:https://doi.org/10.3970/fdmp.2011.007.231
    DOI ID:10.3970/fdmp.2011.007.231, ISSN:1555-256X, SCOPUS ID:84863044376
  • Numerical Simulation of Formation and Breakup of a Three-Fluid Compound Jet               
    Truong Van VU; Shunji HOMMA; John Craig WELLS; Hideyuki TAKAKURA; Gretar TRYGGVASON
    Journal of Fluid Science and Technology, Volume:6, Number:2, First page:252, Last page:263, 2011, [Reviewed]
    The formation and breakup of an axisymmetric immiscible, viscous, laminar compound jet flowing vertically downward into and breaking up in another immiscible liquid is studied numerically. We use a front-tracking/finite difference method to track the unsteady motion and the breakup of the compound jet interfaces, which are governed by the incompressible Navier-Stokes equations for Newtonian fluids. We consider the formation and breakup of a three-fluid compound jet in which the inner fluid density is greater than the shell's fluid density, and compare with the case when the inner fluid density is less than the shell's fluid density. The effects of interfacial tensions in terms of Weber number and interfacial tension ratio are investigated. An increase in Weber number leads to an increase in the breakup length of the compound jet and a decrease in the size of compound drops.
    Japan Society of Mechanical Engineers, English, Scientific journal
    DOI:https://doi.org/10.1299/jfst.6.252
    DOI ID:10.1299/jfst.6.252, ISSN:1880-5558, eISSN:1880-5558, CiNii Articles ID:130000664746
  • Swelling Process of Cylindrical Polymer Gel               
    KOGA Jiro; TAKITA Yuichi; HOMMA Shunji
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:43, Number:4, First page:487, Last page:489, Jul. 2010
    The swelling processes of polymer gels are described by the diffusion equation for the displacement of a stretched polymer chain. This diffusion equation and its boundary condition are mathematically obtained from the stress-diffusion coupling model, which is a system of constitutive equations for polymer gels. Numerical analysis of the free swelling of a spherical and cylindrical polymer gels is carried out to show the change of the displacement of particles inside and the change in the radius of the gels with time, and the results of our calculation are compared with experimental data. The calculated results are in good agreement with experimental data.
    The Society of Chemical Engineers, Japan, English
    DOI:https://doi.org/10.1252/jcej.43.487
    DOI ID:10.1252/jcej.43.487, ISSN:0021-9592, CiNii Articles ID:10027372884, CiNii Books ID:AA00709658
  • Elongational Viscosities of Entangled Linear Polymers               
    Jiro Koga; Masanori Shindo; Shunji Homma
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:43, Number:1, First page:2, Last page:6, 2010, [Reviewed]
    Elongation studies are very important for validating the constitutive equations that describe the rheological behavior of fluids. The relaxation of a stretched polymer chain in the flow field has not been investigated in detail thus far. We extended the constitutive equations for predicting the start-up behavior and the power law relationship between the steady-state elongational viscosities and the strain rate. We also determined the steady-state elongational viscosity by fitting the calculated results with the measured values. The calculated results show the power law relationship between the steady-state elongational viscosities and the strain rate. Furthermore, we used these constitutive equations to predict the overshoot of the viscosities and stresses at initial stages of the steady elongational or shear flows by considering only one parameter, the stretch relaxation time.
    Society of Chemical Engineers, Japan, English, Scientific journal
    DOI:https://doi.org/10.1252/jcej.09we028
    DOI ID:10.1252/jcej.09we028, ISSN:0021-9592, eISSN:1881-1299, CiNii Articles ID:10027152251, CiNii Books ID:AA00709658
  • Numerical Simulation of the Formation of a Jet and Droplets from a Capillary in a Co-Flowing Ambient Fluid               
    Shunji Homma; Muneyuki Yokotsuka; Jiro Koga
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:43, Number:1, First page:7, Last page:12, 2010, [Reviewed], [Lead, Corresponding]
    Formation of a liquid jet and droplets from a micro-capillary in another immiscible co-flowing ambient fluid is simulated numerically with a front-tracking/finite difference method. The transition from dripping to jetting is observed and the size of the resulting droplets is predicted. The predicted size in jetting mode is in close agreement with that from linear stability theory for a moving liquid jet in a co-flowing ambient fluid with the same speed as the jet. The transition between dripping and jetting are mapped on the diagram of the jet Weber number versus the ambient flow Capillary number. It is found that the viscosity ratio is an important parameter to distinguish the mode.
    Society of Chemical Engineers, Japan, English, Scientific journal
    DOI:https://doi.org/10.1252/jcej.09we058
    DOI ID:10.1252/jcej.09we058, ISSN:0021-9592, eISSN:1881-1299, CiNii Articles ID:10027152263, CiNii Books ID:AA00709658
  • Experimental Study on U-Pu Cocrystallization Reprocessing Process               
    Atsuhiro SHIBATA; Kouichi OHYAMA; Kimihiko YANO; Kazunori NOMURA; Tomozo KOYAMA; Kazuhito NAKAMURA; Toshiaki KIKUCHI; Shunji HOMMA
    Journal of Nuclear Science and Technology, Volume:46, Number:2, First page:204, Last page:209, Feb. 2009, [Reviewed]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.2007.9711522
    DOI ID:10.1080/18811248.2007.9711522, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10024732769, CiNii Books ID:AA00703720
  • Reaction Model for Fluorination of Uranium Dioxide Using Improved Unreacted Shrinking Core Model for Expanding Spherical Particles               
    Shunji HOMMA; Yuki UOI; Artur BRAUN; Jiro KOGA; Shiro MATSUMOTO
    Journal of Nuclear Science and Technology, Volume:45, Number:8, First page:823, Last page:827, Aug. 2008, [Reviewed], [Lead, Corresponding]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.2008.9711483
    DOI ID:10.1080/18811248.2008.9711483, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10021367794, CiNii Books ID:AA00703720
  • Flowsheet Study of U-Pu Co-Crystallization Reprocessing System               
    Shunji HOMMAA; Jun-ichi ISHII; Toshiaki KIKUCHI; Takahiro CHIKAZAWA; Atsuhiro SHIBATA; Tomozo KOYAMA; Jiro KOGA; Shiro MATSUMOTO
    Journal of Nuclear Science and Technology, Volume:45, Number:6, First page:510, Last page:517, Jun. 2008, [Reviewed], [Lead, Corresponding]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.2008.9711874
    DOI ID:10.1080/18811248.2008.9711874, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10020753071, CiNii Books ID:AA00703720
  • Batch Crystallization of Uranyl Nitrate               
    Takahiro CHIKAZAWA; Toshiaki KIKUCHI; Atsuhiro SHIBATA; Tomozo KOYAMA; Shunji HOMMA
    Journal of Nuclear Science and Technology, Volume:45, Number:6, First page:582, Last page:587, Jun. 2008, [Reviewed], [Corresponding]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.2008.9711882
    DOI ID:10.1080/18811248.2008.9711882, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10020753216, CiNii Books ID:AA00703720
  • Computations of drop formation from a micro capillary in co-flowing ambient immiscible liquid               
    Shunji Homma; Muneyuki Yokotsuka; Jiro Koga
    AIChE Annual Meeting, Conference Proceedings, 2008
    English, International conference proceedings
    SCOPUS ID:79952284861
  • Dynamics and rheology of entangled linear polymers               
    Jiro Koga; Kei Kimura; Shunji Homma
    Chemical Engineering Science, Volume:62, Number:9, First page:2330, Last page:2335, May 2007, [Reviewed]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/j.ces.2007.01.025
    DOI ID:10.1016/j.ces.2007.01.025, ISSN:0009-2509
  • Development of Nitrogen Oxide Closed System in the Future Reprocessing Process               
    Ohyama, K; Yano, K; Shibata, A; Miyachi, S; Koizumi, T; Koyama, T; Nakamura, K; Kikuchi, T; Homma, S
    Proceedings of GLOBAL 2007 conference on advanced nuclear fuel cycles and systems, 2007
    International conference proceedings
  • Transition of Scaling for Pinch-Off of an Axisymmetric Liquid Ligament in Another Immiscible Liquid
    Shunji Homma; Jiro Koga
    Proc. ASME. FEDSM2007, First page:273, Last page:278, Jan. 2007, [Reviewed], [Lead, Corresponding]
    Scaling for pinch-off of an axisymmetric liquid ligament in another immiscible liquid is studied computationally for intermediate Reynolds number, where both inertial and viscous forces are dominant. Interface motion near pinch-off is traced by a front tracking/finite difference method with higher resolution. When the ligament breaks up, a thin thread forms between a bulb of the tip and the rest of the ligament. Computational results show that the minimum radius of the thread decreases with time and the exponent of time shifts from 2/3 to 1. This shift corresponds to the transition from potential flow scaling law to the scaling law for viscous thread in another viscous fluid. The rate of the thinning down of the thread is in good agreement with the one obtained from experiments for very small Reynolds number range, where viscous force is dominant. Since the length scale becomes very small close to the pinch-off, the viscous effect overcomes the inertial effect and the scaling alters from the potential flow scaling law to the viscous scaling law.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/fedsm2007-37471
    DOI ID:10.1115/fedsm2007-37471
  • Computations of the Breakup of a Jet into Drops in Non-Newtonian Liquid-Liquid Systems               
    Shunji Homma; Kozue Akimoto; Jiro Koga; Shiro Matsumoto
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:40, Number:11, First page:920, Last page:927, 2007, [Reviewed], [Lead, Corresponding]
    The breakup of a laminar liquid jet into drops in non-Newtonian immiscible liquid systems has been studied using a two-dimensional cylindrical axisymmetric front-tracking/finite difference method with the Carreau–Yasuda model for non-Newtonian viscosities. For co-flow condition, where the continuous phase flows with the same velocity as the jet injection velocity, the lengths of the jet and the sizes of the drops are in good agreement between numerical simulations and experiments reported previously. Non-Newtonian effects are discussed by visualizing the distribution of viscosity. The breakup length of the jet becomes large when shear thinning occurs inside the jet, while the jet becomes short when shear thinning occurs in a continuous phase.
