[CVT(Continuously Variable Transmission) mechanism][Development for CVT-HOOP]

•Professor, Utsunomiya University (March,1,2003–March,31,2018)

•Research Professor, Utsunomiya University (April,1,2018-)

•Emeritus Professor, Utsunomiya University (April,1,2018-)

Faculty of Engineering,

Utsunomiya University

7-1-2, Yoto, Utsunomiya

321-8585, JAPAN

Tel:028-689-6031

Fax:028-689-6031

E-mail:sugiyama@cc.utsunomiya-u.ac.jp

Utsunomiya University Home Page

I had been staying as a visiting scholar at University of Washington for ten month.

Date: From June,1,2000 to March,30,2001

Host Professor: Prof. Fred Gessner

Department of Mechanical Engineering

Box 352600

University of Washington

Seattle, Washington 98195-2600

U.S.A.

If you would like to know about U. of W., please keep in touch with me through following e-mail.

sugiyama@cc.utsunomiya-u.ac.jp

Summer Scenery at University of Washington

Autumn Scenery at University of Washington

Winter Scenery at University of Washington

Spring Scenery at University of Washington

- Development of anisotoropic turbulence model
- Development of turbulent heat flux model for forced convection turbulent flow with heat transfer
- Numerical analyses for complicated turblent flow with and without heat transfer
- Numerical prediction for turbulent structure of free surface channel flow
- Numerical prediction for turbulent structure of non-Newtonian fluid flow
- Flow behaviour for viscoelastic non-Newtonian fluid in straight duct with non-circular cross section
- Turbulent measurement by using laser-Doppler anemometer
- Developmetn of anisotoropic turbulence mass flux model
- Numerical study for turbulent flow with heat and mass transfer
- Practical education through Formula-SAE

- Numerical study of turbulent buoyant helium plume by means of algebraic Reynolds stress and turbulent mass flux models

[This research work has been supported by Ministry of Economy,Trade and Industry]

Analytical condition : Fr=0.102E-2, Re=6.58E+3, Sc=0.21

Figures are experimental apparatus, analytical velocity vectors of early stage, developing stage, helium of early stage, developing stage, respectively.

Analytical target : O'Hern et al., Experimental study of a turbulent buoyant helium plume, J. Fluid Mech.,544(2005)

- Numerical study of turbulent buoyant flow with heat and mass transfer in nuclear reactor: Influence on Froude number

[This research work has been supported by Ministry of Economy,Trade and Industry]

Upper figure: Fr= 0.1 Temperature, Hydrogen, Vapor and Condensation distributions, respectively.

Lower figure: Fr=273 Temperature, Hydrogen, Vapor and Condensation distributions, respectively.

- Numerical study of hydrogen dispersion : Froude number 1E-3, 2E-3

[This research work has been supported by Ministry of Economy,Trade and Industry]

- Turbulent flow in square duct with sharp
turn (Width in curved duct 0.6, 1.0,
1.4)

- Compound meandering open-channel flow with trapezoidal
and rectangular
cross section

- Rotating U-bend of strong curvature wirh roughened walls (Stationary, Positive
rotation, Negative
rotation)

- Vortex breakdown in a confined flow generated
by rotating disk

- Turbulent flow of meandering open channel with
trapezoidal cross section

- Turbulent flow of straight open channel with
sand ridge on river bed, (Mechanism of generation for sand ridge)

- Turbulent flow of curved open channel with rectangulat
cross section

- Turbulent flow of straight open channel with
trapezoidal cross section

- Turbulent flow of rectangular straight duct
with wavy wall

- Turbulent flow of circular-to-rectangular distorted
duct

- Turbulent flow of square-to-circular transitional
duct

- Turbulent flow of S-shaped and meandering ducts

- Turbulent flow of 90 curved pipes

- Laminar flow around vibrating plate (Lock-in
phenomenon)

- Heat and fluid Flow around swimming fish
(Velocity vectors distribution, Vortex distribution, Temperature distribution)

- Turbulent flow of rectangular straight duct
with periodical roughened element

- Turbulent flow of 180 Degree curved pipes with roughened(left
hand side) and smooth walls(right hand side)

- Turblent flow of circular straight pipe with
roughness element along streamwise

- Swirling turbulent flow of 90 degree curved pipe

- Turbulent flow of compound open channel with
oblique bank

- Turbulent flow of non-Newtonian fluid in curved
pipe (power index n=0.76 and 0.90)

- Secondary flow of vicoelastic non-Newtonian
fluid in straight duct with elliptical cross section (Maxwell model, power
index n=0.76)

- Turbulent heat transfer in square cross section
with rougheded wall

- Turbulent measurement of straight duct with elliptical
cross section by LDV system

- Turbulent measurement of distorting duct with
changing cross sectional shape by LDV system

- Flow visualization around vibrating plate

- H.Sugiyama,N.Kato,M.Ouchi,S.Mogami,A.Terada,R.Hino:

Numerical Study of Turblent Buoyant Helium Plume by Means of Algebraic Reynolds Stress and Turbulent Scalar Flux Models,

2th Pacific Rim Thermal Engineering Conference, December,13-17, PRTEC-24006,2019.Numerical Study of Turbulent Buoyant Helium Plume - H.Sugiyama:

CFD Tutorial Lecture

Numerical Simulations of Turbulent Flows by Algebraic Reynolds Stress and Turbulent Heat Flux Models, 2015, May, 17th

