Exploring Multi-Flow Fluid Dynamics Models in Gas Systems

"Discover a series of intricate fluid dynamics models within gas systems, ranging from non-mixing scenarios to multi-flow setups. Explore the behavior of various fluids and models in different configurations to enhance your understanding of complex gas mixtures."

• Gas Systems
• Fluid Dynamics
• Multi-Flow Models
• Non-Mixing Scenarios
• Fluid Behavior

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Uploaded on Nov 27, 2024 | 0 Views

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1. System-State TESTapps Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model PG+PG Model IG+IG Model RG+RG Model n-PG Model n-IG Model n-IGE Model MA Model

2. TESTapps (TESTRias at the bottom)

3. Flow-State TESTapps Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model PG+PG Model IG+IG Model RG+RG Model n-PG Model n-IG Model n-IGE Model MA Model

4. Open steady

5. Open-Steady TESTapps Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model PG+PG Model IG+IG Model RG+RG Model n-PG Model n-IG Model

6. Non-Mixing Multi-Flow TESTapps Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model SL+SL Model PC+PC Model PC+IG Model PC+SL Model SL+IG Model PG+PG Model RG+RG Model IG+IG Model

7. Non-Mixing Multi-Flow TESTapps Two Different Models Two Identical Models PC Model SL Model IG Model RG Model PG Model Two Different Models Identical Models SL+SL Model PC+PC Model PC+IG Model PC+SL Model SL+IG Model PG+PG Model RG+RG Model IG+IG Model

8. Non-Mixing Multi-Flow TESTapps Fluids from the Same Model Fluids from Five Different Models PC Model SL Model IG Model RG Model PG Model Select fluids from up to 5 models: SL, PG, IG, PC, and RG Models

9. Non-Mixing Multi-Flow TESTapps Fluids from the Same Model Fluids from Five Different Models PC Model SL Model IG Model RG Model PG Model Multi-Model

10. Mixing Multi-Flow TESTapps Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model PG+PG Model RG+RG Model IG+IG Model

11. Mixing Multi-Flow TESTapps Two or More Different Fluids Two Identical Pure Fluids PC Model SL Model IG Model RG Model PG Model Binary Mixture General Gas Mixture n-PG Model n-IG Model PG+PG Model RG+RG Model IG+IG Model

12. Closed Process

13. Simple Closed-Process TESTapps Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model PG+PG Model IG+IG Model RG+RG Model n-PG Model n-IG Model

14. Non-Mixing Closed-Process TESTapps Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model Multi-Model SL+SL Model PC+PC Model PC+IG Model PC+SL Model SL+IG Model PG+PG Model RG+RG Model IG+IG Model

15. Non-Mixing Closed-Process TESTapps Fluids from Different Models Fluids from the Same Model PC Model SL Model IG Model RG Model PG Model Multi-Model

16. Mixing Closed-Process TESTapps Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model PG+PG Model RG+RG Model IG+IG Model

17. Mixing Closed-Process TESTapps Two or More Different Fluids Two Identical Pure Fluids PC Model SL Model IG Model RG Model PG Model Binary Mixture General Gas Mixture n-PG Model n-IG Model PG+PG Model RG+RG Model IG+IG Model

18. Semi-Mixing Closed-Process TESTapps Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model PG+PG Model RG+RG Model IG+IG Model

19. Semi-Mixing Closed-Process TESTapps Two or More Different Fluids Two Identical Pure Fluids PC Model SL Model IG Model RG Model PG Model Binary Mixture General Gas Mixture n-PG Model n-IG Model PG+PG Model RG+RG Model IG+IG Model

20. Open Process

21. Open-Process TESTapps Gas Models PC Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model PG+PG Model IG+IG Model RG+RG Model n-PG Model n-IG Model

22. Open Specific

23. Open Power-Cycle TESTapps Vapor (Steam) Power Cycles Gas Power Cycles Combined Cycles PC Model PC+PC Model PC+IG Model Gas Mixture Models Pure Gas Models RG Model n-PG Model n-IG Model IG Model PG Model