    Society of Chemical Engineers, Japan, English, Scientific journal
    DOI:https://doi.org/10.1252/jcej.06we284
    DOI ID:10.1252/jcej.06we284, ISSN:0021-9592, eISSN:1881-1299, CiNii Articles ID:130000019098, CiNii Books ID:AA00709658
  • Breakup mode of an axisymmetric liquid jet injected into another immiscible liquid               
    Shunji Homma; Jiro Koga; Shiro Matsumoto; Museok Song; Grétar Tryggvason
    Chemical Engineering Science, Volume:61, Number:12, First page:3986, Last page:3996, Jun. 2006, [Reviewed], [Lead, Corresponding]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/j.ces.2006.01.029
    DOI ID:10.1016/j.ces.2006.01.029, ISSN:0009-2509, CiNii Articles ID:80019155772
  • Satellite formation during the breakup of a liquid ligament suspended in another fluid               
    Shunji Homma; Koichi Mizusaki; Jiro Koga; Shiro Matsumoto
    10th International Conference on Liquid Atomization and Spray Systems, ICLASS 2006, 2006, [Lead]
    English, International conference proceedings
    SCOPUS ID:84874722485
  • Flowsheet Analysis of U-Pu Co-Crystallization Process as a New Reprocessing System
    Shunji Homma; Jun-Ichi Ishii; Jiro Koga; Shiro Matsumoto; Toshiaki Kikuchi; Takahiro Chikazawa; Atsuhiro Shibata
    ICONE14-89196, Jan. 2006, [Reviewed], [Lead, Corresponding]
    A new fuel reprocessing system by U-Pu co-crystallization process is proposed and examined by flowsheet analysis. This reprocessing system is based on the fact that hexavalent plutonium in nitric acid solution is co-crystallized with uranyl nitrate, whereas it is not crystallized when uranyl nitrate does not exist in the solution. The system consists of five steps: dissolution of spent fuel, plutonium oxidation, U-Pu co-crystallization as a co-decontamination, re-dissolution of the crystals, and U re-crystallization as a U-Pu separation. The system requires a recycling of the mother liquor from the U-Pu co-crystallization step and the appropriate recycle ratio is determined by flowsheet analysis such that the satisfactory decontamination is achieved. Further flowsheet study using four different compositions of LWR spent fuels demonstrates that the constant ratio of plutonium to uranium in mother liquor from the re-crystallization step is achieved for every composition by controlling the temperature. It is also demonstrated by comparing to the Purex process that the size of the plant based on the proposed system is significantly reduced.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/icone14-89196
    DOI ID:10.1115/icone14-89196
  • Development of Crystallizer for Advanced Aqueous Reprocessing Process
    Tadahiro Washiya; Toshiaki Kikuchi; Atsuhiro Shibata; Takahiro Chikazawa; Shunji Homma
    ICONE14-89292, First page:849, Last page:855, Jan. 2006, [Reviewed]
    Crystallization is one of the remarkable technologies for future fuel reprocessing process that has safety and economical advantages. Japan Atomic Energy Agency (JAEA) (former Japan Nuclear Cycle Development Institute), Mitsubishi Material Corporation and Saitama University have been developing the crystallization process. In previous study, we carried out experimental studies with uranium, MOX and spent fuel conditions, and flowsheet analysis was considered. [1, 2, 3] In association with these studies, an innovative continuous crystallizer and its system was developed to ensure high process performance. From the design study, an annular type continuous crystallizer was selected as the most promising design, and performance was confirmed by small-scale test and engineering scale demonstration at uranium crystallization conditions. In this paper, the design study and the demonstration test results are described.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/icone14-89292
    DOI ID:10.1115/icone14-89292
  • RECENT PROGRESS IN COMPUTATIONAL STUDIES OF DISPERSE BUBBLY FLOWS               
    Gretar Tryggvason; A. Esmaeeli; J. Lu; S. Homma; S. Biswas
    Multiphase Science and Technology, Volume:18, Number:3, First page:231, Last page:249, 2006, [Reviewed]
    Begell House, Scientific journal
    DOI:https://doi.org/10.1615/multscientechn.v18.i3.20
    DOI ID:10.1615/multscientechn.v18.i3.20, ISSN:0276-1459
  • Motion and Breakup of a Finite Liquid Column Placed in Another Quiescent Fluid               
    Shunji HOMMA; Jiro KOGA; Shiro MATSUMOTO
    Progress in Multiphase Flow Research, Volume:1, Number:1, First page:79, Last page:86, 2006, [Reviewed], [Lead, Corresponding]
    The Japanese Society for Multiphase Flow, Japanese, Scientific journal
    DOI ID:10.3811/pmfr.1.79, ISSN:1881-5804, eISSN:1881-6088, J-Global ID:200902286018702579, CiNii Articles ID:40015824425, CiNii Books ID:AA12204080
  • Fluorination of Uranium and Plutonium Dioxides in Flame Tower Reactors               
    尾形信二; 本間俊司; 古閑二郎; 松本史朗; 河村文雄
    日本原子力学会和文論文誌, Volume:5, Number:2, First page:103, Last page:108, 2006, [Reviewed], [Lead, Corresponding]
    Atomic Energy Society of Japan, Scientific journal
    DOI:https://doi.org/10.3327/taesj2002.5.103
    DOI ID:10.3327/taesj2002.5.103, ISSN:1347-2879, eISSN:2186-2931, J-Global ID:200902210261389564
  • Gas–solid reaction model for a shrinking spherical particle with unreacted shrinking core               
    Shunji Homma; Shinji Ogata; Jiro Koga; Shiro Matsumoto
    Chemical Engineering Science, Volume:60, Number:18, First page:4971, Last page:4980, Sep. 2005, [Reviewed], [Lead, Corresponding]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/j.ces.2005.03.057
    DOI ID:10.1016/j.ces.2005.03.057, ISSN:0009-2509
  • Experimental study on U-Pu co-crystallization for new reprocessing process               
    Ohyama, K; Yano, K; Shibata, A; Miyachi, S; Koizumi, T; Koyama, T; Nakamura, K; Kikuchi, T; Homma, S
    Proceedings of GLOBAL2005 International Conference, 2005
    International conference proceedings
    CiNii Articles ID:10018413146
  • Fluorination Reaction of Uranium Dioxide by Fluorine
    Shinji OGATA; Shunji HOMMA; Akira SASAHIRA; Fumio KAWAMURA; Jiro KOGA; Shiro MATSUMOTO
    Journal of Nuclear Science and Technology, Volume:41, Number:2, First page:135, Last page:141, Feb. 2004, [Reviewed], [Corresponding]
    Informa UK Limited, Scientific journal
    DOI:https://doi.org/10.1080/18811248.2004.9715469
    DOI ID:10.1080/18811248.2004.9715469, ISSN:0022-3131, eISSN:1881-1248
  • Retraction and Breakup of an Initially Stretched Ligament
    Shunji Homma; Jiro Koga; Shiro Matsumoto; Gre´tar Tryggvason
    Proc. ASME. HT-FED2004, First page:911, Last page:916, Jan. 2004, [Reviewed], [Lead, Corresponding]
    Unsteady motion of an initially stretched ligament in another immiscible fluid is studied numerically for the flow dominated by both inertia and viscosity. Numerical simulations were conducted using an axisymmetric version of a Front-Tracking / Finite Difference code. The ranges of the non-dimensional numbers are: 4.2 × 10−3 < OhD < 4.2 × 10−1 and 10−2 < μˆ < 10, where OhD is the Ohnesorge number based on the ligament (OhD = μD / 2a0ρDσ and μˆ is the viscosity ratio (μˆ = μD/μC). The tip of the ligament retracts due to the non-uniformness of the capillary force, and a bulb forms. Simulation results show that there are two different modes: i) the bulb pinches off and the rest of the ligament also breaks up into drops, and ii) the bulb moves toward the midsection of the ligament and the ligament becomes a spherical drop. The former mode is observed when the retraction takes enough time for capillary waves to grow. The latter mode takes place when the growth of capillary waves is slow relative to the retraction speed.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/ht-fed2004-56812
    DOI ID:10.1115/ht-fed2004-56812
  • Development of Reprocessing Process by Plutonium Cocrystallization               
    Toshiaki Kikuchi; Tomozo Koyama; Shunji Homma
    AIP Conference Proceedings 673, 42 (2003), Volume:673, First page:43, Last page:45, 2003
    AIP, International conference proceedings
    DOI:https://doi.org/10.1063/1.1594545
    DOI ID:10.1063/1.1594545, ISSN:0094-243X
  • Numerical Simulation of Drop Formation From a Nozzle in Liquid-Liquid Systems
    Shunji Homma; Haruhisa Honda; Jiro Koga; Shiro Matsumoto; Museok Song; Gre´tar Tryggvason
    Proc. ASME. FEDSM2003, First page:519, Last page:524, Jan. 2003, [Reviewed], [Lead, Corresponding]
    Numerical simulation code is developed to study the formation of liquid drops from a nozzle into another quiescent liquid. The Navier-Stokes equations for two immiscible, incompressible, Newtonian fluids are solved on a fixed, staggered grid of cylindrical axisymmetric coordinates. Interfacial motion is captured using a Front-Tracking Method. The time variation of interfacial shape simulated by the code is in excellent agreement with experiments. Simulation results show that the viscosity ratio affects the size of the satellite drops.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/fedsm2003-45172
    DOI ID:10.1115/fedsm2003-45172
  • Numerical Study of Ejected Droplet Formation in Two-Liquid System               
    Song, M; Homma, S; Honda, H
    Volume:7, Number:4, First page:32, Last page:40, 2003, [Reviewed]
  • Multiple Node Breakup of a Liquid Jet Into Drops in Another Immiscible Liquid
    Shunji Homma; Jiro Koga; Shiro Matsumoto; Gre´tar Tryggvason
    FEDSM2002-31152, First page:881, Last page:886, Jan. 2002, [Reviewed], [Lead, Corresponding]
    We investigate numerically the breakup of an axisymmetric jet into drops in liquid-liquid systems, specifically focus on multiple node breakup, where more than one node of the most unstable wave becomes one drop. The unsteady Navier-Stokes equations for incompressible Newtonian fluids are solved with a Front-Tracking / Finite Difference method. Various combinations of the non-dimensional numbers (Re = 80, 160, 320; We = 5, 8; Fr = 4, 8, 32, ∞) are examined for constant ratios of density (ρc, ρj = 1.25) and viscosity (µc, µj = 1). Capillary waves grow on the jet surface and the multiple node breakup is observed in all cases examined. A “shoulder” is observed on the jet right behind the bulb when the double-node breakup occurs. Unlike the breakup of a jet in air, vortical motions in the external fluid affect the breakup process.
    ASMEDC, International conference proceedings
    DOI:https://doi.org/10.1115/fedsm2002-31152
    DOI ID:10.1115/fedsm2002-31152
  • Formation of a Jet and Its Breakup into Drops in Liquid-Liquid Systems               
    Homma, S., Koga, J., Matsumoto, S., Tryggvason, G.
    Volume:51, First page:241, Last page:250, 2002, [Reviewed], [Lead, Corresponding]
  • Pinch-off dynamics of jet breakup in liquid-liquid systems               
    Shunji Homma; Jiro Koga; Shiro Matsumoto; Grétar Tryggvason
    American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FED, Volume:251, First page:725, Last page:730, 2000
    English, Scientific journal
    ISSN:0888-8116, SCOPUS ID:0347539052
  • Neptunium concentration profiles in the Purex process               
    M. Takanashi; S. Homma; J. Koga; S. Matsumoto
    Journal of Alloys and Compounds, Volume:271-273, First page:689, Last page:692, Jun. 1998, [Reviewed]
    Elsevier BV, Scientific journal
    DOI:https://doi.org/10.1016/s0925-8388(98)00188-1
    DOI ID:10.1016/s0925-8388(98)00188-1, ISSN:0925-8388
  • Numerical Simulation of Neptunium Extraction Behavior in Co-decontamination Stage for Late Split Purex System               
    Mitsuhiro TAKANASHI; Shunji HOMMA; Yuko TAKIZAWA; Jiro KOGA; Shiro MATSUMOTO; Masaki OZAWA
    Journal of Nuclear Science and Technology, Volume:34, Number:8, First page:817, Last page:822, Aug. 1997, [Reviewed]

    Numerical simulation of neptunium concentration profiles is carried out in order to understand the extraction behavior of neptunium in the co-decontanimation stage which decontaminates through two extraction banks before the uranium and plutonium partitioning steps. Simulation results show that leaking of neptunium to the waste stream at the second extraction bank is caused by reduction from Np(VI) to Np(V) unextracted by TBP in the presence of nitrous acid of 10-3mol/l. It is found that the prevention of the reduction reaction from Np(VI) to Np(V) is effective for the recovery of neptunium with uranium and plutonium into the product stream. Two methods for the recovery of neptunium are suggested; i) to decrease residence time in the acid adjustment vessel located between first and second extraction banks, ii) to diminish nitrous acid in the aqueous phase by hydrazine. Simulation results show that the recovery of neptunium with uranium and plutonium is improved from 40 to 60% and from 40 to 70% by the first and the second methods, respectively.