23rd International Conference on Nuclear Engineering - N.Kato,T.Saito,H.Sugiyama,A.Terada,Y.Kmiji,R.Hino:

Numerical Analysis for Turblent Flow Structure in Tow Rectangular Channels Connected by a Narrow Gap,

23th International Conference on Nuclear Engineering, May,17-21 ,ICONE23-1069,2015.Numerical Analysis for Turbulent Flow Structure in Two Rectangular Channels

- A.Terada,M.Matsumoto,H.Sugiyama,A.Terada,Y.Kmiji,S.Kadowaki,R.Hino:

Development of Hydrogen Behavior Simulation Code System -Outline of Code System and Validation Using Existing Data,

23th International Conference on Nuclear Engineering, May,17-21, ICONE23-1655,2015.Development of Hydrogen Behavior Simulation Code System

- H.Sugiyama,K.Takahashi,N.Kato,A.Terada,Y.Kamiji,R.Hino:

Numerical Analysis of Air-Hydrogen Mixture Flow in Rectangular Indoor Space with

Ventilators,

Trans. of Society of Automotive Engineers of Japan, Vol.46,No.2,pp.259-264,2015.Numerical Analysis of Air-Hydrogen Mixture Flow(PDF file)

- H.Sugiyama,T.Otemori,N.Kato,A.Terada,Y.Kamiji,R.Hino:

Numerical Analysis of Turbulent Flow in a Rectangular Duct Containing

Straight Cylinder Placed near a Bottom Wall,

Trans. of Society of Automotive Engineers of Japan, Vol.46,No.2,pp.533-538,2015.Numerical Analysis of Trubulent Flow in a Rectangular Duct Containing Straight Cylinder(PDF file)

- Y. Tanaka, T. Koghure, M. Ueno, H. Sugiyama, Y. Hamamoto, M. Tamai, N. Taguchi, H. Sakamoto:

Effects of Flow Patterns and Hemodynamic Force on Vascular Endothelium in the Temporary Arteriovenous Shunt Loop in Rabbits,

Journal of Reconstructive Microsurgery, 2013, DOI:10.1055/s-0033-13400

[Joint study with Medical Department, Kagaw University] - Y.Okagaki,H.Sugiyama,N.Kato,R.Hino:

Numerical Analysis of Turbulent Flow in a Square Duct with Periodically Arranged Ribs by an Algebraic Reynolds Stress Model,

Trans. of Society of Automotive Engineers of Japan, Vol.43,No.4,pp.949-955,2012Numerical Analysis of Trubulent Flow in a Square Duct with Periodically Arranged Ribs(PDF file)

- Y.Okagaki,H.Sugiyama,N.Kato,A.Terada,R.Hino:

Numerical Analysis of Turblent Flow with Heat Transfer in a Square Duct with 45 Degree Ribs,

19th International Conference on Nuclear Engineering,May 16-19,ICONE19-43147,2011.Numerical Analysis of Turbulent Flow with Heat Transfer in a Square Duct with 45 Degree Ribs

- S.Watanabe,J.Takaki,H.Hasegawa,A.Irie,H.Sugiyama,K.Yokota:

Student Evaluation of an Inter-Departmental Core Curriculum "Problem-Based Learning" in the Faculty of Engineering,

Japanese Society for Engineering Education,Vol.59,No.2,pp.47-51,2011.Student Evaluation of an Inter-Departmental Core Curriculum "Problem-Based Learning" (PDF file)

- H.Sugiyama,C.Watanabe,N.Kato:

Numerical Analysis of Turblent Flow in a Rotating U-bend with Roughened Walls,

International Journal of Computational Fluid Dynamics, Vol.24,No.8,September 2010,pp.335-348Numerical Analysis of Turbulent Flow in a Rotating U-bend(PDF file)

- H.Sugiyama, T.Imai, T.Kakuko, Y.Okagaki, N.Kato:

Numerical Analysis of Turbulent Flow in a 90-Degree Bend Pipe with Half-Trip,

Trans. of Society of Automotive Engineers of Japan, No.41,No.5,pp.1119-1125,2010.Numerical Analysis of Trubulent Flow in 90-dgree Pipe with Half-Trip(PDF file)

- H.Hasegawa, S.Watanabe, J.Takaki, K.Yokota, A.Irie, H.Sugiyama:

Implementation of a Inter-Departmental Core Curriculum "Program-Based Learning (PBL)" in the Faculty of Engineering at Utsunomiya University,

Japanese Society for Engineering Education, Vol.58, No.4, pp.21-27, 2010 - Y.Okagaki, H.Sugiyama, N.Kato:

Numerical Analysis of Turbulent Flow with Heat Transfer in a Square Duct with 45 Degree Ribs,

Trans. of Society of Automotive Engineers of Japan, Vol.41, No.3, pp.709-715, 2010Numerical Analysis of Trubulent Flow in a square duct with 45 Degree Ribs(PDF file)

- H.Sugiyama, H. Akagi, N. Kato:

Numerical Study of Flooding Mechanism with Moving Free Surface of Kurokawa River in Tochigi Prefecture,

Journal of JSNDS, Vo28, No4, pp.325-341,2010,Numerical Study of Flooding Mechanism with Moving Surface of Kurokawa (PDF file)

- H.Sugiyama,S.Watanabe,J.Takaki,A.Irie,H.Hasegawa:

Engineering Education Instructed by Innovation Center for Research and Engineering Education in Utsunomiya University,

Proceedings of ACEE 2009, October, 30, 2009, pp.126-133.

