Award Number
1950207, NSF-DoD ASSURE, REU
Faculty Supervisor
Marcel Ilie
Primary Investigator
Valentin Soloiu
Contributors
Evan Cathers, Graduate Assistant
Presentation Type and Release Option
Research Project (Open Access)
Presentation Year
2021
Abstract
The purpose of this research is to run CFDs (Computational Fluid Dynamics) with several type of objects that consist of the following: 90-Degree Pipe, Combustors, Scramjets, Scramjets with Fuel Injectors, and Airfoils. The sole reasoning is to get a clear understanding of the mechanisms that are ran through by using the computational software called: ANSYS. With this, it will aid into running fluid flows through these objects to observe the desirable variables such as: Velocity, Temperature, Pressure, Total Pressure, Total Temperature, Eddy Viscosity, Turbulence Kinetic Energy, Turbulence Eddy Dissipation, etc.
Academic Unit
Department of Mechanical Engineering
Creative Commons License
This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License.
Research Paper
Keywords
1950207, NSF-DoD ASSURE, REU, Velocity, Temperature, Pressure, Total pressure, Total temperature, Eddy viscosity, Turbulence kinetic energy, Turbulence eddy dissipation, Fluids dynamic analysis, Turbulent flows
Fluid Dynamic Analysis Over Turbulent Flows
The purpose of this research is to run CFDs (Computational Fluid Dynamics) with several type of objects that consist of the following: 90-Degree Pipe, Combustors, Scramjets, Scramjets with Fuel Injectors, and Airfoils. The sole reasoning is to get a clear understanding of the mechanisms that are ran through by using the computational software called: ANSYS. With this, it will aid into running fluid flows through these objects to observe the desirable variables such as: Velocity, Temperature, Pressure, Total Pressure, Total Temperature, Eddy Viscosity, Turbulence Kinetic Energy, Turbulence Eddy Dissipation, etc.
Comments
This research was supported by DoD-NSF Assure REU Site Award: 1950207