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.1997.9733746
    DOI ID:10.1080/18811248.1997.9733746, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10002077816, CiNii Books ID:AA00703720
  • An Approach for Evaluating Equilibrium and Rate Constants for the Reaction of Np(V) with Nitric Acid in the Purex Process Using Process Data
    Shunji Homma; Mitsuhiro Takanashi; Jiro Koga; Shiro Matsumoto; Masaki Ozawa
    Nuclear Technology, Volume:116, Number:1, First page:108, Last page:114, Oct. 1996, [Reviewed], [Lead, Corresponding]
    Informa UK Limited, Scientific journal
    DOI:https://doi.org/10.13182/nt96-a35315
    DOI ID:10.13182/nt96-a35315, ISSN:0029-5450, eISSN:1943-7471
  • Development of COMPAS, Computer Aided Process Flowsheet Design and Analysis System of Nuclear Fuel Reprocessing               
    Shunji HOMMA; Susumu SAKAMOTO; Mitsuhiro TAKANASHI; Akihiko NAMMO; Yoshihiro SATOH; Takayuki SOEJIMA; Jiro KOGA; Shiro MATSUMOTO
    Journal of Nuclear Science and Technology, Volume:32, Number:4, First page:357, Last page:368, Apr. 1995, [Reviewed], [Lead, Corresponding]
    A computer aided process flowsheet design and analysis system, COMPAS has been developed in order to carry out the flowsheet calculation on the process flow diagram of nuclear fuel reprocessing. All of equipments, such as dissolver, mixer-settler, and so on, in the process flowsheet diagram are graphically visualized as icon on a bitmap display of UNIX workstation. Drawing of a flowsheet can be carried out easily by the mouse operation. Not only a published numerical simulation code but also a user's original one can be used on the COMPAS. Specifications of the equipment and the concentration of components in the stream displayed as tables can be edited by a computer user. Results of calculation can be also displayed graphically. Two examples show that the COMPAS is applicable to decide operating conditions of Purex process and to analyze extraction behavior in a mixer-settler extractor.
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.1995.9731716
    DOI ID:10.1080/18811248.1995.9731716, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:10002072438, CiNii Books ID:AA00703720
  • Dissolution Rate Equation of UO2Pellet               
    Shunji HOMMA; Jiro KOGA; Shiro MATSUMOTO; Tomio KAWATA
    Journal of Nuclear Science and Technology, Volume:30, Number:9, First page:959, Last page:961, Sep. 1993, [Reviewed], [Lead]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.1993.9734571
    DOI ID:10.1080/18811248.1993.9734571, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:130000825713
  • Extraction Calculation of Pulsed Column by Progression Model               
    Shunji HOMMA; Jiro KOGA; Shiro MATSUMOTO
    Journal of Nuclear Science and Technology, Volume:28, Number:9, First page:873, Last page:875, Sep. 1991, [Reviewed], [Lead, Corresponding]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.1991.9731442
    DOI ID:10.1080/18811248.1991.9731442, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:130000826273
  • Axial Dispersion Coefficient and Mass Transfer Rate in Pulsed Column               
    Shiro MATSUMOTO; Shunji HONMA; Jiro KOGA; Hidehiko KOBAYASHI
    Journal of Nuclear Science and Technology, Volume:26, Number:4, First page:473, Last page:474, Apr. 1989, [Reviewed]
    Informa UK Limited, English, Scientific journal
    DOI:https://doi.org/10.1080/18811248.1989.9734334
    DOI ID:10.1080/18811248.1989.9734334, ISSN:0022-3131, eISSN:1881-1248, CiNii Articles ID:130000826730
  • Mass transfer of laminar flow of polystyrene suspensions in circular tubes.               
    Matsumoto Shiro; Honma Shunji; Koga Jiro; Akutsu Nobuo; Kobayashi Hidehiko
    KAGAKU KOGAKU RONBUNSHU, Volume:15, Number:4, First page:884, Last page:886, 1989, [Reviewed]
    Mass transfer coefficients of suspensions were measured in circular tubes of 5.0 and 10.0 mm diameter. Particles used in this study were 183 μm and 322 μm in diameter and the concentration range was less than 20 %.
    The Sherwood number for suspensions was correlated by an empirical equation as follows :
    Sh=1.75Gz1/3+1.15Re0.8Sc1/3φ2.0
    where Gz, Re, Sc, and φ are Greatz number, Reynolds number, Schmidt number and volume fraction of particle of suspensions, respectively.
    The Society of Chemical Engineers, Japan, Japanese, Scientific journal
    DOI:https://doi.org/10.1252/kakoronbunshu.15.884
    DOI ID:10.1252/kakoronbunshu.15.884, ISSN:0386-216X, eISSN:1349-9203, J-Global ID:200902044946743681, CiNii Articles ID:130000870765, CiNii Books ID:AN00037234
■ MISC
  • Direct Numerical Simulations of Curtain Coatings               
    Shunji Homma
    Volume:88, Number:1, First page:10, Last page:13, Jan. 2024, [Invited], [Lead]
    Japanese, Introduction scientific journal
  • Numerical Simulations of Multiphase Flows Dispersing Fluid Particles and Free Surface Flows               
    Shunji Homma
    Volume:87, Number:3, First page:123, Last page:125, Mar. 2023, [Invited], [Lead]
    Japanese, Introduction scientific journal
  • Preface to the Special Issue for Multiscale Multiphase Process Engineering (MMPE) 2017               
    Shunji Homma; Shuichi Iwata; Daisuke Kobayashi; Yosuke Matsukuma; Mitsuhiro Ohta; Masumi Yamada
    JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, Volume:51, Number:4, First page:299, Last page:299, Apr. 2018
    English, Others
    DOI:https://doi.org/10.1252/jcej.18pr5104
    DOI ID:10.1252/jcej.18pr5104, ISSN:0021-9592, Web of Science ID:WOS:000434039000001
  • 再処理プロセス・化学ハンドブック第3版の整備               
    津幡靖宏; 朝倉俊英; 筒井菜緒; 伴康俊; 宝徳忍; 松村達郎; 森田泰治; 本間俊司
    Volume:11th, 2015
    J-Global ID:201602291453347423
  • 1128 A FRONT-TRACKING METHOD FOR SIMULATION OF A LAMINAR COMPOUND JET               
    Truong V. Vu; S. Homma; G. Tryggvason; John C. Wells; H. Takakura
    Jets, wakes and separated flows : proceedings of International Conference on Jets, Wakes and Separated Flows, ICJWSF, Volume:2013, Number:4, First page:"1128, Last page:1"-"1128-5", 16 Sep. 2013
    We present a front-tracking/finite difference method for tracking the unsteady motion and the breakup of a compound jet, which is governed by the incompressible Navier-Stokes equations for Newtonian fluids. Two different interfaces separating three fluids are represented by connected Lagrangian markers that move on a stationary Cartesian grid. The distribution of the density and viscosity jumps from the front to the nearby grid points is determined by using area weighting, and solving corresponding Poisson equations. The method is validated through comparisons with the linear and nonlinear analysis, and comparisons with experiments. Non-coflowing and coflowing systems formed by two and three different fluids have been investigated using the method. Here, we focus on the coflowing system in which various modes of the compound jet formation and breakup have been revealed: inner dripping-outer dripping mode, inner jetting-outer jetting mode and mixed drippingjetting mode; depending on the flow parameters such as the Reynolds number Re, the Weber number We, the interfacial tension ratio or the velocity ratios. Starting from the dripping mode, an increase in We or a decrease in Re results in the jetting mode. Decreasing the interfacial tension ratio forms the mixed dripping-jetting mode. In addition, the jetting mode can be produced by increasing the velocity ratios. These modes produce various types of drop such as simple drops and single-core and multi-core compound drops.
    The Japan Society of Mechanical Engineers, English
    CiNii Articles ID:110009962717, CiNii Books ID:AA12113983
  • 再処理技術開発の今後の展開 福島第一原子力発電所の事故を経て我が国の再処理技術開発はどうすすむべきか?               
    小山正史; 笹平朗; 本間俊司; 井関忠宏; 島田隆; 染谷浩; 松村達郎; 飯塚政利; 有田裕二; 永里良彦; 駒義和; 水口浩司; 浅沼徳子
    Volume:55, Number:11, 2013
    ISSN:1882-2606, J-Global ID:201302245086576691
  • 化学工学年鑑2011 3.粒子・流体プロセス 3.3 気泡・液滴・微粒子分散工学               
    本間俊司
    Volume:75, Number:10, 2011
    ISSN:0375-9253, J-Global ID:201102229959768568
  • 外部流体の流れを利用したマイクロ液滴生成の操作条件               
    横塚宗之; 本間俊司; 古閑二郎
    Volume:81, 2010
    J-Global ID:201002272830168152
  • 注目されるシミュレーションの新展開 円盤状液膜の収縮シミュレーション               
    本間俊司; 岡大樹; 古閑二郎
    Volume:55, Number:11, 2010
    ISSN:0387-1037, J-Global ID:201002227359941363
  • 混相流技術の可能性を拓く 外部流体の流れを利用した液滴生成のシミュレーション               
    本間俊司
    Volume:54, Number:9, 2009
    ISSN:0387-1037, J-Global ID:200902246975893244
  • U-Pu共晶析法による再処理プロセス研究               
    柴田淳広; 大山孝一; 矢野公彦; 野村和則; 中村和仁; 中村和仁; 小山智造; 近沢孝弘; 菊池俊明; 石井淳一; 本間俊司; 古閑二郎; 松本史朗
    Volume:6th, 2009
    J-Global ID:200902223975582095
  • 化学工学年鑑2006 3.粒子・流体プロセス               
    本間俊司; 高橋幸司; 甲斐敬美; 松坂修二; 吉田英人; 大坪泰文
    Volume:70, Number:10, 2006
    ISSN:0375-9253, J-Global ID:200902272952821050
  • Computations of Mass Transfer from a Single Drop by Boundary Element Method               
    秋元梢; 本間俊司; 古閑二郎; 松本史朗
    埼玉大学紀要 工学部 第1編 第1部 論文集(Web), Number:38, 2005
    ISSN:1880-4446, J-Global ID:200902250814327556
  • 静止流体中における伸張液滴の運動 (波動の非線形現象とその応用)               
    本間 俊司
    Volume:1368, First page:33, Last page:40, Apr. 2004
    Japanese
    ISSN:1880-2818, CiNii Articles ID:110000938412, CiNii Books ID:AN00061013
  • 移動する界面のシミュレーション技術               
    本間俊司
    Volume:27, Number:2, 2004
    ISSN:0386-2763, J-Global ID:200902232492552186
  • 多流体系のジェットの分裂および液滴の生成 (非線形波動現象の数理とその応用)               
    本間 俊司
    Volume:1311, First page:98, Last page:110, Apr. 2003
    Japanese
    ISSN:1880-2818, CiNii Articles ID:110000167164, CiNii Books ID:AN00061013
  • Development of Reprocessing System by Plutonium-Uranium Co-Crystallization : Mass Balance for Uranium Crystallization Process               
    本間 俊司; 石井 淳一; 古閑 二郎; 松本 史朗; 近沢 孝弘; 菊池 俊明; 半沢 正利; 柴田 淳広; 小山 智造
    Number:4, First page:69, Last page:73, 2003
    A simulation system for uranium crystallization process is developed for designing the reprocessing by plutonium-uranium co-erystallization. Experiments of batch crystallization are conducted in order to validate the system. Calculated recoveries of uranium are in good agreement with experimental ones, and the error is within 5% when the recovery of uranium is greater than 70%.
    Japanese
    ISSN:1347-4758, CiNii Articles ID:120001371502, CiNii Books ID:AA11808968
  • Hybrid Fuel Reprocessing with Fluorination and Solvent Extraction
    松本 史朗; 尾形 信二; 本間 俊司; 古閑 二郎; 笹平 朗; 田川 久人; 河村 文雄
    Volume:3, First page:54, Last page:54, 2002
    Japanese
    ISSN:1347-4758, CiNii Articles ID:120001371531
  • Development of a Simple Fuel Reprocessing with Uranium-Plutonium Co-crystallization
    松本 史朗; 本間 俊司; 古閑 二郎; 菊池 俊明; 半沢 正利
    Volume:3, First page:53, Last page:53, 2002
    Japanese
    ISSN:1347-4758, CiNii Articles ID:120001371530
  • Jet and Sheet Instabilities I-III               
    HOMMA Shunji
    Volume:9, Number:26, First page:34, Last page:35, 15 Dec. 2000
    Japanese
    ISSN:1341-6022, CiNii Articles ID:10006065944, CiNii Books ID:AA11589503
  • Numerical Analyses of Mass and Heat Transfer with Chemical Reactions inMicroreactors
    山本 忠夫; 吉野 研; 古閑 二郎; 本間 俊司
    Volume:1, First page:56, Last page:56, 2000
    Japanese
    ISSN:1347-4758, CiNii Articles ID:120001389814
  • 液々系におけるジェットの生成とその液滴への分裂               
    本間俊司; 古閑二郎; 松本史朗; TRYGGVASON G
    Volume:72, 2000
    J-Global ID:200902121546462920
  • Computations of Multiphase Flows by a Finite Difference / Front Tracking Method. II. Applications               
    Tryggvason, G; Esmaeeli, A; Mortazavi, S; Han, J; Homma, S
    1998
  • Separation of Neptunium and Technetium in Purex Process.               