Engineering Education Instructed by Innovation Center for Research and Engineering Education in Utsunomiya University(PDF file)

- H.Sugiyama:

Keynote Lecture

Numerical Analyses of Turbulent Flows by means of Algebraic Reynolds Stress and Turbulent Heat Flux Models, 2009, May, 18-21

6th International Conference on Computational Heat and Mass Transfer

Numerical Analyses of Turbulent Flows by means of Algebraic Reynolds Stress and Turbulent Heat Flux Models(PDF file)

- H.Sugiyama, Y.Sasaki:

Numerical Analysis of Turbulent Flow in a Helical Curved Pipe,

Trans. of JSME, Vo73, No734, B, pp.2099-2106,2007-10 - H.Sugiyama, T.Tanak, H.Mukai:

Numerical Analysis of Turbulent Flow Separation in a Rectangular Duct with a Sharp 180-dgree Turn by Algebraic Reynolds Stress Model,

International Journal for Numerical Methods in Fluid, DOI:10.1002/fld.1581Numerical Analysis of Turbulet Flow Separation in a Rectangular Duct(PDF file)

- H.Sugiyama, T.Tanak:

Numerical Analysis of Turbulent Flow Separation in a Rectangular Duct with a Sharp 180-dgree Turn,

Trans. of Society of Automotive Engineers of Japan, Vo38, No.1, pp181-167, 2007 - H. Sugiyama, T. Tazawa:

Numerical Analysis of Developing Turbulent Flow in a Rectangular Duct with Abrupt Change from Rough to Smooth Wall,

Trans. of Society of Automotive Engineers of Japan, Vo37, No.2, pp.97-102, 2006-3 - H.Sugiyam,H.Mukai:

Numerical Analysis of Turbulent Flow Separation in a Rectangular Duct with Sharp 180-Degree Turn,

Journal of Atomic Energy Soc. Japan, Vol.15,No.1,pp.1-13,2006 - H.Sugiyama, T.Saito:

Numerical Analysis of Turbulent Structure in Compound Meandering Open Channel by Algebraic Reynolds Stress Model,

IInternational Journal of Numerical Methods in Fluid, 51, pp.791-818, 2006 - H.Sugiyam,T.Kaketa,D.Hitomi:

Numerical Analysis of Asymmetric Vortex Breakdown in a Cylindrical Container Flow with a Rotating Disk,

Trans. of JSME, Vo71, No703, B, pp.773-780, 2005-3 - H.Sugiyama:

Numerical Analysis of Developing Turbulent Flow in a 180-degree Bend Tube by an Algebraic Reynolds Stress Model,

International Journal of Numerical Methods in Fluid, 47,1431-1449,2005Numerical Analysis of Developin Trubulent Flow in 180-dgree Bend(PDF file)

- H.Sugiyam,T.Uno:

Numerical Analysis of Turbulent Heat Transfer in a Square Duct with Different Rib Shapes,

Trans. of JSME, Vo70, No.700, B, pp.3182-3189, 2004-12 - H.Sugiyam,T.Takeshima:

Numerical Analysis of Turbulent Flow in a Rectangular Duct with Periodic Arrays of Blockes,

Trans. of JSME, Vo70, No.693, B, pp.1132-1139, 2004-5 - H.Sugiyam,S.Sugiyama:

Numerical Study of Turbulent Structure in Curved Open Channel with Roughened Wall,

Proc. of JSCE, Vol.74/II-63,pp.71-83,2003.11

- H.Sugiyam,C.Watanabe:

Numerical Analysis of Developing Turbulent Flow in a Rotating U-bend of Strong Curvature,

Journal of Atomic Energy Soc. Japan, Vol.2, No.2,pp.88-98,2003 - H.Sugiyam,T.Uno:

Numerical Analysis of Turbulent Flow in a Square Duct with Periodic Rib-Roughened Wall,

Trans. of JSME, Vol.69, No.681, B, pp.1051-1058, 2003-5 - H.Sugiyam,F.Ooishi:

Numerical Analysis of Vortex Breakdown in a Confinefd Flow Generated by a Rotating Disk,

Trans. of JSME, Vol.69, No.681, B, pp.1043-1050, 2003-5 - H.Sugiyama, M.Tosen, F.Gessner:

Computation of Turbulent Heat Transfer in a Square Duct with One Roughened Wall by Using Algebraic Heat Flux Model,

6th ASME-JSME Thermal Engineering Joint Conference,Hawaii, March 2003

Computation of Turbulent(PDF file)

- H.Sugiyam,C.Watanabe:

Numerical Analysis of Developing Turbulent Flow in a U-bend of Strong Curvature,

Journal of Atomic Energy Soc. Japan, Vol.2, No.1,pp.24-31,2003 - H.Sugiyam,T.Saito:

Numerical Study of Turbulent in Compound Meandering Open-Channel,

Proc. of JSCE, Vol.712/II-60,pp.25-43,2002.8

Compound Meandering Open-Channel Flow(PDF file)

- H.Sugiyam,M..Fujita:

Numerical Analysis of Developing Turbulent Flow in a

Curved Pipe,

Trans. of JSME, Vol.68, No.668, B, pp.1135-1142, 2002-4 - H.Sugiyam,H.Haneda:

Experimental Analysis of Turbulent Flow in a Rectangular Duct with

Arrays of Blocks by Using Laser-Doppler Velocimeter,

Journal of Atomic Energy Soc. Japan, Vol.1, No.2, 2002-6

- H.Sugiyama,F.Gessner:

