Daemon/Ria.

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Presentation transcript:

Daemon/Ria

Non-Uniform Non-Mixing Non-Uniform Semi-Mixing Non-Uniform Mixing The Daemon Tree: A Series of Simplification Leading to the Correct Analysis Tool Basic Tools System Analysis States Closed Open Uniform System Uniform Flow Tables DeskCal Converter Unsteady Process Steady State Open Process Steady Cycles Specific Generic Generic Specific Uniform Systems Non-Uniform Non-Mixing Non-Uniform Semi-Mixing Non-Uniform Mixing Reciprocating Cycles Combustion and Chemical Equilibrium Psychrometry SL Model RG+RG Model n-IG Model Pure Gas Models PC Model PG+PG Model Gas Mixture Models

Unsteady Closed Processes Open-Steady Systems Open Processes The Daemon Tree: A Series of Simplifications Leading to the Correct Analysis Tool Basic Tools System Analysis States Closed Open System States Flow States Tables DeskCal Converter Unsteady Closed Processes Open-Steady Systems Open Processes Steady Cycles Specific Generic Generic Specific Uniform Systems Non-Uniform Non-Mixing Non-Uniform Semi-Mixing Non-Uniform Mixing Reciprocating Cycles Combustion and Chemical Equilibrium Psychrometry Single-Flow Systems Non-Mixing Multi-Flow Systems Mixing Multi-Flow Systems Psychrometry Vapor Power and Gas Power Cycles Vapor Compression and Gas Refrigeration Cycles Combustion and Chemical Equilibrium Gas Dynamics

Non-Uniform Non-Mixing Non-Uniform Semi-Mixing Non-Uniform Mixing The RIA (Rich Interactive Animation) Tree: Organization of the Simulators Basic Tools System Analysis States Closed Open Uniform System Uniform Flow Tables DeskCal Converter Unsteady Process Steady State Open Process Steady Cycles Specific Generic Generic Specific Uniform Systems Non-Uniform Non-Mixing Non-Uniform Semi-Mixing Non-Uniform Mixing Reciprocating Cycles Combustion and Chemical Equilibrium Psychrometry SL Model RG+RG Model n-IG Model Pure Gas Models PC Model PG+PG Model Gas Mixture Models

Unsteady Closed Processes Open-Steady Systems The RIA (Rich Interactive Animation) Tree: Organization of the Simulators System Analysis Unsteady Closed Processes Open-Steady Systems Generic Specific Specific Generic Otto Cycle Diesel Cycle Calorimeter IG Model Gas Turbine Equilibrium Flow Structure IG Model IG Model SL Model Combustion Gas Dynamics SL Model Exploring IG Model Exploring Gas Vapor IG Model PC Model Diffusers Turbines Compressors Nozzles Gas Vapor Gas Vapor Gas Vapor IG Model PC Model IG Model PC Model IG Model PC Model

Thermodynamic System Analysis The RIA (Rich Interactive Animation) Tree: Organization of the Simulators Thermodynamic System Analysis Unsteady Closed Processes Open-Steady Systems Generic Specific Specific Generic Otto Cycle Diesel Cycle Calorimeter IG Model Gas Turbine Equilibrium Flow Structure IG Model IG Model SL Model Combustion Gas Dynamics Exploring Exploring Gas Vapor SL Model IG Model IG Model PC Model Diffusers Turbines Compressors Nozzles Gas Vapor Gas Vapor Gas Vapor IG Model PC Model IG Model PC Model IG Model PC Model