    松本史朗; 本間俊司; 高梨光博; 藤根幸雄; 内山軍蔵; 朝倉俊英
    原研施設利用共同研究成果報告書, Number:UTRCN-G-27(1997), 1998
    J-Global ID:200902159174452726
  • Oxidation Reaction of U(IV) in Nitric Acid Solution.               
    本間俊司; 橋本孝和; 高梨光博; 古閑二郎; 松本史朗
    日本原子力研究所JAERI-Conf, 1996, [Lead, Corresponding]
    J-Global ID:200902165154093312
  • Computer Aided System of Chemical Reaction Path Synthesis.               
    坂本進; 古閑二郎; 本間俊司; 松本史朗
    埼玉大学紀要 工学部, Number:28, First page:23, Last page:28, 1995
    J-Global ID:200902153154618069
  • Estimation of Distribution Coefficients of U(VI), Pu(IV) and Np(VI) in HNO3-30%TBP/n-alkane System               
    Homma, S; Takanashi, M; Koga, J; Matsumoto, S
    Science and Engineering Report, Faculty of Engineering, Saitama University, Number:27, First page:5, Last page:8, 1993, [Lead, Corresponding]
    Japanese
    ISSN:0916-6394, CiNii Articles ID:40004149702, CiNii Books ID:AN00095740
  • Process Flowsheet Design and Analysis System.               
    坂本進; 本間俊司; 古閑二郎; 松本史朗
    埼玉大学紀要 工学部, Number:25, First page:33, Last page:40, 1991
    J-Global ID:200902091807471683
  • 階層ニューラルネットワークの分散液滴径測定への応用               
    長谷川康明; 古閑二郎; 本間俊司; 松本史朗
    Number:24, First page:33, Last page:45, 1990
    Japanese
    ISSN:0916-6394, CiNii Articles ID:40004149686, CiNii Books ID:AN00095740
■ Books and other publications
  • 塗布・乾燥技術の基礎とものづくり : 新素材の利用と次世代デバイスへの展開               
    化学工学会関東支部; 化学工学会材料・界面部会, [Contributor]
    Jan. 2020
    Japanese, Total pages:vi, 250p
    CiNii Books:http://ci.nii.ac.jp/ncid/BB29709644
    ISBN:9784866931746, CiNii Books ID:BB29709644
  • 最新気泡・分散系現象の基礎と応用 : ファインバブル・マイクロカプセル・スラリー・パウダーのハンドリング               
    化学工学会, [Contributor]
    Oct. 2016
    Japanese, Total pages:ix, 241p
    CiNii Books:http://ci.nii.ac.jp/ncid/BB24051007
    ISBN:9784864875882, CiNii Books ID:BB24051007
  • Numerical simulation of multi-phase flows               
    Mitsuhiro Ota; Mikio Sakai; Naoki Shimada; Shunji Homma; Yosuke Matsukuma, [Joint work], Tokyo
    Maruzen Publishing Co.,Ltd., Jul. 2015
    Japanese, Total pages:vii, 149p
    CiNii Books:http://ci.nii.ac.jp/ncid/BB19150101
    ISBN:9784621089378, CiNii Books ID:BB19150101
■ Lectures, oral presentations, etc.
  • 尿噴流画像を用いた尿流測定法の開発               
    本間俊司; 兼子力; 姜東赫; 木山 景仁; 竹下英毅
    Mar. 2025
    Mar. 2025 - Mar. 2025, Japanese, Oral presentation
  • 尿噴流の映像や排尿時の音を利用したポータブルな尿流量計を開発し、尿流計測の汎用化を図る               
    本間俊司
    Mar. 2025, [Invited]
    Mar. 2025, Japanese, Public discourse
  • 粘着剤塗布のシミュレーション:現状と展望               
    本間俊司
    Mar. 2025, [Invited]
    Mar. 2025 - Mar. 2025, Japanese, Public discourse
  • アクシススイッチを利用した流量測定の適用範囲               
    鈴木貴博; 小林良輔; 兼子力; 本間俊司
    Mar. 2025
    Mar. 2025 - Mar. 2025, Japanese, Oral presentation
  • 高粘性流体における三次元自然対流の数値シミュレーション               
    高橋翔; 本間俊司
    Mar. 2025
    Mar. 2025 - Mar. 2025, Japanese, Oral presentation
  • 高齢化時代の課題解決:排尿問題に挑むイノベーション               
    本間俊司
    Mar. 2025, [Invited]
    Mar. 2025 - Mar. 2025, Japanese, Public discourse
  • 塗布操作のCFD 解析               
    本間俊司
    Jan. 2025, [Invited]
    Jan. 2025 - Jan. 2025, Japanese, Public discourse
  • Gappy POD を用いた尿流量の非接触推定:適用可能な条件の拡張に向けた取り組み               
    下地倖輔; 木山景仁; 本間俊司; 竹下英毅; 姜東赫
    Nov. 2024
    Nov. 2024 - Nov. 2024, Japanese, Oral presentation
  • 溶融ガラスジェットのダイナミクス               
    小林良輔; 本間俊司; 宮坂郁; 猪飼泰史
    Nov. 2024
    Nov. 2024 - Nov. 2024, Japanese, Oral presentation
  • 尿噴流画像を用いた尿流量推定法の開発               
    兼子力; 本間俊司; 姜東赫; 木山景仁; 竹下英毅
    Nov. 2024
    Nov. 2024 - Nov. 2024, Japanese, Oral presentation
  • Temperature estimation at the bottom of a glass melting furnace using jet shape of molten glass               
    Kobayashi Ryosuke; Homma Shunji; Miyasaka Iku,Ikai Hiroshi
    SCEJ 55th Autumn Meeting, Sep. 2024
    Sep. 2024 - Sep. 2024, Japanese, Oral presentation
  • 楕円管内流れの急拡大損失に関する数値解析               
    兼子力; 本間俊司
    Sep. 2024
    Sep. 2024 - Sep. 2024, Japanese, Oral presentation
  • 尿噴流の特異的な形状を利用した尿流測定法の開発               
    本間俊司; 兼子力; 木山景仁; 姜東赫; 竹下英毅
    Sep. 2024
    Sep. 2024 - Sep. 2024, Japanese, Oral presentation
  • 排尿音と排尿画像を組み合わせたハイブリッド式の尿流量推定法の提案               
    姜東赫; 下地倖輔; 上林出; 木山景仁; 本間俊司; 兼子力; 竹下英毅
    Sep. 2024
    Sep. 2024 - Sep. 2024, Japanese, Oral presentation
  • コンピューターで観る液滴、液柱、液膜の運動               
    本間俊司
    Mar. 2024, [Invited]
    Japanese, Public discourse
  • ワイヤーバー塗工におけるレベリングの可視化実験と数値解析               
    浜本伸夫; 兼子力; 本間俊司; 片田行彦
    Mar. 2024
    Mar. 2024 - Mar. 2024, Japanese, Oral presentation
  • 楕円管ノズルから生成するジェットに対する流路狭窄の影響               
    髙橋太陽・兼子力・本間俊司・小林拓央・姜東赫・木山景仁・竹下英毅
    Mar. 2024
    Mar. 2024 - Mar. 2024, Japanese, Poster presentation
  • 加熱したノズルから流下する溶融ガラスの運動               
    小林良輔; 本間俊司; 宮坂郁; 猪飼泰史
    Mar. 2024
    Mar. 2024 - Mar. 2024, Japanese, Poster presentation
  • 尿噴流崩壊の数値シミュレーション               
    兼子 力; 小林 拓央; 姜 東赫; 竹下 英毅; 本間 俊司
    Nov. 2023
    Nov. 2023 - Nov. 2023, Japanese, Oral presentation
  • Improved Urinary Flow Rate Estimation Using Axis-Switching Wavelength and Urinary Sound for Portable Uroflowmetry               
    Takuo Kobayashi; Riki Kaneko; Shunji Homma; Hideki Takeshita; Akihito Kiyama; Donghyuk Kang
    The 39th JAPAN-KOREA Urological Congress, Oct. 2023
    Oct. 2023 - Oct. 2023, English, Oral presentation
  • 高レベル放射性廃液処理のためのガラス溶融炉自然対流シミュレーション               
    宮下大空; 本間俊司; 宮坂郁; 猪飼泰史
    Sep. 2023
    Sep. 2023 - Sep. 2023, Japanese, Oral presentation
  • 尿流測定のための噴流シミュレーション               
    兼子力; 小林拓央; 姜東赫; 竹下英毅; 本間俊司
    Sep. 2023
    Sep. 2023 - Sep. 2023, Japanese, Oral presentation
  • Visualized observation of liquid jet imitating urinary flow               
    Takuo KOBAYASHI; Riki KANEKO; Shunji HONMA; Donghyuk KANG; Hideki TAKESHITA
    Aug. 2023
    Aug. 2023 - Aug. 2023, Japanese, Poster presentation
  • Numerical Simulation of Molten Glass Flow from a Discharge Nozzle of a Melter for the Treatment of High-Level Liquid Waste from Reprocessing of Spent Nuclear Fuels               
    Shunji Homma; Ryoya Koyama; Iku Miyasaka; Hiroshi Ikai
    17th International Heat Transfer Conference, IHTC-17, Aug. 2023
    Aug. 2023 - Aug. 2023, English, Poster presentation
  • 溶融ガラスの自然対流における粘度の影響               
    宮下大空; 本間俊司; 宮坂郁; 猪飼泰史
    Aug. 2023
    Aug. 2023 - Aug. 2023, Japanese, Oral presentation
  • 界面不安定性を利用した尿流測定における非定常流れの影響               
    兼子力; 小林拓央; 姜東赫; 竹下英毅; 本間俊司
    Aug. 2023
    Aug. 2023 - Aug. 2023, Japanese, Oral presentation
  • Pinhole Growth in a Coated Liquid Film on a Non-Wetting Substrate               
    Shunji Homma; Takumi Chiba; Ryota Nakajima
    11th International Conference on Multiphase Flow, ICMF 2023, Apr. 2023
    Apr. 2023 - Apr. 2023, English, Oral presentation
  • Numerical simulation of a urinary jet               
    兼子力; 小林拓央; 姜東赫; 竹下英毅; 本間俊司
    2023 SCEJ Annual Meeting, Mar. 2023
    Mar. 2023 - Mar. 2023, Japanese, Poster presentation
  • 微小ノズルを用いた高粘性流体の吐出シミュレーション               
    神林佑磨; 小山凌矢; 本間俊司
    Mar. 2023
    Mar. 2023 - Mar. 2023, Japanese, Oral presentation
  • 尿流測定を目的とした扁平ノズルからの噴流シミュレーション               
    兼子力・本間俊司
    Mar. 2023
    Mar. 2023 - Mar. 2023, Japanese, Oral presentation
  • 駆動波形がインクジェット吐出に及ぼす影響               
    鐘 一民; 多田裕太; 本間俊司
    Mar. 2023
    Mar. 2023 - Mar. 2023, Japanese, Oral presentation
  • 扁平ノズルからの噴流シミュレーション               
    兼子力; 本間俊司
    Nov. 2022
    Nov. 2022 - Nov. 2022, Japanese, Oral presentation
  • 高粘性流体における自然対流の数値シミュレーション               
    宮下大空; 山本康太; 本間俊司
    Nov. 2022
    Nov. 2022 - Nov. 2022, Japanese, Oral presentation
  • ノズルから流下する溶融ガラスの伝熱および流動解析               
    小山凌矢; 本間俊司; 宮坂郁; 猪飼泰史
    Nov. 2022
    Nov. 2022 - Nov. 2022, Japanese, Oral presentation
  • インクジェット印刷における液滴吐出シミュレーション~吐出波形が液滴吐出に及ぼす影響~               
    多田裕太; 鈴木惠登; 本間俊司