Calculation of Turbulent Heat Flux Distributions in a Square Duct

with One Roughened Wall by Means of Algebraic Heat Flux Models,

International Journal of Heat and Fluid Flow, Vol.23, pp.13-21, 2002

- H.Sugiyam,M.Akiyama,Y.Shinohara:

Numerical Analysis of Turbulent Flow Developing in a 90 Degree Bend with Weakly Swirling Flows,

Journal of Atomic Energy Soc. Japan, Vol.42, No.6, pp.557-566, 2000 - D.Hitomi,M.Akiyama,H.Sugiyam:

Numerical Analysis of a Drop Oscillation Using a Level Set Method,

Journal of Atomic Energy Soc. Japan, Vol.42, No.1, pp.43-53, 2000 - H.Sugiyam,M.Akiyama,Y.Nemot:

Numerical Analysis of Turbulent Heat Transfer in a Square Duct with One Rough Wall by Algebraic Turbulent Heat Flux Models,

Trans. of JSME, Vol.66, No.645, B, pp.1390-1397, 2000-5 - H.Sugiyam,M.Akiyama,R.Sato:

Numerical Study of Turbulent Structure in Rectangular Meandering Channel Flow,

Proc. of JSCE, No.628/II-48,pp.149161,1999.8

Meandering Open-Channel Flow(PDF file)

- H.Sugiyam,M.Akiyama,N.Koide:

Numerical Analysis of Secondary Flow for Viscoelastic Fluid Through Elliptical Duct,

Trans. of JSME, Vol.65, No.640, B, pp.3861-3868,1999-12 - H.Sugiyam,M.Akiyama,T.Arai,Y.Shinohara:

Numerical Analysis of Turbulent Flow of Non-Newtonian Fluids in Eccentric Annuar Passage,

Trans. JSME, Vol.65, No.635, B, pp.2382-2390,1999-7 - H.Sugiyam,M.Akiyama,N.Koide:

Numericla Analysis of Turbulent Flow of Non-Newtonian Fluids in Curved Pipes,

Trans. JSME, Vol.65, No.633, B, pp.1505-1512,1999-5 - D.Hitomi, M.Akiyama, H.Sugiyama:

Assessment of Volume Traking Algorithms in a Three-Dimensional Flow Fieldf Dominated by Surface Tension,

Trans. JSME, Vol.65, No.633, B, pp.1577-1584,1999-5 - H.Sugiyam,M.Akiyama,Y.Shinohara:

Numerical Analysis of Turbulent Flow Developing in Longitudinally Finned Tubes,

Trans. JSME, Vol.65, No.631, B, pp.862-869,1999-3 - H.Sugiyama, M.Akiyama, D.Hitomi:

Numerical Analysis of Developing Turbulent Structure in a Circular-to-Rectangular Transition Duct,

5th ASME-JSME Thermal Engineering Joint Conference,San, Diego, March 1999Transition Duct(PDF file)

- K.Takato, T.Tsutsui, M.Akiyam, H.Sugiyama:

Numerical Analysis of Flow around a Vibrating Elastic Plate (An Approach Consider with Interaction of Distortion,

Trans. JSME, Vol.64, No.627, B, pp.3720-3728,1998-11 - H.Sugiyama, M.Akiyama, M.Tanaka:

Numerical Study of Turbulent Flow Structure in Curved Open-Channel FLow with Flood Plains,

Journal of Applied Mechanics, JSCE,Vol.1,pp.683-692,1998Curved Compound Open-Channel Flow(PDF file)

- H.Sugiyama, M.Akiyama, T.Watanabe, H.Kato:

Numerical Analysis of Developing Turbulent Flow in a Distorted Elliptical Duct,

Trans. JSME, Vol.64, No.622, B, pp.1732-1740,1998-6 - H.Sugiyama, M.Akiyama, T.Watanabe:

Experimental Analysis of Developing Turbulent Flow in a Distorted Elliptical Duct by Laser-Doppler Velocimeter,

Trans. JSME, Vol.64, No.621, B, pp.1335-1342,1998-5 - H.Sugiyama, M.Akiyama, T.Takahashi:

Numerical Analyses of Turbulent Structure in Rectangular Ducts with Rough and Smooth Walls

(Application of Simple Analysis Method using Algebraic Reynolds Stress Model,

Journal of Atomic Energy Soc. Japan, Vol.40, No.4, pp.312-322, 1998 - H.Sugiyama, M.Akiyama, Y.Shinohara:

Numerical Analysis of Developing Turbulent Flow in a 180 Degree-Bent Tube with Roughened Wall,

Trans. JSME, Vol.64, No.618, B, pp.342-349,1998-2 - H.Sugiyama, M.Akiyama, Y.Murakami:

Numerical Analysis of Turbulent Flow Developing in a Sinuous Duct of Square Cross Section,

Trans. JSME, Vol.64, No.621, B, pp.1343-1350,1998-5 - H.Sugiyama, M.Akiyama, Y.Murakami:

Numerical Analysis of Reynolds Stresses for Turbulent Flow Developing in S-Shaped Diffuser,

Trans. JSME, Vol.63, No.615, B, pp.3513-3520,1997-11 - H.Sugiyama, M.Akiyama, M.Kamezawa,M.Tanaka:

Numerical Analysis of Three-Dimensional Turbulent Structure in a Trapizoidal Meandering Channel,

Computational Fluid Dynamics Journal,Vol.6 No.3,pp.325-340,October 1997 - H.Sugiyama, M.Akiyama, M.Kamezawa:

The Numerical Study of Turbulent Structure in Curved Open-Channel Flow,

Proc. of JSCE, No.572/II-40, pp.11-21, 1997.8 - H.Sugiyama, M.Akiyama, T.Sato:

Numerical Analysis of Developing Turbulent Structure in Circular Pipe Containing Two Rods Located Off-Center,

Journal of Atomic Energy Soc. Japan,Vol.39,No.7,pp.582-592,1997 - H.Sugiyama, M.Akiyama, Y.Murakami:

Numerical Analysis of Turbulent Flow Developing in S-Shaped Diffuser,

Trans. JSME, Vol.63, No.615, B, pp.3505-3512,1997-11 - H.Sugiyama, M.Akiyama, K.Yanagisawa:

Numerical Simulation of Turbulent Flow in a Channel with Large-Amplitude Wavy Surfaces,

Trans. JSME, Vol.63, No.612, B, pp.2659-2666,1997-8 - H.Sugiyama, M.Akiyama, Y.Shinohara, D.Hitomi:

Numerical Analysis of Three-Dimensional Turbulent Flow in a 90 Degree Bend Tube by Algebraic Reynolds Stress Model,

Trans. JSME, Vol.63, No.610, B, pp.1920-1927,1997-6 - H.Sugiyama, M.Akiyama, M.Kamezawa, D.Noguchi:

The Numerical Study of Turbulent Structure in Compound Open-Channel Flow with Variable-Depth Flood Plain,

Proc. of JSCE, No.565/II-39,pp.73-83,1997-.5 - H.Sugiyama, M.Akiyama, O.Fujita, Y.Murakami:

Numerical Analysis of Reynolds Stress for Tourbulent Flow Developing in a Rectangular-Sectioned 90 Degree Bend,

Trans. JSME, Vol.63, No.608, B, pp.1154-1160,1997-4 - H.Sugiyama, M.Akiyama, K.Yanagisawa, K.Fujii:

Numerical Prediction of Developing Turbulent Structure Trough a Square-to-Circular Transiton Duct,

Trans. JSME, Vol.63, No.608, B, pp.1161-1169,1997-4 - H.Sugiyama, M.Akiyama, Y Shinohara, D.Hitomi:

Numerical Analysis of Three-Dimensional Turbulent Flow in a 180 Degree-Bent Tube Using by an Algbraic Reynolds Stress Model,

Trans. JSME, Vol.63, No.609, B, pp.1533-1540,1997-5 - H.Sugiyama, M.Akiyama, D.Hitomi:

Numerical Analysis of Developing Turbulent Structure in a Circular-to-Rectangular Transition Duct,

Computational Fluid Dynamics Journal,Vol.5 No.4,pp.471-486,January 1997 - H.Sugiyama, M.Akiyama, D.Hitomi, Y.Shinohara:

Numerical Analysis of Turbulent Flow Developing in a 30/60 Degree Right Transition Duct,

Trans. JSME, Vol.63, No.607, B, pp.824-831,1997-3 - H.Sugiyama, M.Akiyama, Y.Murakami:

Numerical Analysis of Developing Turbulent Structure in S-Shaped Duct,

Trans. of JSME, Vol.63, No.607, B, pp.832-839,1997-3 - H.Sugiyama, M.Akiyama, Y.Murakami:

Numerical Analysis of Developing Turbulent Flow in S-Shaped Duct,

Trans. of JSME, Vol.63, No.607, B, pp.840-848,1997-3 - H.Sugiyama, M.Akiyama, O.Fujita:

Numerical Analysis of Turbulent Flow Developing in a Rectangular-Sectioned 90 Degree Bend,

Trans. JSME, Vol.63, No.606, B, pp.521-528,1997-2 - T.Tsutsui, M.Akiyama, H.Sugiyama, K.Shimanaka:

Heat Transfer Enhancement around a Rectangular Cylinder Set in Near Wake Generated by Elastically Vibrating Flat Plate,

Trans. JSME, Vol.62, No.602, B, pp.3667-3674,1996-10 - H.Sugiyama, M.Akiyama, D.Hitomi:

Numerical Prediction of Three-Dimensional Turbulent Structure through a Circular-to-Rectangular Transition Duct,

Trans. JSME, Vol.62, No.601, B, pp.3309-3316,1996-9 - H.Sugiyama, M.Akiyama, M.Kamezawa:

Numerical Analysis of Three-Dimensional Turbulent Structure and Secondary Flow in Trapezoidal Open-Channel Flows Using Algebraic Reynolds Stress Model,

Trans. JSME, Vol.62, No.598, B, pp.2194-2201,1996-6 - T.Tsutsui, K.Takato, K.Miyanaga, M.Akiyama, H.Sugiyama:

Transition of DynamicCharacteristic on Micro Cantilever Vibrator Refered to Air Loading,

The Acoustical Society of Japan, Vol.52, No.7,pp.510-515,1996 - H.Sugiyama, M.Akiyama, K.Yamanaka, T.Sato:

Numerical Analysis of Three-Dimensional Turbulent Structure in a Squared-Sectioned 180 Deg Bend,

Computational Fluid Dynamics Journal,Vol.5 No.1,pp.107-128,April 1996 - H.Sugiyama, M.Akiyama, K.Yanagisawa, T.Sato:

Numerical Analysis of Three-Dimensional Turbulent Structure in a Periodically-Ribbed Channel,

