Jae Hwa Lee

Jae Hwa Lee

Ulsan National Institute of Science and Technology

Assistant Professor

Department of Mechanical Engineering

Research Area

  • #Physics
  • #Mechanics
  • #Turbulence
  • #Direct numerical simulation
  • #Reynolds number
  • #Flow (psychology)
  • #Drag
  • #Reynolds stress
  • #Vortex
  • #Boundary layer

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Related papers to
‘ Physics ‘ : 20

  • Direct numerical simulation of a 30R long turbulent pipe flow at Reτ = 3008

    2015/06

    2.0 Impact Factor

    76 citations

    Junsun Ahn, Jae Hwa Lee, Jin Lee, Ji-hoon Kang, Hyung Jin Sung

    DOI : 10.1063/1.4922612

    • #Physics
    • #Mechanics
    • #Classical mechanics
    • #Power law
    • #Turbulence
    • #Boundary layer
    • #Reynolds number
    • #Open-channel flow
    • #Pipe flow
    • #Eddy
    • #Direct numerical simulation

All papers authored by
‘ Jae Hwa Lee ’ : 25

  • Direct numerical simulation of a 30R long turbulent pipe flow at Reτ = 3008

    2015/06
    PHYSICS OF FLUIDS

    2.0 Impact Factor

    76 citations

    Junsun Ahn, Jae Hwa Lee, Jin Lee, Ji-hoon Kang, Hyung Jin Sung

    DOI : 10.1063/1.4922612

    • #Physics
    • #Mechanics
    • #Classical mechanics
    • #Power law
    • #Turbulence
    • #Boundary layer
    • #Reynolds number
    • #Open-channel flow
    • #Pipe flow
    • #Eddy
    • #Direct numerical simulation

Related papers to
‘ Physics ‘ : 20

  • Direct numerical simulation of a 30R long turbulent pipe flow at Reτ = 3008

    2015/06
    PHYSICS OF FLUIDS

    2.0 Impact Factor

    76 citations

    Junsun Ahn, Jae Hwa Lee, Jin Lee, Ji-hoon Kang, Hyung Jin Sung

    DOI : 10.1063/1.4922612

    • #Physics
    • #Mechanics
    • #Classical mechanics
    • #Power law
    • #Turbulence
    • #Boundary layer
    • #Reynolds number
    • #Open-channel flow
    • #Pipe flow
    • #Eddy
    • #Direct numerical simulation
  • Spatial organization of large- and very-large-scale motions in a turbulent channel flow

    2014/06
    JOURNAL OF FLUID MECHANICS

    2.4 Impact Factor

    69 citations

    Jin Lee, Jae Hwa Lee, Jung-Il Choi, Hyung Jin Sung

    DOI : 10.1017/JFM.2014.249

    • #Physics
    • #Mechanics
    • #Classical mechanics
    • #Communication channel
    • #Statistical analysis
    • #Merge (version control)
    • #Spatial organization
    • #Streak
    • #Pressure gradient
    • #Pipe flow
    • #Turbulent channel flow

Get access to
Contact information

Log in

All papers authored by
‘ Jae Hwa Lee ’ : 25

  • Direct numerical simulation of a 30R long turbulent pipe flow at Reτ = 3008

    2015/06
    PHYSICS OF FLUIDS

    2.0 Impact Factor

    76 citations

    Junsun Ahn, Jae Hwa Lee, Jin Lee, Ji-hoon Kang, Hyung Jin Sung

    DOI : 10.1063/1.4922612

    • #Physics
    • #Mechanics
    • #Classical mechanics
    • #Power law
    • #Turbulence
    • #Boundary layer
    • #Reynolds number
    • #Open-channel flow
    • #Pipe flow
    • #Eddy
    • #Direct numerical simulation
  • Spatial organization of large- and very-large-scale motions in a turbulent channel flow

    2014/06
    JOURNAL OF FLUID MECHANICS

    2.4 Impact Factor

    69 citations

    Jin Lee, Jae Hwa Lee, Jung-Il Choi, Hyung Jin Sung

    DOI : 10.1017/JFM.2014.249

    • #Physics
    • #Mechanics
    • #Classical mechanics
    • #Communication channel
    • #Statistical analysis
    • #Merge (version control)
    • #Spatial organization
    • #Streak
    • #Pressure gradient
    • #Pipe flow
    • #Turbulent channel flow

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