Tatsuhiko Uchida

Last Updated :2022/08/02

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Associate Professor
Web Site
E-mail
utidahiroshima-u.ac.jp
Self-introduction
My Research topic is around flood flow and bed variation analysis. I like to educate students to be able to condier and discuss with themselves.

Basic Information

Academic Degrees

  • Hiroshima University
  • Hiroshima University

Educational Activity

  • [Bachelor Degree Program] School of Engineering : Cluster 4(Civil Engineering and Architecture) : Program of Civil and Environmental Engineering
  • [Master's Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Civil and Environmental Engineering Program
  • [Doctoral Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Civil and Environmental Engineering Program

Research Fields

  • Engineering;Civil engineering;Hydraulic engineering

Research Keywords

  • open channel flow, flood flow, sediment transport, bed variation, local scouring, river structure, hydrodynamic force, tsunami, gravel bed river, boundary layer, vegetation, turbulent flow, computational fluid dynamics, two-phase flow

Affiliated Academic Societies

  • Japan Society of Civil Engineers, 2003/12
  • Ecology and Civil Engineering Society, 2004/12
  • International association for Hdro-environment Engineering and Research (IAHR), 2014/01
  • American Society of Civil Engineers (ASCE), 2016/02

Educational Activity

Course in Charge

  1. 2022, Undergraduate Education, 3Term, Basic Engineering Computer Programming
  2. 2022, Undergraduate Education, 3Term, Lifestyle and the city
  3. 2022, Undergraduate Education, 1Term, Fluid Mechanics
  4. 2022, Undergraduate Education, 2Term, Experiments in Civil and Environmental Engineering
  5. 2022, Undergraduate Education, 4Term, River Engineering
  6. 2022, Undergraduate Education, 3Term, Design of Infrastructures
  7. 2022, Graduate Education (Master's Program) , 1Term, Special Exercises on Civil and Environmental Engineering A
  8. 2022, Graduate Education (Master's Program) , 2Term, Special Exercises on Civil and Environmental Engineering A
  9. 2022, Graduate Education (Master's Program) , 3Term, Special Exercises on Civil and Environmental Engineering A
  10. 2022, Graduate Education (Master's Program) , 4Term, Special Exercises on Civil and Environmental Engineering A
  11. 2022, Graduate Education (Master's Program) , 3Term, Special Exercises on Civil and Environmental Engineering B
  12. 2022, Graduate Education (Master's Program) , 4Term, Special Exercises on Civil and Environmental Engineering B
  13. 2022, Graduate Education (Master's Program) , 1Term, Special Exercises on Civil and Environmental Engineering B
  14. 2022, Graduate Education (Master's Program) , 2Term, Special Exercises on Civil and Environmental Engineering B
  15. 2022, Graduate Education (Master's Program) , Academic Year, Special Study on Civil and Environmental Engineering
  16. 2022, Graduate Education (Master's Program) , Academic Year, Special Study on Civil and Environmental Engineering
  17. 2022, Graduate Education (Master's Program) , 3Term, Environmental Fluid Mechanics
  18. 2022, Graduate Education (Doctoral Program) , Academic Year, Special Study on Civil and Environmental Engineering