Trans. JSME, Vol.62, No.597, B, pp.1733-1740,1996-5 - H.Sugiyama, M.Akiyama, T.Simizu:

Numerical Analysis of Three-Dimensional Turbulent Heat Transfer in a 180 Degree-Bend Tube by Two-Equation Heat Transfer Models,

Trans. JSME, Vol.62, No.596, B, pp.1530-1537,1996-4 - T.Tsutsui, M.Akiyama, H.Sugiyama, K.Takato:

Experimental Analysis of 2D-Unsteady Temperature Field by Using Mach-Zehnder Interferogram Image,

Trans. JSME, Vol.62, No.595, B, pp.1129-1135,1996-3 - H.Sugiyama, M.Akiyama, H.Wakayama, T.Watanabe:

Experimental Analysis of Developing Turbulent Flow in an Elliptical Duct by Laser-Doppler Anemometer,

Trans. JSME, Vol.62, No.595, B, pp.1006-1012,1996-3 - H.Sugiyama, M.Akiyama, F.Tazima, T.Sato:

The Study of Turbulent Structure in Rectangular Duct with Longitudinal Ridge and Generation for Boil of the Second kind,

Proc. of JSCE, No.533/II-34, pp.127-136, 1996-2 - H.Sugiyama, M.Akiyama, T.Sato:

Numerical Analysis of Turbulent Structure Developing in Circular Pipe Containing One Rod Located Off-Center,

Trans. JSME, Vol.62, No.59, B, pp.491-498,1996-2 - H.Sugiyama, M.Akiyama, Y.Murakami, O.Fujita:

Numerical Analysis of Turbulent Structure in a Square-Sectioned Bend with Short Inlet Length Duct (Influence of Boundary Layer Thickness at Bend Entry on Developing Flow in a Square-Sectioned Bend),

Trans. JSME, Vol.62, No.593, B, pp.9-17,1996-1 - H.Sugiyama, M.Akiyama, M. Kamezawa:

Numerical Analysis of Developing Turbulent Structure in a Trapezoidal Open Channel Flow by Using Reynolds Stress Model,

Proc. of JSCE, No.527/II-33, pp.27-36, 1995-11 - H.Sugiyama, M.Akiyama, O.Fujita, T.Sato:

Numerical Analysis of Reynolds Stresses for Developing Turbulent Flow in a Square-Sectioned 90 Degree Bend,

Trans. of JSME, Vol.61,No.591,B,pp.3975-3982,1995-11 - S.Ikuta, M.Akiyama, H.Sugiyama:

The Flow Rate Distribution in Branch Passages of Heat Exchanger for Automobile,

Journal of the Visualization Socity of Japan,Vol.15,No.59,pp.33-40,1995-10 - H.Sugiyama, M.Akiyama, T.Matsubara, M.Hirata:

Numerical Analysis of Three-Dimensional Turbulent Structure in Open hannel Flow,

Computational Fluid Dynamics Journal,Vol.4 No.2,pp.239-262,July 1995 - H.Sugiyama, M.Akiyama, O.Fujita, T.Sato:

Numerical Analysis of Developing Turbelent Flow in s Square-Sectioned 90 Degree Bend,

Trans. of JSME, Vol.61, No.587, B, pp.2393-2400,1995-7 - H.Sugiyama, M.Akiyama, T.Sato:

Numerical Analysis of Developing Turbulent Structure in Simulated Rod Bundles,

Trans. JSME, Vol.61, No.586, B, pp.2023-2030,1995-6 - H.Sugiyama, M.Akiyama, T.Matsubara:

Numerical Simulation of Compound Open Channel Flow on Turbulence with a Reynolds Stress Model,

Proc. of JSCE,No.515/II-31,pp.55-65,1995.5 - T.Tsutsui, M.Akiyama, H.Sugiyama:

Active Boundary Layer Control by Elastically Vibrating Flat Plate,

Trans. JSME, Vol.61, No.585, B, pp.1804-1810,1995-5 - H.Sugiyama, M.Akiyama, Y.Kikuchi:

Nnmerical Analysis of Three-Dimensional Turbulent Flow in 180 Degree-Bent Tube by Low-Reynolds-Number Turbulent Model,

Trans. JSME, Vol.61, No.585, B, pp.1707-1713,1995-5 - H.Sugiyama, M.Akiyama, K.Yamanaka, M.Hirata:

Numerical Analysis of Turbulent Structure in A Rectangular Duct with and Ridges,

Computational Fluid Dynamics Journal,Vol.4 No.1,pp.59-78,April 1995 - H.Sugiyama, M.Akiyama, T.Matsubara, M.Hirata:

Nnmerical Analysis of Three-Dimensional Turbulent Structure in Compound Open Channel Flows Using Algebraic Reynolds Stress Model,

Trans. JSME, Vol.61, No.584, B, pp.1293-1300,1995-4 - H.Sugiyama, M.Akiyama, K.Yamanaka, T.Sato:

Nnmerical Analysis of Reynolds Stresses for Developing Turbulent Flow in Square-Sectioned Bend,

Trans. of JSME, Vol.61, No.584, B, pp.1301-1309,1995-4 - H.Sugiyama, M.Akiyama, M.Matsumoto:

Numerical Analysis of Turbulent Structure and Heat Transfer in A Square Duct with One Rough Wall,

4th ASME-JSME Thermal Engineering Joint Conference,Maui,Hawaii, pp.409-416,March 1995 - H.Sugiyama, M.Akiyama, K.Yamanaka, T.Sato:

Numerical Analysis of Developing Turbulent Flow in a Square-Sectioned Bend

(Prediction of Turbulent Flow with the Secondary Flow of the First and the Second kind),

Trans. of JSME, Vol.61, No.581, B, pp.48-55,1995-1 - H.Sugiyama, M.Akiyama, K.Saito, T.Sato:

Numerical Analysis of Developing Turbulent Structure in Triangular Array Rod Bundles,

Trans. JSME, Vol.60, No.578, B, pp.3272-3279,1994-10 - H.Sugiyama, M.Akiyama, T.Matsubara, M.Matsumoto, M.Hirata:

Numerical Analysis of Three Dimensional Turbulent Structure in Open Channel FLow,

Trans. JSME, Vol.60, No.577, B, pp.3000-3007,1994-9 - H.Sugiyama, M.Akiyama, M.Matsumoto, M.Hirata:

Numerical Analysis of Forced Convection Heat Transfer for Turbulent Flow in a Square Duct with a Rough Wall,

Trans. JSME, Vol.60, No.576, B, pp.2840-2847,1994-8 - H.Sugiyama, M.Akiyama, K.Yamanaka, M.Hirata:

Numerical Analysis of Fully Developed Turbulent Flow in Rectangular Duct with Longitudinal Roughness Element,

Trans. JSME, Vol.60, No.574, B, pp.1970-1977,1994-6 - S.Ikuta, M.Akiyama, H.Sugiyama:

Flow Visualization of The Tube Flow in a Heat Exchanger,

Proceedings of The Third Asian Symposium on Visualization, pp.138-142,May 1994 - H.Sugiyama, M.Akiyama, K.Yakuwa, H.Wakayama:

Experimental Analysis of Fully Developed Turbulent Flow in an Elliptical Duct by Laser-Doppler Anemometer,

Trans. JSME, Vol.60, No.571, B, pp.842-848,1994-3 - H.Sugiyama, M.Akiyama, M.Matsumoto, S.Furusawa:

Numerical Simulation of Turbulent Structure in a Straight Channel Flow with Cellular Secondary Currents and Sand Ridges,

Proc. of JSCE,No.485/II-26,pp.45-54,1994.2 - H.Sugiyama, M.Akiyama, M.Matsumoto, M.Hirata:

Numerical Analysis of Fully Developed Turbulent Flow in a Rectangular Duct with One Roughened Long-Side Wall,

Trans. JSME, Vol.59, No.568, B, pp.3781-3788,1993-12 - H.Sugiyama, M.Akiyama, M.Matsumoto, M.Hirata:

Numerical Analysis of Fully Developed Turbulent Flow in a Square Duct with Two Facing Roughened Walls,

Computational Fluid Dynamics Journal,Vol.2 No.3,pp.319-338,October 1993 - H.Sugiyama, M.Akiyama, K.Yamanaka, M.Hirata:

Three-Dimensional Numerical Analysis of Turbulent Structure in a Straight Channel FLow with a Sand Ridge by Using Reynolds Stress Model,

Proc. of JSCE,No.479/II-25,pp.81-90,1993-11 - H.Sugiyama, M.Akiyama, M.Matsumoto, M.Hirata:

Numerical Analysis of Fully Developed Turbulent Flow in a Square Duct with a Rough Wall,

Trans. JSME, Vol.59, No.561, B, pp.1510-1517,1993-5 - H.Sugiyama, M.Akiyama, M.Matsumoto, M.Hirata:

Numerical Analysis of Fully Developed Turbulent Flow in a Square Duct with Two Roughened Facing Walls,

Trans. of JSME, Vol.59, No.561, B, pp.1502-1509,1993-5 - H.Sugiyama, M.Akiyama, N.Ninomiya, M.Hirata, K.Saitoh:

Numerical Analysis of Three Dimensional Flow in An Elliptical Duct by Reynolds Stress Model and Boundary-Fitted Coordinate System,

Computational Fluid Dynamics Journal,Vol.1 No.4,pp.429-442,January 1993 - H.Sugiyama, M.Akiyama, K.Saito, M.Hirata:

Numerical Analysis of Developing Turbulent Flow in an Elliptical Duct by a Reynolds Stress Model,

Trans. JSME, Vol.58, No.554, B, pp.2995-3002,1992-10 - M.Akiyama, H.Sugiyama, N.Ninomiya, A.L.Schmid:

Numerical Analysis and Visualization of Air Ventilation Systems,

Proceedings of The Sixth International Symposium on Flow Visualization, pp.463-468,1992 - M.Akiyama, B.C. Huang, H.Sugiyama, N.Ninomiya, I.Urai, K.Huang:

Numerical Analysis and Visualization of Natural Convection in A Square enclosure,

Proceedings of The Second China-japan Symposium on Visualization, pp.440-447,October 1992 - H.Sugiyama, M.Akiyama, M.Hirata, S.Kubo:

An Algebraic Stress Model for Near-Wall Region,

Trans. JSME, Vol.58, No.550, B, pp.1695-1701,1992-6 - H.Sugiyama, M.Akiyama, K.Yakuwa, M.Hirata:

Experimental Analysis of Anisotropic Turbulent Flow in a Distorting Duct by a Laser-Doppler Anemometer,

Trans. JSME, Vol.58, No.550, B, pp.1753-1760,1992-6 - H.Sugiyama, M.Akiyama, M.Hirata, S.Ueno:

Numerical Solution of Three Dimensional Turbulent Flow in An Equilateral Triangular Duct by Reynolds Stress Model,

