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Derivation of the Energy Equation
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- เผยแพร่เมื่อ 4 ส.ค. 2024
- 📈 APEX Consulting: theapexconsulting.com
🌎 Website: jousefmurad.com
In this video, we will derive the Energy Equation by having a look at a simple Control Volume (CV). This equation is needed when solving compressible fluid flows and solving the Navier-Stokes Equations. Comment, Like & Subscribe!
► Part 1 - Derivation of the Mass Conservation Equation: • Derivation of the Mass...
► Part 2 - Derivation of the Navier-Stokes Equations: • Derivation of the Navi...
► PDF of the presentation: / 34369776
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#NavierStokes
#EnergyEquation
#Physics
Time Stamps
----------------------
0:00 - 0:30 : Intro
0:31 - 1:45 : Recap from the last videos
1:46 - 2:27 : Derivation of the Energy Equation (Intro)
2:28 - 4:00 : Compressible vs. Incompressible
4:01 - 4:51 : What does "Compressible" mean?
4:52 - 5:40 : Mach Number
5:41 - 7:22 : Change of Energy inside of the Control Volume (CV)
7:23 - 7:35 : Recap Mass Conservation
7:36 - 7:50 : Balance for the Energy Equations
7:51 - 8:50 : Change of Internal & Kinetic Energy
8:51 - 9:44 : Energy Transport - Heat Transfer
9:45 - 10:35 : Work per Time Balance
10:36 - 12:50 : Assembling the Equations - Simplification - Stokes Hypothesis & Dissipation Function
12:51 - 13:42: Perfect Gas Ansatz & Equation
13:43 - 14:57: External Aerodynamics
14:58 - 16:29 : Torque Converter
16:30 - 16:56 : Compressible Flow Around an Airfoil
16:57 - End : Outro
![[CFD] The Energy Equation for Solids and Fluids in CFD](http://i.ytimg.com/vi/z8dZHze_EPo/mqdefault.jpg)
