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System State Daemons: Select a Material Model to Launch. Gas Models. PC Model. SL Model. Pure Gas Models. Gas Mixture Models. General Mixture. Binary Mixture. IG Model. RG Model. PG Model. RG+RG Model. IG+IG Model. PG+PG Model. n-IG Model. MA Model. n-PG Model. n-IGE Model.
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System State Daemons: Select a Material Model to Launch Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model RG+RG Model IG+IG Model PG+PG Model n-IG Model MA Model n-PG Model n-IGE Model
Flow State Daemons: Select a Material Model to Launch Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model RG+RG Model IG+IG Model PG+PG Model n-IG Model MA Model n-PG Model n-IGE Model
Single-Flow Daemons: Select a Material Model to Launch Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model RG+RG Model IG+IG Model PG+PG Model n-IG Model n-PG Model
Gas Models Non-Mixing Multi-Flow Daemons: Select a Material Model to Launch 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 IG+IG Model PG+PG Model RG+RG Model Binary Mixture General Mixture
Gas Models Mixing Multi-Flow Daemons: Select a Material Model to Launch Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model IG+IG Model PG+PG Model RG+RG Model Binary Mixture General Mixture
Closed Process Daemons: Select a Material Model to Launch Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model RG+RG Model IG+IG Model PG+PG Model n-IG Model n-PG Model
Gas Models Non-Mixing Closed-Process Daemons:Select a Material Model to Launch 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 IG+IG Model PG+PG Model RG+RG Model Binary Mixture General Mixture
Gas Models Mixing Closed-Process Daemons: Select a Material Model to Launch Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model IG+IG Model PG+PG Model RG+RG Model Binary Mixture General Mixture
Gas Models Semi-Mixing Closed-Process Daemons: Select a Material Model to Launch Two Different Fluids Two Identical Fluids PC Model SL Model IG Model RG Model PG Model IG+IG Model PG+PG Model RG+RG Model Binary Mixture General Mixture
Open Process Daemons: Select a Material Model to Launch Gas Models PC Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model RG+RG Model IG+IG Model PG+PG Model n-IG Model n-PG Model
Open Power-Cycle Daemons: Select a Material Model to Launch Vapor (Steam) Power Cycles Gas Power Cycles Combined Cycles PC Model Gas Mixture Models Pure Gas Models PG Model PC+PC Model PC+IG Model RG Model IG Model n-IG Model n-PG Model RG+RG Model
Open Refrigeration-Cycle Daemons: Select a Material Model to Launch Vapor Compression Cycles Gas Compression Cycles Combined Cycles PC Model Gas Mixture Models Pure Gas Models PG Model PC+PC Model PC+IG Model RG Model IG Model n-IG Model n-PG Model RG+RG Model
Open-Steady Combustion Daemons: Select a Material Model to Launch Non-Premixed Combustion Premixed Combustion Chemical Equilibrium Analysis IGE Mixture Model with Web Service PG Mixture Model PG Mixture Model IG Mixture Model IG Mixture Model IGE Mixture Model
Open-Steady Combustion Daemons: Select a Material Model to Launch Non-Premixed Combustion Premixed Combustion PG Mixture Model SL Model PG Mixture Model SL Model IG Mixture Model SL Model IG Mixture Model SL Model Known Overall Reaction Chemical Equilibrium Analysis IGE Mixture Model with Web Service IGE Mixture Model
Closed Power Cycle Daemons: Select a Material Model to Launch Gas Models PC Model Pure Gas Models Gas Mixture Models PG Model IG Model RG Model n-IG Model n-PG Model
Closed-Process Combustion Daemons: Select a Material Model to Launch Non-Premixed Combustion Premixed Combustion PG Mixture Model SL Model PG Mixture Model SL Model IG Mixture Model SL Model IG Mixture Model SL Model Known Overall Reaction Chemical Equilibrium Analysis IGE Mixture Model with Web Service IGE Mixture Model
The Daemon Tree: A Series of Simplification Leading to the Correct Analysis Tool Gas Models PC Model SL Model Pure Gas Models Gas Mixture Models General Mixture Binary Mixture IG Model RG Model PG Model RG+RG Model IG+IG Model PG+PG Model n-IG Model MA Model n-PG Model n-IGE Model