Research Activities

Academic Papers

  1. ★, Non-hydrostatic quasi-3D model coupled with dynamic rough wall law for simulating flow over rough bed with submerged boulders, Journal of Hydraulic Engineering, 142(11), 04016054, 20160714
  2. Effects of sizes and shapes of gravel particles on sediment transports and bed variations in a numerical movable-bed channel, Advances in Water Resources, 72, 84-96, 201410
  3. ★, Numerical calculation for bed variation in compound-meandering channel using depth integrated model without assumption of shallow water flow, Advances in Water Resources, 72, 45-56, 201410
  4. 2D numerical computation for flood flow in upper river basin with tributary inflows by using water level hydrographs observed at the main stream, Journal of Flood Risk Management, 7(1), 81-88, 201403
  5. Toward integrated multi-scale simulations of flow and sediment transport in rivers, Journal of JSCE, Ser.B1 (Hydraulic Engineering), 69(4), II_1-II_10, 201302
  6. Quasi-3D two-phase modelling of fluid and sediment dynamics based on a non-hydrostatic depth integrated model with a dynamic rough wall law, The 3rd symposium on Two-pHase modElling for Sediment dynamIcS in Geophysical Flows, Tokyo, Japan, 201609
  7. A 3D flow calculation around a structure in gravel bed rivers by using non-hydrostatic depth-integrated model with dynamic rough-wall law, River Flow 2016, Proceedings of International Conference on Fluvial Hydraulics, 201607
  8. A numerical calculation method for flow in the presence of isolated boulders atop a rough bed by using an enhanced depth integrated model with a non-equilibrium resistance law, River Flow 2014, International Conference on Fluvial Hydraulics, Lausanne, Switzerland, 201409
  9. Quasi 3D numerical simulation for flow and bed variation with various sand waves, Advances in River Sediment Research, The 12th International Symposium on RIVER SEDIMENTATION, Kyoto, Japan, 201309
  10. Three-dimensional gravel motions in numerical movable bed channel with particles of various shapes and sizes, Advances in River Sediment Research, The 12th International Symposium on RIVER SEDIMENTATION, Kyoto, Japan, 201309
  11. A new method for measuring and calculating flows and bed forms around river banks, Advances in River Sediment Research, The 12th International Symposium on RIVER SEDIMENTATION, Kyoto, Japan, 201309
  12. Numerical calculation for bed variation in compound-meandering channel using depth integrated model without assumption of shallow water flow, Two-pHase modElling for Sediment dynamIcS, THESIS-2013,Chatou, France, 201306
  13. A New Method for Measuring Local Flows around River Bank Using ADCP, Proceedings of the Tenth International conference on Hydroscience & Engineering, Orland, Florida, 201211
  14. Three-Dimensional Numerical Modeling for the Motion of Stones with Different Sizes and Shapes in Streams, Proceedings of the Tenth International conference on Hydroscience & Engineering,Orland, Florida, 201211
  15. Bottom velocity computation method based on depth integrated model without shallow water assumption, 3rd International Symposium on Shallow Flows (ISSF) Iowa city, USA, 201206
  16. Numerical Simulation of Bed Variation in a Channel with a Series of Submerged Groins, Proceedings of the 34th IAHR World Congress, Brisbane, Australia, 201107
  17. Practical Numerical Simulation Method For Estimating Local Scouring Around A Pier ~ Bottom Velocity Computation Method Based On Depth Integrated Model, 11th International Symposium on River Sedimentation, CD-ROM, Stellenbosch, South Africa, 201009
  18. A Depth Integrated Model for 3D Turbulence Flows Using Shallow Water Equations and Horizontal Vorticity Equations, 33rd IAHR Congress: Water Engineering for a Sustainable Environment, Vancouver, 1428-1435, 200908
  19. Numerical simulation of water surface elevation in a steep doubly meandering compound channel using CIP-based scheme, Proc. 2nd Int. Conf. on Water and Flood Management (ICWFM2009), Dakka, Bangladesh, 99-108, 200908
  20. Numerical modeling of urban flooding due to storm surge, Proc. 2nd Int. Conf. on Water and Flood Management (ICWFM2009), Dakka, Bangladesh, 435-442, 200903