    Nov. 2022
    Nov. 2022 - Nov. 2022, Japanese, Oral presentation
  • カーテンコーティングの数値シミュレーション ―表面張力が塗布挙動に及ぼす影響―               
    冨樫昂太; 本間俊司
    Nov. 2022
    Nov. 2022 - Nov. 2022, Japanese, Oral presentation
  • スリットまたはノズルから噴出される液体の数値シミュレーション               
    本間俊司
    Nov. 2022
    Nov. 2022 - Nov. 2022, Japanese, Oral presentation
  • インクジェットノズルからの液滴吐出シミュレーション~非ニュートン性が液滴吐出に及ぼす影響~               
    多田裕太; 本間俊司
    Sep. 2022
    Sep. 2022 - Sep. 2022, Japanese, Oral presentation
  • ガラス溶融炉内の自然対流シミュレーション               
    宮下大空; 小山凌矢; 本間俊司; 宮坂郁; 猪飼泰史
    Sep. 2022
    Sep. 2022 - Sep. 2022, Japanese, Oral presentation
  • 溶融ガラスの流下シミュレーションによるガラス溶融炉底部の状態予測               
    小山凌矢; 本間俊司; 宮坂郁; 猪飼泰史
    Sep. 2022
    Sep. 2022 - Sep. 2022, Japanese, Oral presentation
  • カーテンコーティングの数値シミュレーション ~接触角が塗布挙動に及ぼす影響~               
    冨樫昂太; 本間俊司
    Sep. 2022
    Sep. 2022 - Sep. 2022, Japanese, Oral presentation
  • インクジェット印刷における液滴吐出および移動する基材への着弾シミュレーション               
    多田裕太; 後藤隆佑; 本間俊司
    Jun. 2022
    Jun. 2022 - Jun. 2022, Japanese, Oral presentation
  • 粘着剤カーテン塗布の数値シミュレーション               
    本間俊司; 千葉康太郎; 冨樫昂太
    Mar. 2022
    Mar. 2022 - Mar. 2022, Japanese, Oral presentation
  • 二流体モデルによる気固反応装置のシミュレーション               
    宮下大空; 千葉康太郎; 本間俊司
    Mar. 2022
    Mar. 2022 - Mar. 2022, Japanese, Oral presentation
  • コンポストから発生するアンモニア回収プロセスの検討               
    羽田大起; 本間俊司; 髙倉滿
    Mar. 2022
    Mar. 2022 - Mar. 2022, Japanese, Oral presentation
  • カーテンコーティングにおける流下液膜の安定化に関する数値的研究               
    千葉康太郎; 冨樫昂太; 本間俊司; 梅宮弘和; 小田純久; 平原裕行
    Sep. 2021
    Sep. 2021 - Sep. 2021, Japanese, Oral presentation
  • カーテンコーティングの塗布条件               
    冨樫昂太; 千葉康太郎; 本間俊司; 大久保洋祐; 梅宮弘和; 小田純久
    Sep. 2021
    Sep. 2021 - Sep. 2021, Japanese, Oral presentation
  • 流下する溶融ガラスの伝熱および流動解析               
    小山凌矢; 千葉康太郎; 本間 俊司; 宮坂郁; 猪飼泰史
    Sep. 2021
    Sep. 2021 - Sep. 2021, Japanese, Oral presentation
  • インクジェット印刷における液滴吐出および着弾シミュレーション               
    多田裕太; 本間俊司
    Sep. 2021
    Sep. 2021 - Sep. 2021, Japanese, Oral presentation
  • Numerical Simulation of Flowdown of Molten Glass for Estimation of Temperature at the Bottom of a Melter               
    Ryoya Koyama; Koutaro Chiba; Shunji Homma; Iku Miyasaka; Hiroshi Ikai
    Sep. 2021
    Sep. 2021 - Sep. 2021, Japanese, Oral presentation
  • 移動する平面への液滴着弾シミュレーション               
    吉沼優輝; 多田裕太; 本間俊司
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Poster presentation
  • 粘着剤のカーテン塗布実験               
    千葉康太郎; 冨樫昂太; 本間俊司; 大久保洋佑; 梅宮弘和; 小田純久
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Poster presentation
  • Fluorination Method for Classification of the Waste Generated by Fuel Debris Removal (3) Development of Numerical Simulation Model for Fluorination Method               
    Shunji Homma; Daisuke Watanabe; Keita Endo
    2021 Annual Meeting of The Atomic Energy Society of Japan, Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • Fluorination Method for Classification of the Waste Generated by Fuel Debris Removal (1) Development Plan               
    Daisuke Watanabe; Keita Endo; Akira Sasahira; Shunji Homma; Masahide Takano; Ayako Sudo
    2021 Annual Meeting of The Atomic Energy Society of Japan, Mar 17, 2021, Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • フッ化反応装置の数値解析               
    齋藤 武秋; 本間俊司
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • カーテン塗布の三次元数値解析               
    冨樫昂太; 千葉康太郎; 本間俊司
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • 高粘性流体におけるキャビティ内自然対流の数値解析               
    佐々木龍夜; 千葉康太郎; 本間俊司
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • 溶融ガラスの伝熱および流動解析               
    小山凌矢; 千葉康太郎; 本間俊司
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • インクジェットノズルからの液滴生成および着弾シミュレーション               
    多田裕太; 吉沼優輝; 本間俊司
    Mar. 2021
    Mar. 2021 - Mar. 2021, Japanese, Oral presentation
  • インクジェットノズルからの液滴吐出シミュレーション               
    吉沼優輝; 加藤優香; 本間俊司
    Sep. 2020
    Sep. 2020 - Sep. 2020, Japanese, Oral presentation
  • カーテンコーティングの数値シミュレーション               
    千葉康太郎; 千葉匠; 中島遼太; 本間俊司; 梅宮弘和; 小田純久
    Sep. 2020
    Sep. 2020 - Sep. 2020, Japanese, Oral presentation
  • Front-Tracking法による単一液滴の数値解析               
    松原聖; 本間俊司
    Mar. 2020
    Mar. 2020 - Mar. 2020, Japanese, Poster presentation
  • インクジェットノズルからの液滴吐出シミュレーション               
    吉沼優輝; 加藤優香; 本間俊司
    Mar. 2020
    Mar. 2020 - Mar. 2020, Japanese, Poster presentation
  • カーテンコーティングの数値シミュレーション               
    千葉康太郎; 千葉匠; 中島遼太; 本間俊司; 梅宮弘和; 小田純久
    Mar. 2020
    Mar. 2020 - Mar. 2020, Japanese, Poster presentation
  • 粘着剤塗布膜に生じるピンホールの成長速度               
    千葉匠; 中島遼太; 本間俊司; 大久保洋佑; 梅宮弘和; 小田純久
    Mar. 2020
    Mar. 2020 - Mar. 2020, Japanese, Poster presentation
  • 変形を伴う液滴の抵抗係数               
    松原聖; 本間俊司
    Aug. 2019
    Aug. 2019 - Aug. 2019, Japanese, Oral presentation
  • はじきの成長に及ぼす接触角の影響               
    千葉匠; 高田敦哉; 中島遼太; 本間俊司; 大久保洋佑; 梅宮弘和; 小田純久
    Aug. 2019
    Aug. 2019 - Aug. 2019, Japanese, Oral presentation
  • カーテンコーティングの三次元数値シミュレーション               
    千葉康太郎; 中島遼太; 千葉匠; 本間俊司; 梅宮弘和; 小田純久
    Aug. 2019
    Aug. 2019 - Aug. 2019, Japanese, Oral presentation
  • 層流膜状凝縮の三次元数値解析               
    吉沼優輝; 漆原慧; 本間俊司
    Mar. 2019
    Mar. 2019 - Mar. 2019, Japanese, Poster presentation
  • 粘着剤の高速塗布に関する研究               
    本間俊司; 中島遼太; 千葉匠; 姜東赫; 平原裕行; 大久保洋佑; 梅宮弘和; 小田純久
    Mar. 2019
    Mar. 2019 - Mar. 2019, Japanese, Oral presentation
  • 静止流体中を上昇する楕円体液滴の運動               
    松原聖; 本間俊司
    Mar. 2019
    Mar. 2019 - Mar. 2019, Japanese, Poster presentation
  • カーテンコーティングにおける塗膜形成の数値解析               
    中島遼太; 千葉匠; 本間俊司; 梅宮弘和; 小田純久
    Sep. 2018
    Sep. 2018 - Sep. 2018, Japanese, Oral presentation
  • 粘着剤塗膜に生成するはじきの成長               
    千葉匠; 中島遼太; 本間俊司; 大久保洋佑; 梅宮弘和; 小田純久
    Sep. 2018
    Sep. 2018 - Sep. 2018, Japanese, Oral presentation
  • 静止流体中を上昇する液滴の運動               
    松原聖; 本間俊司
    Sep. 2018
    Sep. 2018 - Sep. 2018, Japanese, Oral presentation
  • Numerical Simulation of Cratering in Coating Film               
    NAKAJIMA Ryota; CHIBA Takumi; HOMMA Shunji
    Aug. 2018
    Aug. 2018 - Aug. 2018, Japanese, Oral presentation
  • 高粘性流体中を沈降する液滴の終端速度               
    吉河環; 中島遼太; 本間俊司; 宮坂郁; 内山翠; 藤原寛明
    Mar. 2018
    Mar. 2018 - Mar. 2018, Japanese, Poster presentation
  • 静止流体中で上昇する液滴の終端速度と抵抗係数               
    松原聖; 吉河環; 本間俊司
    Mar. 2018
    Mar. 2018 - Mar. 2018, Japanese, Poster presentation
  • 膜状凝縮の三次元数値シミュレーション               
    漆原慧; 中島遼太; 本間俊司
    Mar. 2018
    Mar. 2018 - Mar. 2018, Japanese, Poster presentation
  • 塗膜に生成するはじきの成長速度               
    千葉匠; 中島遼太; 本間俊司; 山田岳; 梅宮弘和; 小田純久
    Mar. 2018
    Mar. 2018 - Mar. 2018, Japanese, Poster presentation
  • カーテンコーティングの数値シミュレーション               
    中島遼太; 千葉匠; 本間俊司; 山田岳; 梅宮弘和; 小田純久
    Mar. 2018
    Mar. 2018 - Mar. 2018, Japanese, Poster presentation
  • 放射性廃棄物の減容化に向けたガラス固化技術の基盤研究 (48)ガラス溶融炉内の白金族粒子挙動の解明~数値解析によるプルーム沈降挙動の解析~               
    本間 俊司; 吉河 環; 中島 遼太; 宮坂 郁; 内山 翠; 藤原 寛明
    Sep. 2017
    Sep. 2017 - Sep. 2017, Japanese, Oral presentation
  • 浮力で上昇する単一液滴の数値解析               
    本間俊司; 吉河 環
    Aug. 2017
    Aug. 2017 - Aug. 2017, Japanese, Oral presentation
  • 静止流体中で上昇・下降する液滴の抵抗係数               
    松原聖; 吉河環; 本間俊司
    Aug. 2017
    Aug. 2017 - Aug. 2017, Japanese, Oral presentation
  • 高速塗布の数値シミュレーションに関する基礎的研究               
    千葉匠; 中島遼太; 本間俊司
    Aug. 2017
    Aug. 2017 - Aug. 2017, Japanese, Oral presentation
  • OpenFOAMによる円柱表面の膜状凝縮の数値解析               
    漆原慧・本間俊司
    Aug. 2017
    Aug. 2017 - Aug. 2017, Japanese, Oral presentation
  • Computations of Buoyancy Driven Motion of a Single Droplet in Another Immiscible Liquid               
    Shunji Homma; Tamaki Yoshikawa
    ASME 2017 Fluids Engineering Division Summer Meeting (FEDSM2017), Jul. 2017
    Jul. 2017 - Aug. 2017, English, Oral presentation
