Keyphrases
Nozzle
100%
Liquid Flow
100%
Shear-induced
100%
Nozzle Flow
100%
Induced Heating
100%
Liquid Monopropellants
100%
Numerical Scheme
66%
Wall Temperature
66%
Prandtl number
66%
Temperature Distribution
33%
Energy Conservation Equation
33%
Mass Conservation Equation
33%
Momentum Conservation Equation
33%
Finite Difference Discretization
33%
High-speed Flow
33%
Heat Temperature
33%
Peak Temperature
33%
Pre-ignition
33%
Small Diameter
33%
Wall Boundary Layer
33%
Wall Heat Transfer
33%
Vorticity-based Formulation
33%
Nonlinear Variation
33%
Temperature-dependent Properties
33%
Eckert number
33%
Axisymmetric Nozzle
33%
Insulated Boundaries
33%
Fluid Acceleration
33%
Engineering
Numerical Study
100%
Numerical Scheme
100%
Induced Heating
100%
Flow in Nozzles
100%
Prandtl Number
100%
Boundary Layer
50%
Vorticity
50%
Discretization
50%
Axisymmetric
50%
Peak Temperature
50%
Mass Conservation
50%
Mm Diameter
50%
Walls (Structural Partitions)
50%
Dependent Property
50%
Momentum Conservation
50%
Eckert Number
50%
Temperature Distribution
50%
Conservation Equation
50%
Earth and Planetary Sciences
Nozzle Flow
100%
Monopropellants
100%
Prandtl Number
100%
Wall Temperature
100%
Conservation Equation
50%
Boundary Layer
50%
Temperature Distribution
50%
Nozzle Walls
50%
Physics
Nozzle Flow
100%
Prandtl Number
100%
Vorticity
50%
Boundary Layer
50%
Temperature Distribution
50%