  21. Experimental and numerical study on inundation flows in urban areas, Proc. APD-IAHR Congress, Nanjing, China, 246-251, 200810
  22. Optimal Interpolation of Submerged River Bed for Laser Scanning Survey Using a Two-Dimensional Numerical Model, Advances in Hydro-Science and Engineering, Nagoya, 8, 200809
  23. Accurate Estimation of Discharge Hydrograph in a Compound Meandering Channel Using a Two-Dimensional Numerical Model, Advances in Hydro-Science and Engineering, CD-ROM, Nagoya, Japan, 8, 200809
  24. 2-D simulation of velocity distribution in a doubly meandering compound channel using CIP-based scheme, Advances in Hydro-Science and Engineering, CD-ROM, Nagoya, Japan, 8, 200809
  25. Prediction of water surface elevation in a doubly meandering compound channel using CIP-based scheme, Proc. of Int. Conference on Fluvial Hydraulics (River Flow 2008),Cesme-Izmir, Turkey, 2043-2050, 200809
  26. Integrated modeling for inundation flows in urban areas, US-China Workshop on Advanced Computational Modeling/ EWRI2008, Honolulu, USA., 200803
  27. Numerical simulation of local scour process due to submerged jet downstream of a groundsill, 32nd Congress of IAHR, the International Association of Hydraulic Engineering and Research, Proceedings, CD-ROM, Venice, Italy, 200707
  28. Modeling of inundation flow in urbanized area using a high-resolution method with Cartesian mesh, 32nd Congress of IAHR, the International Association of Hydraulic Engineering and Research, Proceedings, CD-ROM, Venice, Italy, 200707
  29. A CIP-based method for shallow water flows in complex geometries using Cartesian grids, Proceedings of 7th International Conference on Hydroscience and Engineering ICHE-2006, Philadelphia, U.S.A., 200609
  30. Unsteady flow structure in a compound meandering channel, Proceedings of 7th International Conference on Hydroscience and Engineering ICHE-2006, Philadelphia, U.S.A., 200609
  31. Experiments and analyses on the deformation of the bed protective works downstream of a weir, XXXI IAHR Congress Proceedings, Seoul, Korea, 3103-3111, 200509
  32. Two Dimensional Analysis of Shallow Water Flow with Submersible Large Roughness Elements, XXIX IAHR Congress Proceedings, Theme D, Beijing, China, 1, 364-370, 200109
  33. Quasi-three dimensional analysis on the flushing mechanism of sandbar at a river mouth, Advances in River Sediment Research, The 12th International Symposium on RIVER SEDIMENTATION, Kyoto, Japan, 201309
  34. ★, Quasi-3D two-phase model for dam-break flow over movable bed based on a non-hydrostatic depth-integrated model with a dynamic rough wall law, ADVANCES IN WATER RESOURCES, 129, 317-327, 201907
  35. An Enhanced Depth-integrated Model for Flows over a Negative Step with Hydraulic Jump, RiverFlow 2018 - Ninth international conference on fluvial hydraulics conference, 201809
  36. Drag force acting on emergent resistance for non-uniform open channel flows, the 12th International Symposium on Ecohydraulics (ISE 2018), 201808
  37. Depth integrated model for calculating non-equilibrium velocity distribution of flow through a submerged vegetation zone, the 12th International Symposium on Ecohydraulics (ISE 2018), 201808
  38. Study on an evaluation method of initiation probability of debris flows during heavy rainfall, Journal of JSCE, 9, 94-102, 2021
  39. -Editorial- Special issue on the heavy rain event of July 2018 in western Japan, Journal of JSCE, 9(1), 1-7, 202101
  40. Eulerian deposition model for sediment mixture in gravel-bed rivers with broad particle size distributions, Journal of Hydraulic Engineering, 146
  41. Study on an evaluation method of initiation probability of debris flows during heavy rainfall, Journal of JSCE, 9(1), 94-102
  42. An Integrated Framework for Risk and Impact Assessment of Sediment Hazard on a Road Network, Transportation Research Record, 20210702
  43. Characteristics of precipitation system in Hiroshima prefecture during the heavy rainfall event of July 2018 observed using XRAIN data, Journal of JSCE, Special Topic (SPECIAL ISSUE ON THE HEAVY RAIN EVENT OF JULY 2018), 9(1), 212-220, 202107

