Thermodynamic Calculators for Comprehensive Analysis of Systems, Processes, and Cycles
Explore a series of simplification in the TESTcalc Tree, leading to the accurate analysis tool system states and basic tools for uniform and non-uniform systems. Access TESTapps for a variety of thermodynamic calculators catering to specific, generic, mixing, non-mixing, and combustion systems, along with vapor power, gas power cycles, and more. Dive into the realm of HVAC, chemical equilibrium, IC engines, and reciprocating cycles.
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Presentation Transcript
The TESTcalc Tree: A Series of Simplification Leading to the Correct Analysis Tool System Analysis States Basic Tools Closed Open Uniform System Uniform Flow Converter DeskCal Tables Unsteady Process Steady State Open Process Steady Cycles Specific Generic Generic Specific Non-Uniform Mixing Non-Uniform Semi-Mixing Uniform Systems Non-Uniform Non-Mixing Combustion and Chemical Equilibrium Reciprocating Cycles Psychrometry SL Model RG+RG Model Pure Gas Models PC Model n-IG Model Gas Mixture Models PG+PG Model
TESTapps: Thermodynamic Calculators for Comprehensive Analysis of Systems System Analysis States Basic Tools Closed Open System States Flow States Unit Converter DeskCal Unsteady Closed Processes Open-Steady Systems Open Processes Steady Cycles Specific Generic Generic Specific Mixing Subsystems Semi-Mixing Subsystems Uniform Systems Non-Mixing Subsystems Combustion and Chemical Equilibrium Reciprocating Cycles Psychrometry Single-Flow Systems Mixing Multi-Flow Systems Non-Mixing Multi-Flow Systems Vapor Power and Gas Power Cycles Vapor Compression and Gas Refrigeration Cycles Combustion and Chemical Equilibrium Psychrometry Gas Dynamics
TESTapps: Thermodynamic Calculators for Comprehensive Analysis of Systems System Analysis States Basic Tools Closed Systems Open Systems System States Flow States Unit Converter DeskCal Closed Unsteady Processes Closed Open Unsteady Processes Specific Generic Steady Cycles Mixing Processes Semi-Mixing Processes Simple Processes Non-Mixing Processes Open-Steady Systems Combustion and Chemical Equilibrium Reciprocating Cycles Psychrometry Generic Specific Single-Flow Systems Mixing Multi-Flow Systems Non-Mixing Multi-Flow Systems Vapor Power and Gas Power Cycles Vapor Compression and Gas Refrigeration Cycles Combustion and Chemical Equilibrium Psychrometry Gas Dynamics
TESTapps: Thermodynamic Calculators for Comprehensive Analysis of States, Systems, Processes, and Cycles System Analysis States Basic Tools Closed Systems Open Systems System States Flow States Unit Converter DeskCal Closed Unsteady Processes Closed Open-Steady Systems Open Unsteady Processes Specific Generic Steady Cycles Mixing Processes Semi-Mixing Processes Simple Processes Non-Mixing Processes HVAC Combustion and Chemical Equilibrium IC Engines and Reciprocating Cycles Generic Specific Psychrometry Single-Flow Systems Mixing Multi-Flow Systems Non-Mixing Multi-Flow Systems High-Speed Flows HVAC Vapor Power and Gas Power Cycles Vapor Compression and Gas Refrigeration Cycles Combustion and Chemical Equilibrium Psychrometry Gas Dynamics
Interactives (Rich Interactive Animations) Thermodynamic System Analysis Unsteady Closed Processes Open-Steady Systems Generic Specific Specific Generic Otto Cycle Calorimeter Diesel Cycle Gas Turbine Flow Structure Equilibrium Gas Dynamics IG Model Combustion SL Model IG Model IG Model Exploring Exploring Gas Vapor IG Model IG Model PC Model SL Model Diffusers Nozzles Turbines Compressors Gas Vapor Gas Gas Vapor Vapor IG Model PC Model IG Model IG Model PC Model PC Model
Interactives System Simulation (Flash) Equilibrium State Simulation Closed Processes Open-Steady Systems Specific Specific Generic Otto Cycle Diesel Cycle Gas Turbine Flow Structure Equilibrium Gas Dynamics IG Model Combustion IG Model IG Model Gas Vapor Exploring Thermodynamic Properties (HTML 5) IG Model PC Model Diffusers Nozzles Turbines Compressors Gas Vapor Gas Gas Vapor Vapor IG Model PC Model IG Model IG Model PC Model PC Model
Interactives System Simulation Equilibrium State Simulation Closed Processes Open-Steady Systems Specific (Requires Flash) Specific (Requires Flash) Generic Otto Cycle Diesel Cycle Gas Turbine Flow Structure Equilibrium Gas Dynamics IG Model Combustion IG Model IG Model Explore Explore Open-Steady Devices (HTML 5) Thermodynamic Properties (HTML 5)
Legacy Interactives Flash Based System Simulation Open-Steady Systems Closed Processes Specific (Requires Flash) Specific (Requires Flash) Otto Cycle Diesel Cycle Gas Turbine Flow Structure Equilibrium Gas Dynamics IG Model Combustion IG Model IG Model
Interactives System Simulations Flash-Based Legacy Interactives Equilibrium State Property Exploration Unsteady Systems Undergoing Simple Closed Processes Single-Flow Open-Steady Systems Explore Explore Unsteady Closed Processes (HTML 5) Open-Steady Devices (HTML 5) Explore Explore Specialized Systems (Requires Flash) Thermodynamic Properties (HTML 5)
Interactives To Graphically Explore Systems and Working Substances Flash-Based Legacy Interactives Equilibrium States System Simulations Explore Explore Thermodynamic Properties (HTML 5) Specialized Systems (Require Flash) Unsteady Systems Undergoing Simple Closed Processes Single-Flow Open-Steady Systems Explore Explore Unsteady Closed Processes (HTML 5) Open-Steady Devices (HTML 5)
Legacy Interactives System Simulation (Flash Based) Closed Systems Open-Steady Systems Otto Cycle Diesel Cycle Gas Turbine Flow Structure Equilibrium Gas Dynamics IG Model Combustion IG Model IG Model