  • Computations of the Motion of a Deformable Droplet in Liquid-liquid System               
    Tamaki Yoshikawa; Shunji Homma
    3rd International Symposium on Multiscale Multiphase Process Engineering (MMPE2017), May 2017
    May 2017 - May 2017, English, Poster presentation
  • Computations of Rayleigh-Taylor instability with highly viscous fluids               
    Ryota Nakajima; Shunji Homma
    3rd International Symposium on Multiscale Multiphase Process Engineering (MMPE2017), May 2017
    May 2017 - May 2017, English, Poster presentation
  • 高粘性レイリーテイラー不安定問題におけるプルームの運動               
    中島遼太; 本間俊司
    Mar. 2017
    Mar. 2017 - Mar. 2017, Japanese, Poster presentation
  • 液液系における単一液滴の数値解析               
    吉河環; 本間俊司
    Mar. 2017
    Mar. 2017 - Mar. 2017, Japanese, Poster presentation
  • 液々系における単一液滴の抵抗係数               
    本間俊司; 佐藤太治; 吉河環; 千葉覚志
    Sep. 2016
    Sep. 2016 - Sep. 2016, Japanese, Oral presentation
  • 静止流体中を上昇する単一液滴の数値解析               
    佐藤太治; 本間俊司
    Aug. 2016
    Aug. 2016 - Aug. 2016, Japanese, Oral presentation
  • 三次元高粘性レイリー・テイラー不安定問題の数値解析               
    中島遼太・本間俊司・古閑二郎
    Mar. 2016
    Mar. 2016 - Mar. 2016, Japanese, Poster presentation
  • 高粘性流体中を上昇する単一気泡の運動               
    吉河環; 本間俊司; 古閑二郎
    Mar. 2016
    Mar. 2016 - Mar. 2016, Japanese, Poster presentation
  • 静止液体中を上昇する単一液滴のシミュレーション               
    本間俊司; 佐藤太治; 古閑二郎
    Sep. 2015
    Sep. 2015 - Sep. 2015, Japanese, Oral presentation
  • Front-Tracking法によるレイリー・テイラー不安定の数値シミュレーション               
    中島遼太; 本間俊司; 古閑二郎
    Sep. 2015
    Sep. 2015 - Sep. 2015, Japanese, Oral presentation
  • 高粘性レイリー・テイラー不安定性の数値シミュレーション               
    本間俊司; 高見澤崇; 古閑二郎; 内山翠; 藤原寛明; 酒井幹夫
    Aug. 2015
    Aug. 2015 - Aug. 2015, Japanese, Oral presentation
  • 高粘性レイリー・テイラー不安定の数値解析               
    本間俊司; 高見澤崇; 古閑二郎; 内山翠; 藤原寛明; 酒井幹夫
    Mar. 2015
    Mar. 2015 - Mar. 2015, Japanese, Oral presentation
  • 混じり合わない2流体界面の運動               
    古閑二郎; 古閑純一; 本間俊司
    Mar. 2015
    Mar. 2015 - Mar. 2015, Japanese, Oral presentation
  • 液液系における単一液滴の上昇シミュレーション               
    佐藤太治; 馬場諒馬; シャザハナニ; 本間俊司; 古閑二郎
    Mar. 2015
    Mar. 2015 - Mar. 2015, Japanese, Poster presentation
  • MATLABによる数値シミュレーションを利用した学生実験の取組み               
    本間俊司
    Nov. 2014
    Nov. 2014 - Nov. 2014, Japanese, Oral presentation
  • 液液系における単一液滴の運動に関する数値シミュレーション               
    佐藤太治; 本間俊司; 古閑二郎
    Nov. 2014
    Nov. 2014 - Nov. 2014, Japanese, Oral presentation
  • フィン周りにおける膜状凝縮の数値計算               
    中島遼太; 本間俊司; 古閑二郎
    Nov. 2014
    Nov. 2014 - Nov. 2014, Japanese, Oral presentation
  • フロー・フォーカシングによる複合液滴の生成機構               
    本間俊司; キム テソン; 古閑二郎
    Sep. 2014
    Sep. 2014 - Sep. 2014, Japanese, Oral presentation
  • 体積変化を伴う固化プロセス計算のためのフロントトラッキング法               
    Vu Truong; Tryggvason Gretar; 本間 俊司; Wells John; 高倉 秀行
    Sep. 2014, [Invited]
    Sep. 2014 - Sep. 2014, Japanese, Invited oral presentation
  • フェーズフィールド法によるステファン問題の数値解析               
    古閑二郎; 古閑純一; 本間俊司
    Sep. 2014
    Sep. 2014 - Sep. 2014, Japanese, Oral presentation
  • Flow Focusingによるマイクロカプセル生成の数値シミュレーション               
    本間俊司; KIM Taeseon; 古閑二郎
    Jul. 2014
    Jul. 2014 - Jul. 2014, Japanese, Oral presentation
  • 液液系,液滴生成におけるDripping-Jetting遷移               
    本間俊司; 古閑二郎
    Mar. 2014
    Mar. 2014 - Mar. 2014, Japanese, Oral presentation
  • 二重ノズルから生成する複合液滴のシミュレーション               
    キム テソン; 本間俊司; 古閑二郎
    Sep. 2013
    Sep. 2013 - Sep. 2013, Japanese, Oral presentation
  • トポロジー最適化で得られる連続構造体の一意性               
    古閑二郎; 古閑純一; 本間俊司
    Sep. 2013
    Sep. 2013 - Sep. 2013, Japanese, Oral presentation
  • フィン表面上の膜状凝縮の数値解析               
    金子晃; 本間俊司; 古閑二郎
    Sep. 2013
    Sep. 2013 - Sep. 2013, Japanese, Oral presentation
  • 連続構造体のトポロジー最適化でのチェッカーボード問題               
    古閑二郎; 古閑純一; 本間俊司
    Sep. 2013
    Sep. 2013 - Sep. 2013, Japanese, Oral presentation
  • 固体表面上の膜状凝縮の数値解析               
    本間俊司; 金子晃; 古閑二郎
    Mar. 2013
    Mar. 2013 - Mar. 2013, Japanese, Oral presentation
  • 固体表面における膜上凝縮および凝縮液の流動シミュレーション               
    本間俊司; 金子晃; 徳永佑太; 古閑二郎
    Mar. 2013, [Invited]
    Mar. 2013 - Mar. 2013, Japanese, Invited oral presentation
  • 複合液滴の生成シミュレーション               
    本間俊司; 森口公太; キム テソン; 古閑二郎
    Sep. 2012
    Sep. 2012 - Sep. 2012, Japanese, Oral presentation
  • 2成分複合材料の構造最適化によるトポロジー設計               
    古閑二郎; 古閑純一; 本間俊司
    Sep. 2012
    Sep. 2012 - Sep. 2012, Japanese, Oral presentation
  • 均質化法による複合材料の物性評価               
    古閑二郎; 本間俊司; 古閑純一
    Mar. 2012
    Mar. 2012 - Mar. 2012, Japanese, Oral presentation
  • 円柱表面上の膜凝縮の数値解析               
    本間俊司; 徳永佑太; 古閑二郎
    Mar. 2012
    Mar. 2012 - Mar. 2012, Japanese, Oral presentation
  • 二重ノズルから生成する複合液滴の数値解析               
    森口公太; 本間俊司; 古閑二郎
    Sep. 2011
    Sep. 2011 - Sep. 2011, Japanese, Oral presentation
  • マイクロカプセル製造技術とその数値シミュレーション               
    本間俊司
    Sep. 2011, [Invited]
    Sep. 2011 - Sep. 2011, Japanese, Invited oral presentation
  • 円柱表面における非定常凝縮シミュレーション               
    徳永佑太; 本間俊司; 古閑二郎
    Sep. 2011
    Sep. 2011 - Sep. 2011, Japanese, Oral presentation
  • 二重ノズルから生成する複合液滴のシミュレーション               
    森口公太; 本間俊司; 古閑二郎
    Mar. 2011
    Mar. 2011 - Mar. 2011, Japanese, Oral presentation
  • 高分子ネットワークの弾性               
    古閑二郎; 多喜田勇一; 本間俊司
    Mar. 2011
    Mar. 2011 - Mar. 2011, Japanese, Oral presentation
  • 三流体フロントトラッキング法による複合液滴のシミュレーション               
    本間俊司; 横塚宗之; 田中利弘; 古閑二郎
    Sep. 2010
    Sep. 2010 - Sep. 2010, Japanese, Oral presentation
  • データリコンシリエーションおよびグロスエラー検知技術の再処理計量管理への応用               
    本間俊司; 渡辺眞樹男; 古閑二郎; 松本史朗
    Mar. 2010
    Mar. 2010 - Mar. 2010, Japanese, Oral presentation
  • 円盤状液膜の収縮シミュレーション               
    本間俊司; 岡大樹; 古閑二郎
    Mar. 2010
    Mar. 2010 - Mar. 2010, Japanese, Oral presentation
  • 将来再処理プロセスでの窒素酸化物クローズドシステム開発(6)将来湿式再処理プロセスへの適用性検討               
    高奥芳伸; 服部功; 渡部哲也; 岡庭賢明; 新谷貞夫; 本間俊司; 高野雅人; 赤井芳恵; 鈴木泰博
    Sep. 2009
    Sep. 2009 - Sep. 2009, Japanese, Oral presentation
  • 外部流体の流れを利用したマイクロ液滴生成の操作条件               
    本間俊司; 横塚宗之; 古閑二郎
    Sep. 2009
    Sep. 2009 - Sep. 2009, Japanese, Oral presentation
  • 三流体フロントトラッキング法による複合液滴のシミュレーション               
    本間俊司; 横塚宗之; 古閑二郎
    Aug. 2009
    Aug. 2009 - Aug. 2009, Japanese, Oral presentation
  • 絡み合い直鎖状高分子の伸長流動解析               
    古閑二郎; 進藤正則; 本間俊司
    Mar. 2009
    Mar. 2009 - Mar. 2009, Japanese, Oral presentation
  • 複合液滴のシミュレーションのための三流体フロントトラッキング法の開発               
    本間俊司; 横塚宗之; 古閑二郎
    Mar. 2009
    Mar. 2009 - Mar. 2009, Japanese, Oral presentation
  • 平板に衝突する液滴のダイナミクス               
    本間俊司; 作田優一; 古閑二郎
    Sep. 2008
    Sep. 2008 - Sep. 2008, Japanese, Oral presentation
  • 将来再処理プロセスでの窒素酸化物クローズドシステム開発(4)将来湿式再処理プロセスへの適用性検討(経過)               
    高奥芳伸; 服部功; 渡部哲也; 岡庭賢明; 新谷貞夫; 本間俊司; 田中憲治; 赤井芳恵; 藤田昭
    Sep. 2008
    Sep. 2008 - Sep. 2008, Oral presentation
  • 金属電解法乾式再処理プロセス機器の実用化要素技術の開発(8)-融体中における粉末状固体成分の輸送解析-               
    本間俊司; 土方孝敏; 小山正史
    Sep. 2008
    Sep. 2008 - Sep. 2008, Japanese, Oral presentation
  • 円盤状液膜の収縮               
    岡大樹; 本間俊司; 古閑二郎
    Aug. 2008
    Aug. 2008 - Aug. 2008, Japanese, Oral presentation
  • 平板に衝突する液滴のシミュレーション               
    本間俊司; 作田優一; 古閑二郎
    Aug. 2008
    Aug. 2008 - Aug. 2008, Japanese, Oral presentation
  • 外部流体の流れを利用したジェットおよび液滴の生成               
    横塚宗之; 本間俊司; 古閑二郎
    Aug. 2008
    Aug. 2008 - Aug. 2008, Japanese, Oral presentation
  • 次世代高経済性再処理「FLUOREX法」の開発-(15)フッ化シミュレーション-               
    本間俊司; 笹平朗; 星野国義; 河村文雄
    Mar. 2008
    Mar. 2008 - Mar. 2008, Japanese, Oral presentation
  • 円管内を自由落下する単一液滴の運動の数値解析               
    本間俊司; 山端信彦; 古閑二郎
    Mar. 2008
    Mar. 2008 - Mar. 2008, Japanese, Oral presentation
  • 次世代高経済性再処理「FLUOREX法」の開発-(7)フッ化シミュレーションの開発-               
    本間俊司; 笹平朗; 星野国義; 河村文雄
    Sep. 2007
    Sep. 2007 - Sep. 2007, Japanese, Oral presentation