Invited Lecture, Oral Presentation, Poster Presentation

  1. Undisturbed fluid flow for improved macroscopic estimation of drag forces acting on circular cylinders, Satoshi Yokojima, Tatsuhiko Uchida, Yusuke Kazehaya, Yoshihisa Kawahara, Satoshi Yokojima, Tatsuhiko Uchida, Yusuke Kazehaya, Yoshihisa Kawahara, 22nd IAHR-APD congress 2020 in Sapporo, 2020/09/15, English, online
  2. The Characteristics of Dam Break Flows in a Meandering Channel, Kobayashi,D., Kobayashi,D, Uchida, T. and Kawahara, Y., 38th IAHR World Congress 2019, 2019/09/05, Without Invitation, English, 38th IAHR World Congress 2019 secretariat, Panama City, Panama
  3. Study on Numerical Analysis Methods of Water Surface and Velocity Profile in a Curved Open Channel, Lugina,F., Lugina,F. Uchida, T. and Kawahara, Y., The 18th International Conference on Civil and Environmental Engineering(ICCEE), 2019/10/29, Without Invitation, English, Pukyong National University, Pukyong National University,Busan,Korea
  4. Investigation of The Flood Caused by a Dam Break in The Southern Part of Lao PDR, Thavixay,K, Thavixay,K. Uchida, T. and Kawahara, Y., The 18th International Conference on Civil and Environmental Engineering(ICCEE), 2019/10/29, Without Invitation, English, Pukyong National University, Pukyong National University,Busan,Korea
  5. Flood Flow Analysis in The Nuta River Basin during The Western Japan Heavy Rain in July 2018, Shimizu,R., himizu,R. Uchida, T. and Kawahara, Y., The 18th International Conference on Civil and Environmental Engineering (ICCEE), 2019/10/28, Without Invitation, English, Pukyong National University, Pukyong National University,Busan,Korea,
  6. Porosity and Volume Variations in the Process of Sediment Sorting by Water Flow,, Hayashi,Y, Hayashi,Y. Uchida, T. and Kawahara, Y., The 18th International Conference on Civil and Environmental Engineering (ICCEE), 2019/10/28, Without Invitation, English, Pukyong National University, Pukyong National University,Busan,Korea,
  7. Sediment-flood disasters caused by extreme heavy rain fall: a case study of rivers in Hiroshima prefecture during the heavy rain in July 2018, Uchida, T, The 2nd International Workshop on Urban Flood Management (UFM2019), 2019/09/11, With Invitation, English, Japan Society Civil Engineers Kochi University, Kochi,Japan
  8. Bottom Velocity Calculation method for multi-scale simulation of flood flows and sediment transport in rivers, Tatsuhiko Uchida, The 4th International Conference on Water Resource and Environment (WRE 2018), 2018/07/18, With Invitation, English, Kaohsing City, Taiwan
  9. 2D Numerical Computation for Flood Flow in Upper River Basin with Tributary Entries by Using Water Level Hydrographs Observed at Main Stream, Tatsuhiko Uchida, Shoji Fukuoka, 5th International Conference on Flood Management, Special Session 6, Advances and New Directions in Hydraulics of Flood Modelling, 2011/09/29, With Invitation, English
  10. Challenges for large-scale sediment transport simulations, Invited presentation, Tatsuhiko Uchida, Workshop on sediment transport dynamics: conventional and novel approaches and their complementary relations, THESIS-2016, 2016/09/13, With Invitation, English

Social Activities

History as Committee Members

  1. Managing Editor, 2018/02, Journal of JSCE
  2. International journal of sediment research, Review Board, 2017/03
  3. 12th International symposium on Ecohydraulics, International Science Committee, 2017/.4, 2018/.8

Organizing Academic Conferences, etc.

  1. The 3rd symposium on Two-pHase modElling for Sediment dynamIcS in Geophysical Flows, Secretary, 2015/, 2016/

History as Peer Reviews of Academic Papers

  1. 2020, International Journal of Sediment Research, Others, reviewer, 1
  2. 2020, Journal of Hydraulic Research, Others, reviewer, 1
  3. 2020, Journal of Hydraulic Engineering, Others, reviewer, 1
  4. 2019, Journal of Water and Environment Technology, Others, reviewer, 1
  5. 2019, Hydrology Research, Others, 1