# Fingerprint Dive into the research topics where Chang Hoon Lee is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

- Sort by
- Weight
- Alphabetically

### Engineering & Materials Science

Turbulence

Fluids

Channel flow

Direct numerical simulation

Stretching

Boundary layer flow

Reynolds number

Drag

Heat transfer

Vortex flow

Boundary layers

Drag reduction

Thermophoresis

Natural convection

Partial differential equations

Shear flow

Statistics

Turbulent flow

Skin friction

Brownian movement

Nanoparticles

Magnetohydrodynamics

Trajectories

Buoyancy

Prandtl number

Shear stress

Probability density function

Nusselt number

Computer simulation

Decomposition

Stochastic models

Volume fraction

Torsional stress

Momentum

Gravitation

Torque

Non Newtonian flow

Temperature

Blood

Vorticity

Thermal plumes

Navier Stokes equations

Ordinary differential equations

Grashof number

Lorentz force

Mixed convection

Differential equations

Joule heating

Gravity waves

Liposomes

### Physics & Astronomy

#### Aerospace Sciences

turbulence

isotropic turbulence

homogeneous turbulence

gravitation

Jupiter (planet)

planetary waves

#### General

channel flow

fluids

free convection

convection

vortices

projection

blood flow

suction

intermittency

simulation

turbulent boundary layer

shear flow

stagnation point

turbulence effects

collisions

uniform flow

planetary atmospheres

particle collisions

Lorentz force

viscous flow

buoyancy

dissipation

thermophoresis

#### Mathematical and Computer Sciences

direct numerical simulation

statistics

Reynolds number

probability density functions

low Reynolds number

vorticity

Cartesian coordinates

#### Aeronautics

drag reduction

turbulent flow

boundary layer control

boundary layer flow

particle trajectories

Joule heating

#### Physics

drag

velocity distribution

skin friction

convective heat transfer

#### Engineering

shear stress

blowing

#### Life Sciences

intestines

arteries

### Mathematics

Turbulence

Fluid

Nanofluid

Peristaltic Flow

Turbulent Channel Flow

Homotopy Analysis Method

Asymmetric Channel

Stagnation Point Flow

Stretching Surface

Second Grade Fluid

Heat Transfer

Micropolar

Multifractality

Vortex

Turbulent Flow

Similarity Transformation

Boundary Layer Flow

Particle Size

Low Reynolds number

Intermittency

Incompressible Navier-Stokes Equations

Fluid Model

Inclined

Arteries

Blood Flow

Stratification

Projection Method

Clustering

Gravity

Bubble

Anisotropy

Convection

Perturbation Solution

Tube

Collision

Boundary Layer

Exact Solution

Horizontal

Steady Flow