  • 将来再処理プロセスでの窒素酸化物クローズドシステム開発(1)全体計画と経過報告               
    高奥芳伸; 服部功; 隅田幸生; 渡部哲也; 守屋登康; 新谷貞夫; 本間俊司; 鈴木泰博; 赤井芳恵
    Sep. 2007
    Sep. 2007 - Sep. 2007, Japanese, Oral presentation
  • 高分子ゲルの膨潤過程               
    古閑二郎; 青木聡; 清田敦; 木村圭; 本間俊司
    Sep. 2007
    Sep. 2007 - Sep. 2007, Japanese, Oral presentation
  • Transition of Scaling for Pinch-Off of an Axisymmetric Liquid Ligament in Another Immiscible Liquid               
    Shunji Homma; Jiro Koga
    5th Joint JSME/ASME Fluids Engineering Conference (FEDSM2007), Jul. 2007
    Jul. 2007 - Aug. 2007, English, Oral presentation
  • 二流体系における液柱のピンチオフ               
    本間俊司; 降幡典幸; 古閑二郎
    Jun. 2007
    Jun. 2007 - Jun. 2007, Japanese, Oral presentation
  • AlCl3-NH3混合ガスによるAlN薄膜形成のCVDシミュレーション               
    福原芳樹; 酒井政道; 本間俊司
    Mar. 2007
    Mar. 2007 - Mar. 2007, Japanese, Oral presentation
  • 中間生成物層を形成する気固反応のモデル~粒子の膨張・収縮を考慮した未反応核モデル~               
    本間俊司; 魚井悠紀; 根岸悟; 古閑二郎; 松本史朗; BRAUN Artur
    Mar. 2007
    Mar. 2007 - Mar. 2007, Japanese, Oral presentation
  • 非ニュートン流体系におけるジェットの生成シミュレーション               
    本間俊司; 秋元梢; 古閑二郎; 松本史朗
    Mar. 2007
    Mar. 2007 - Mar. 2007, Japanese, Oral presentation
  • 絡み合った直鎖状高分子液体の構成方程式               
    古閑二郎; 木村圭; 本間俊司
    2007
    2007 - 2007
  • 金属電解法乾式再処理プロセス機器の実用化要素技術の開発(3)-融体中における粉末状固体成分の流動挙動評価手法の開発-               
    本間俊司; 松本史郎; 土方孝敏
    Sep. 2006
    Sep. 2006 - Sep. 2006, Japanese, Oral presentation
  • 将来再処理プロセスでのナトリウム塩リサイクルの検討               
    隅田幸生; 守屋登康; 新谷貞夫; 高奥芳伸; 本間俊司; 大谷吉邦; 小林健太郎; 田中憲治
    Sep. 2006
    Sep. 2006 - Sep. 2006, Japanese, Oral presentation
  • 絡み合い直鎖状高分子の構成方程式               
    古閑二郎; 木村圭; 本間俊司
    Sep. 2006
    Sep. 2006 - Sep. 2006, Japanese, Oral presentation
  • ジェットのピンチオフとサテライト液滴の生成に関する数値解析               
    本間俊司; 水崎浩一; 古閑二郎; 松本史朗
    Sep. 2006
    Sep. 2006 - Sep. 2006, Japanese, Oral presentation
  • 中間生成物層を形成する二段階反応の気固反応モデル               
    本間俊司; 魚井悠紀; 古閑二郎; 松本史朗
    Aug. 2006
    Aug. 2006 - Aug. 2006, Japanese, Oral presentation
  • FLUOREX法再処理プロセスに用いるフレーム炉の反応流シミュレーション               
    本間俊司; 大塚雅哉; 河村文雄
    Aug. 2006
    Aug. 2006 - Aug. 2006, Japanese, Oral presentation
  • Flowsheet Analysis of U-Pu Co-Crystallization Process as a New Reprocessing Systems               
    ShunjiHomma; Jun-ichi Ishii; Jiro Koga; Shiro Matsumoto; Toshiaki Kikuchi; Takahiro Chikazawa; Atsuhiro Shibata
    14th International Conference on Nuclear Engineering, ICONE14, Jul. 2006
    Jul. 2006 - Jul. 2006, English, Oral presentation
  • Development of Crystallizer for Future Aqueous Reprocessing Process               
    Tadahiro Washiya; Toshiaki Kikuchi; Atsuhiro Shibata; Shunji Homma
    14th International Conference on Nuclear Engineering, ICONE14, Jul. 2006
    Jul. 2006 - Jul. 2006, English, Oral presentation
  • 単一ノズルから生成する液滴およびジェットの運動               
    本間俊司; 古閑二郎; 松本史朗
    Mar. 2006
    Mar. 2006 - Mar. 2006, Japanese, Oral presentation
  • サテライト液滴生成の数値解析               
    本間俊司; 古閑二郎; 松本史朗
    Jan. 2006
    Jan. 2006 - Jan. 2006, Japanese, Oral presentation
  • 液柱の運動に関する数値解析               
    本間俊司; 古閑二郎; 松本史朗
    Sep. 2005
    Sep. 2005 - Sep. 2005, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発(VII)-晶析装置の工学規模試験(2)-               
    近沢孝弘; 草間誠; 田巻喜久; 菊池俊明; 柴田淳広; 小山智造; 本間俊司; 古閑二郎; 松本史朗
    Sep. 2005
    Sep. 2005 - Sep. 2005, Japanese, Oral presentation
  • 次世代高経済性再処理「FLUOREX法」の開発(1)-PuF6分解部の反応モデル-               
    本間俊司; 大塚雅哉; 河村文雄
    Sep. 2005
    Sep. 2005 - Sep. 2005, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発(VIII)-プロセスシステムの評価・検討-               
    石井淳一; 本間俊司; 古閑二郎; 松本史朗; 近沢孝弘; 菊池俊明; 柴田淳広; 小山智造
    Sep. 2005
    Sep. 2005 - Sep. 2005, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発(VI)-照射済燃料溶解液を用いたU,Pu共晶析試験-               
    柴田淳広; 大山孝一; 小山智造; 中村和仁; 近沢孝弘; 菊池俊明; 本間俊司; 古閑二郎; 松本史朗
    Sep. 2005
    Sep. 2005 - Sep. 2005, Japanese, Oral presentation
  • 静止流体中における液柱の収縮および分裂               
    本間俊司; 古閑二郎; 松本史朗
    Sep. 2005
    Sep. 2005 - Sep. 2005, Japanese, Oral presentation
  • 球減少モデルおよび未反応核モデルを組合せた気固反応モデル               
    本間俊司; 古閑二郎; 松本史朗
    Mar. 2005
    Mar. 2005 - Mar. 2005, Japanese, Oral presentation
  • 二酸化ウランのフッ化反応速度解析               
    松本史朗; 尾形信二; 本間俊司; 古閑二郎
    Mar. 2005
    Mar. 2005 - Mar. 2005, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発(IV)-U,Pu共晶析試験-               
    柴田淳広; 大山孝一; 小山智造; 中村和仁; 近沢孝弘; 菊池俊明; 本間俊司; 古閑二郎; 松本史朗
    Sep. 2004
    Sep. 2004 - Sep. 2004, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発(V)-晶析装置の工学規模試験-               
    近沢孝弘; 田巻喜久; 菊池俊明; 半沢正利; 柴田淳広; 小山智造; 本間俊司; 古閑二郎; 松本史朗
    Sep. 2004
    Sep. 2004 - Sep. 2004, Japanese, Oral presentation
  • 細孔および外部流れを利用した液滴生成に関する数値解析               
    町田勝行; 本間俊司; 古閑二郎; 松本史朗
    Aug. 2004
    Aug. 2004 - Aug. 2004, Japanese, Oral presentation
  • 単一ノズルから静止流体中に生成するジェットとその液滴への分裂               
    本間俊司; 笹田朋宏; 古閑二郎; 松本史朗
    Aug. 2004
    Aug. 2004 - Aug. 2004, Japanese, Oral presentation
  • 非ニュートン流体系におけるジェットの液滴への分裂               
    秋元梢; 本間俊司; 古閑二郎; 松本史朗
    Aug. 2004
    Aug. 2004 - Aug. 2004, Japanese, Oral presentation
  • 液-液系における単一ノズルからの液滴生成               
    本田晴久; 本間俊司; 古閑二郎; 松本史朗
    Aug. 2004
    Aug. 2004 - Aug. 2004, Japanese, Oral presentation
  • 非ニュートンジェットの生成とその液滴への分裂に関する数値解析               
    秋元梢; 本間俊司; 古閑二郎; 松本史朗
    Apr. 2004
    Apr. 2004 - Apr. 2004, Japanese, Oral presentation
  • 軽水炉先進再処理システム「FLUOREX法」の開発 (20)-フッ素の熱解離を考慮したフレーム炉解析-               
    大塚雅哉; 笹平朗; 星野国義; 河村文雄; 本間俊司; 天野治
    Mar. 2004
    Mar. 2004 - Mar. 2004, Japanese, Oral presentation
  • 軽水炉先進再処理システム「FLUOREX法」の開発 (21)-小規模フレーム炉のフッ化反応解析-               
    尾形信二; 本間俊司; 古閑二郎; 松本史朗; 笹平朗; 河村文雄
    Mar. 2004
    Mar. 2004 - Mar. 2004, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発 (III)-母液リサイクル操作の物質収支-               
    本間俊司; 石井淳一; 古閑二郎; 松本史朗; 近沢孝弘; 菊池俊明; 半沢正利; 柴田淳広; 小山智造
    Mar. 2004
    Mar. 2004 - Mar. 2004, Japanese, Oral presentation
  • 共晶析法による再処理プロセスの開発 (II)-晶析操作の物質収支               
    石井淳一; 本間俊司; 古閑二郎; 松本史朗; 近沢孝弘; 菊池俊明; 半沢正利; 柴田淳広; 小山智造
    Mar. 2004
    Mar. 2004 - Mar. 2004, Japanese, Oral presentation
  • ジェットの分裂に関するダイナミックス               
    本間俊司; 本田晴久; 町田勝行; 秋元梢; 笹田朋宏; 古閑二郎; 松本史朗
    Sep. 2003
    Sep. 2003 - Sep. 2003, Japanese, Oral presentation
  • Development of Reprocessing Process by Plutonium Cocrystallization               
    Toshiaki Kikuchi; Tomozo Koyama; Shunji Homma
    3rd Topical Conference on Plutonium and Actinides, Jul. 2003
    Jul. 2003 - Jul. 2003, English, Oral presentation
  • 共晶析法による再処理プロセスの開発               
    近沢孝弘; 田巻喜久; 菊池俊明; 半沢正利; 柴田淳広; 野村和則; 小山智造; 本間俊司; 松本史朗
    Mar. 2003
    Mar. 2003 - Mar. 2003, Japanese, Oral presentation
  • 軽水炉先進再処理システム「FLUOREX法」の開発 (13) PuO2のフッ化反応速度定数評価               
    尾形信二; 本間俊司; 古閑二郎; 松本史朗; 笹平朗; 田川久人; 河村文雄
    Mar. 2003
    Mar. 2003 - Mar. 2003, Japanese, Oral presentation
  • 軽水炉先進再処理システム「FLUOREX法」の開発 (14) フレーム炉解析技術の開発               
    田川久人; 笹平朗; 河村文雄; 本間俊司; 天野治
    Mar. 2003
    Mar. 2003 - Mar. 2003, Japanese, Oral presentation
  • 単一ノズルから生成する液滴の数値シミュレーション               
    本間俊司; 本田晴久; 古閑二郎; 松本史朗
    Mar. 2003
    Mar. 2003 - Mar. 2003, Japanese, Oral presentation
  • 軽水炉先進再処理システム「FLUOREX法」の開発 12 二酸化ウランのフッ化反応解析               
    尾形信二; 本間俊司; 松本史朗; 笹平朗; 河村文雄
    Sep. 2002
    Sep. 2002 - Sep. 2002, Japanese, Oral presentation
  • 小型改質型燃料電池用マイクロ改質器の流路及び熱設計               
    山本忠夫; 本間俊司; 古閑二郎
    Sep. 2002
    Sep. 2002 - Sep. 2002, Japanese, Oral presentation
  • マイクロ抽出器によるPurex法再処理プラントの可能性               
    本間俊司; 古閑二郎; 松本史朗
    Mar. 2002
    Mar. 2002 - Mar. 2002, Japanese, Oral presentation
  • 液々系におけるジェットの多節分裂               
    本間俊司; 古閑二郎; 松本史朗
    Mar. 2002
    Mar. 2002 - Mar. 2002, Japanese, Oral presentation
  • Formation of a Jet and Its Breakup into Drops in Liquid-Liquid Systems.               