24. Open Refrigeration-Cycle TESTapps Vapor Compression Cycles Gas Compression Cycles Combined Cycles PC Model PC+PC Model PC+IG Model Gas Mixture Models Pure Gas Models RG Model n-PG Model n-IG Model IG Model PG Model

25. Open-Steady Combustion TESTapps Non-Premixed Combustion Premixed Combustion Chemical Equilibrium Analysis IGE Mixture Model with Web Service PG Mixture Model IG Mixture Model IGE Mixture Model PG Mixture Model IG Mixture Model

26. Open-Steady Combustion TESTapps Non-Premixed Combustion Premixed Combustion Chemical Equilibrium Analysis n-IGE Mixture Model n-PG Mixture Model n-IG Mixture Model n-PG Mixture Model n-IG Mixture Model

27. Closed Specific

28. Reciprocating Closed-Cycle TESTapps Gas Models PC Model Pure Gas Models Gas Mixture Models n-PG Model n-IG Model IG Model RG Model PG Model

29. Closed-Process Combustion TESTapps Non-Premixed Combustion Premixed Combustion IG Mixture Model SL Model Known Overall Reaction Chemical Equilibrium Analysis IGE Mixture Model with Web Service PG Mixture Model SL Model IG Mixture Model SL Model IGE Mixture Model

30. Closed-Process Combustion TESTapps Non-Premixed Combustion Premixed Combustion Chemical Equilibrium Analysis n-IGE Mixture Model n-PG Mixture Model n-IG Mixture Model n-PG Mixture Model n-IG Mixture Model

31. Interactives TESTapp and TESTRia Maps are in a diff. ppt file

32. Interactives to Explore Properties Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model MA Model Explore Mixture

33. Interactives to Explore Properties Solids/Liquids Phase-Change Fluids Gases SL Model PC Model Pure Gases Gas Mixtures General Mixture Binary Mixture RG Model IG Model PG Model Moist Air MA Model n-IG Model

34. Interactives to Explore Properties Solids/Liquids Phase-Change Fluids Gases SL Model PC Model Pure Gases Gas Mixtures General Mixture Binary Mixture RG Model IG Model PG Model Moist Air MA Model n-IG Model

35. Interactives to Explore Open-Steady Devices Working Fluid Ideal Gas (IG) Model Liquid/Vapor Phase Change (PC) Model Gas Gas Gas Gas Diffuser Turbine Compressor Nozzle Vapor Vapor Vapor Vapor Diffuser Turbine Compressor Nozzle

36. Interactives to Explore Open-Steady Devices Working Fluid Ideal Gas (IG) Model Working Fluid Phase-Change (PC) Model Gas Duct Flow Gas Gas Gas Gas Diffuser Turbine Compressor Nozzle Liquid Liquid Pipe Flow Pump Vapor Vapor Vapor Vapor Compressor Nozzle Diffuser Turbine

37. Interactives to Explore Open-Steady Devices Working Fluid Ideal Gas (IG) Model Working Fluid Phase-Change (PC) Model Gas Duct Flow Gas Gas Gas Gas Diffuser Turbine Compressor Nozzle Liquid Liquid Pipe Flow Pump Vapor Vapor Vapor Vapor Compressor Nozzle Diffuser Turbine

38. Interactives to Explore Simple Closed Processes Working Fluid: Solid/Liquid (SL) Model Working Fluid: Ideal Gas (IG) Model Working Fluid: Phase-Change (PC) Model Pure Solid Pure Liquid v=const v=const Pure Gas Pure Gas Pure Gas p=const v=const s=const Vapor/Liquid Vapor/Liquid Vapor/Liquid p=const v=const s=const

39. Interactives to Explore Simple Closed Processes Working Fluid: Solid/Liquid (SL) Model Working Fluid: Ideal Gas (IG) Model Working Fluid: Phase-Change (PC) Model Pure Solid Pure Liquid v=const v=const Pure Gas Pure Gas Pure Gas p=const v=const s=const Vapor/Liquid Vapor/Liquid Vapor/Liquid p=const v=const s=const