Computational Fluid Dynamics Journal,Vol.1 No.1,pp.104-114,Apirl 1992 - H.Sugiyama, M.Akiyama, M.Hirata, S.Ueno:

Numerical Analysis of Redistribution of Turbulent Energy in an Equilateral Triangular Duct by Means of a Reynolds Stress Model,

Trans. JSME, Vol.58, No.546, B, pp.371-378,1992-2 - H.Sugiyama, M.Akiyama, M.Hirata, S.Ueno:

Numerical Analysis of Fully Developed Turbulent Flow in an Equilateral Triangular Duct by a Reynolds Stress Model,

Trans. JSME, Vol.57, No.541, B, pp.2943-2949,1991-9 - a)H.Sugiyama, M.Akiyama, M.Hirata, S.Ueno:

Heat and Mass Transfer Analysis of Three-Dimensional Turbulent Flow in a Distorting Duct,

Trans. JSME, Vol.57, No.539, B, pp.2269-2276,1991-7

b)H.Sugiyama, M.Akiyama, M.Hirata, S.Ueno:

Heat and Mass Transfer Analysis of Three Dimensional Turbulent Flow in a Distorted Duct,

Heat Transfer Japanese Research,Vol.22,No.2,1993,pp.120-138 - M.Akiyama, A.Ikezaki, H.Sugiyama, I.Urai:

Flow Analysis in a 180 Degree-Bend Square Duct by Using Image Processing Technique,

Journal of the Visualization Socity of Japan,Vol.11,No.42,pp.39-45,1991-7 - a)H.Sugiyama, M.Akiyama, K.Shibata:

Heat and Mass Transfer Analysis of Developing Turbulent Flow in a Square Duct,

Trans. JSME, Vol.57, No.535, B, pp.266-272,1991-3

b)H.Sugiyama, M.Akiyama, K.Shibata:

Heat and Mass Transfer Analysis of Developing Turbulent Flow in a Square Duct,

Heat Transfer Japanese Research,Vol.21,No.6,1992,pp.601-614 - H.Sugiyama, M.Akiyama, T.Serizawa:

Numerical Analysis of Developing Flow in A Square Duct by Using Reynolds Stress Model,

The 3rd ASME-JSME Thermal Engineering Joint Conference, Reno, Nevada,pp.159-165,March 1991 - H.Sugiyama, M.Akiyama, T.Serizawa:

An Alegibraic Stress Model Analysis of Developing Turbulent Flow in a Square Duct,

Trans. JSME, Vol.56, No.531, B, pp.3328-3335,1990-11 - M.Akiyama, A.Ikezaki, H.Sugiyama:

Flow Visualization in Curved Square Duct Using Image Processing Controlled by Microcomputer,

5th International Symposium on Flow Visualization, Prague, Czechoslovakia,pp.203-208,August 1989 - M.Akiyama, H.Kawamura, T.Serizawa, H.Sugiyama, A.Kunugi, I.Nishiwaki:

An Algebraic Stress Model Analysis of Fully Developed Turbulent Flow in a Square Duct,

Trans. JSME, Vol.55, No.510, B, pp.351-357,1989-2 - M.Akiyama, A.Ikezaki, H.Sugiyama, I.Nishiwaki:

Numerical and Experimental Data Acquisition of The Complex Flow in Strongly-Curved Square Ducts,

Proceedings of The First China-Japan Symposium on Flow Visualization, Beijin,pp.103-108,May 1988 - M.Akiyama, H.Sugiyama, M.Saito, I.Nishiwaki, T.Murakoshi, K.C.Cheng:

Numerical Computntion of Convective Heat Transfer in the Bend Tube Flow by Time Dependent Tree-Dimensional Parabalic Equations,

Trans. JSME, Vol.54, No.507, B, pp.3219-3226,1988-11 - M.Akiyama, T.Murakoshi, H.Sugiyama, K.C.Cheng, I.Nishiwaki:

Numerical Solution of Convective Heat Transfer for Reverse Transition in the Bend Tube by a Low-Reynolds-Number Turbulent Model,

JSME International Journal,Ser., Vol.31,No.2,pp.289-298,May 1988

- H.Sugiyama:

Flow in Curved Pipes,

Japan Socity of Fluid Mechanics,Nagare,22(Feb.2003),pp.41-50Flow in Curved Pipes(PDF file)

- H.Sugiyama:

Fascinating Turbulence,

JSME,Vol.101,No.956,Mechtop Kanto,1998

- Computational Fluid Dynamics of Turbulent Flow-Model and Numerical Method

Partical writer (Chapter11, Section5, Numerical Analysis by Using Algebraic Stress Model)

University of Tokyo Press, 1998

- Basic Industrial Thermodynamics

M.Sano, H.Sugiyama,Y.Nagahashi

CORONA Publishing Co., LTD., 2019

- Basic Transport Phenomena (Momentum, Heat and Mass Transport)

H.Sugiyama,M.Sano,Y.Nagahashi,N.Kato

MORIKITA Publishing Co., LTD., 2014

- Practical Application of Dimensional Analysis for Fluid and Thermal Engineering

T.Igarashi,H.Sugiyama

KYORITSU Publishing Co., LTD., 2013

- Best Paper Award, Journal of the Visualization Socity of Japan (1992)
- Distinguished Service Award, Journal of the Visualization Socity of Japan (1999)
- Fellow Engineer, Japan Socity of Automotive Engineer (2008)