    本間俊司; 古閑二郎; 松本史朗; TRYGGVASON G
    第51回理論応用力学講演会, Jan. 2002
    Jan. 2002 - Jan. 2002, Japanese, Oral presentation
  • 変形を伴う単一液滴の物質移動               
    本間俊司; 古閑二郎; 松本史朗
    Sep. 2001
    Sep. 2001 - Sep. 2001, Japanese, Oral presentation
  • Front-Tracking法による液滴の運動及び物質移動の解析               
    本間俊司; 古閑二郎; 松本史朗
    Apr. 2001
    Apr. 2001 - Apr. 2001, Japanese, Oral presentation
  • ジェット分裂のピンチオフダイナミックス               
    本間俊司; 古閑二郎; 松本史朗; TRYGGVASON G
    Sep. 2000
    Sep. 2000 - Sep. 2000, Japanese, Oral presentation
  • 物質移動を伴うジェットの液滴への分裂               
    本間俊司; 古閑二郎; 松本史朗; TRYGGVASON G
    Mar. 2000
    Mar. 2000 - Mar. 2000, Japanese, Oral presentation
  • 液々系におけるジェットの生成とその液滴への分裂               
    本間俊司; 古閑二郎; 松本史朗; TRYGGVASON G
    Sep. 1999
    Sep. 1999 - Sep. 1999, Japanese, Oral presentation
  • Extraction Behavior of Np in Reprocessing Process Using n-C3H7CHO.               
    高梨光博; 本間俊司; 平下智美; 古閑二郎; 松本史朗
    日本原子力学会1997年秋の大会, Sep. 1997
    Sep. 1997 - Sep. 1997, Japanese, Oral presentation
  • Process Flowsheet Analysis for Hydrazoic Acid in Purex Process. (II).               
    本間俊司; 古閑二郎; 松本史朗; 林直美; 武田伸荘
    日本原子力学会1996年秋の大会, Sep. 1996
    Sep. 1996 - Sep. 1996, Japanese, Oral presentation
  • Distribution Behavior of Np in Co-decontamination Process.               
    高梨光博; 滝沢優子; 本間俊司; 古閑二郎; 松本史朗; 小沢正基
    日本原子力学会1996年秋の大会, Sep. 1996
    Sep. 1996 - Sep. 1996, Japanese, Oral presentation
  • Process Flowsheet Analysis of Hydrazoic Acid in Purex Process.               
    本間俊司; 古閑二郎; 松本史朗; 林直美; 武田伸荘
    日本原子力学会1996年春の年会, Mar. 1996
    Mar. 1996 - Mar. 1996, Japanese, Oral presentation
  • Oxidation Reaction of U(IV) in Nitric Acid Solution.               
    本間俊司; 橋本孝和; 高梨光博; 古閑二郎; 松本史朗
    日本原子力研究所JAERI-Conf, 1996
    1996 - 1996
  • Flowsheeting System for Design and Analysis of Reprocessing Process               
    Susumu Sakamoto; Shunji Homma; Jiro Koga; Shiro Matsumoto
    4th International Conference on Nuclear Fuel Reprocessing and Waste Management (RECOD'94), Apr. 1994
    Apr. 1994 - Apr. 1994, English, Poster presentation
  • Evaluation of Aqueous Reactions in PUREX Extraction Process               
    Shunji Homma; Jiro Koga; Shiro Matsumoto
    4th International Conference on Nuclear Fuel Reprocessing and Waste Management (RECOD'94), Apr. 1994
    Apr. 1994 - Apr. 1994, English, Poster presentation
  • Analysis of Np Redox Reaction in Co-decontamination Process.               
    本間俊司; 高梨光博; 古閑二郎; 松本史朗; 小泉健治; 小沢正基
    日本原子力学会1993年秋の大会, Oct. 1993
    Oct. 1993 - Oct. 1993, Japanese, Oral presentation
  • Process Flowsheet Desing and Analysis System for Fuel Reprocessing.               
    本間俊司; 坂本進; 古閑二郎; 松本史朗
    日本原子力学会春の年会要旨集, 1992
    1992 - 1992
  • Simulation of continuous dissolution by use of dissolution rate equation.               
    本間俊司; 兼平修; 古閑二郎; 松本史朗; 河田東海夫
    日本原子力学会春の年会要旨集, 1992
    1992 - 1992
  • A New Approach to Redox Reaction in PUREX Process.               
    本間俊司; 古閑二郎; 松本史朗; 田中康正
    日本原子力学会秋の大会予稿集, 1992
    1992 - 1992
  • プロセスフローシート作成-解析システム               
    坂本進; 本間俊司; 古閑二郎; 松本史朗
    1992
    1992 - 1992
  • Fuel Dissolution Rate;Its Mechanism               
    Jiro Koga; Shunji Homma; Osamu Kanehira; Shiro Matsumoto; Takami Yasu; Tomio Kawata
    3rd International Conference on Nuclear Fuel Reprocessing and Waste Management (RECOD'91), Apr. 1991
    Apr. 1991 - Apr. 1991, English, Poster presentation
  • Extraction Dynamics of Pulsed Column in the PUREX Process               
    Shunji Homma; Jiro Koga; Shiro Matsumoto; Sachio Fujine; Mitsuru Maeda
    Jul. 1990
    Jul. 1990 - Jul. 1990, English, Poster presentation
■ Teaching experience
  • Sep. 2025 - Present
    アントレプレナーシップ実践演習
  • Apr. 2025 - Present
    技術者のための産業経営特論
  • Apr. 2021 - Mar. 2025
    Engineering for Society, Saitama University
  • Sep. 2017 - Mar. 2025
    Exercise in Process Engineering, Saitama University
  • Sep. 2016 - Mar. 2025
    Advanced Chemical Engineering, Graduate School of Saitama University
  • Sep. 2011 - Mar. 2025
    Process Engineering II, Saitama University
  • Sep. 2001 - Mar. 2025
    Numerical Transport Phenomena, Graduate School of Saitama University
  • Apr. 2003 - Sep. 2024
    Process Engineering I, Saitama University
  • Sep. 2014 - Mar. 2024
    Advanced Chemical Engineering, Graduate School of Keio University
  • Apr. 2008 - Mar. 2024
    Science and Technological English, Saitama University
  • Apr. 2018 - Sep. 2023
    Applied Mathematics, Saitama University
  • Apr. 2013 - Sep. 2019
    Process Engineering III, Saitama University
  • Apr. 2002 - Sep. 2017
    Numerical Analysis I, Saitama University, Undergraduate special subjects
  • Sep. 2006 - Mar. 2016
    Advanced Chemical Engineering II, Graduate School of Saitama University
  • Sep. 2013 - Mar. 2015
    Meet Science and Technology, Saitama University
  • Apr. 2005 - Sep. 2012
    Fluid Mechanics, Saitama University
  • Apr. 2011 - Sep. 2011
    Chemical Engineering III (J), Saitama Institute of Technology
  • Oct. 2007 - Mar. 2011
    Chemical Engineering II (J), Saitama Institute of Technology
  • Sep. 2007 - Mar. 2010
    Information Processing II, Saitama University
  • Sep. 2007 - Mar. 2010
    Exercise in Information Processing, Saitama University
  • Apr. 2007 - Sep. 2008
    Chemical Engineering I (J), Saitama Institute of Technology
  • Sep. 2001 - Mar. 2007
    Advanced Process Enginerring, Graduate School of Saitama University
  • Sep. 2004 - Mar. 2006
    Exercise in Programing II, Saitama University
  • Sep. 2001 - Mar. 2004
    化学反応工学, Undergraduate special subjects
  • Apr. 2001 - Sep. 2002
    プロセス工学概論, Undergraduate liberal arts
  • Apr. 1994 - Mar. 1997
    応用化学実験II
  • Apr. 1993 - Mar. 1997
    応用化学実験I
  • Apr. 1987 - Sep. 1996
    工学基礎実験
  • Apr. 1989 - Mar. 1994
    環境化学工学実験III
■ Affiliated academic society
  • Apr. 2024 - Present, The Japanese Continence Society
  • Apr. 2021 - Present, The Imaging Society of Japan
  • Jan. 2016 - Present, KINKA CHEMICAL SOCIETY
  • Apr. 2005 - Present, The Japan Society of Fluid Mechanics
  • Feb. 2004 - Present, The Japanese Society for Multiphase Flow
  • Aug. 1997 - Present, American Physical Society
  • Apr. 1989 - Present, Atomic Energy Society of Japan
  • Feb. 1989 - Present, The Society of Chemical Engineers, Japan
■ Research projects
  • 燃料デブリ取出しに伴い発生する廃棄物のフッ化技術を用いた分別方法の研究開発               
    Aug. 2019 - Mar. 2022
    Coinvestigator
  • 低塗工量で高速塗工可能なハイブリッド型高性能エマルション粘着剤の開発               
    Jun. 2018 - Mar. 2021
    Coinvestigator
  • エマルション型粘着剤の高速塗工のための設計技術の開発を通じた研究開発人材の育成               
    Jul. 2017 - Jan. 2018
    Principal investigator
    Grant amount(Total):1500000
  • Numerical Analysis of Compound Droplet Formation from a Co-Axial Dual Nozzle               
    Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Grant-in-Aid for Scientific Research (C), 01 Apr. 2012 - 31 Mar. 2015
    HOMMA Shunji, Saitama University
    Grant amount(Total):5070000, Direct funding:3900000, Indirect funding:1170000
    The formation of compound droplets from a co-axial dual nozzle, where core and shell fluids are imposed, is simulated numerically by a three-fluid front-tracking method. The modes of droplet formation depends on the diameter of the orifice ahead of the nozzle, the flow rate of the shell fluid, and that of the external fluid. The volume of core droplet as well as compound droplet itself suddenly increases as the flow rate of shell fluid increases beyond a critical value. The flow rate of shell fluid can be one of the control parameters for the size of compound droplets.
    Grant number:24560917
  • 将来再処理プロセスでの窒素酸化物クローズドシステム開発               
    Apr. 2006 - Mar. 2009
    Coinvestigator
  • Scalling and Its Transition of Rupturing Interfaces during the Formation of Liquid Drops               
    Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Grant-in-Aid for Scientific Research (C), 2006 - 2008
    HOMMA Shunji, Saitama University
    Grant amount(Total):2710000, Direct funding:2200000, Indirect funding:510000
    Competitive research funding, Grant number:18540367
  • 自由界面流れおよび界面移動現象の同時解析法の開発               
    Apr. 2003 - Mar. 2004
    Principal investigator
    Competitive research funding
■ Industrial Property Rights
  • 容器入りガラスの製造方法およびその製造装置ならびに溶融ガラスの温度の推定方法               
    Patent right
  • 尿流の流速および/または流量を推定する方法および装置               
    Patent right
  • 尿流量推定装置および尿流量推定プログラム               
    Patent right
  • カーテン塗布装置及びカーテン塗布方法               
    Patent right
  • 排尿される尿の流速及び/又は流量を測定する方法及びシステム               
    Patent right
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