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- Freshtime:2023-10-27
- Search:Gas Turbine Simulation(GSP) v12 CRACK Gas Turbine Simulation(GSP) v12 download
Description
Gas Turbine Simulation(GSP) v12
Gas Turbine Simulation Program - GSP is a component based modeling environment and is the main tool used by NLR for performance analysis of gas turbine engines. GSP's flexible object-oriented architecture allows for steady-state and transient simulation of any gas turbine configuration using a user-friendly drag and drop interface running under MS-Windows. Simulate gas turbine configuration by creating a specific arrangement of engine component models in the model window.
GSP is a universal modeling tool that can model almost all gas turbine engine configurations, including external loads such as circuit breakers, pumps, generators, etc. GSP is mainly based on zero dimensional modeling of gas turbine thermodynamic cycles. This indicates that the flow attributes are averaged across the cross-section of the flow at the interface level of the component model (input and output). GSP uses component model stacking to create the required engine thermodynamic cycles. The input is the model configuration, cycle design, or any known reference point (or preferably a few points) of the new engine. The information required for cycle configuration, such as turbine and compressor drawings, can be easily obtained from the manufacturer or on the internet (such as manufacturer's instruction manuals, ASME documents, etc.).
Characteristics and characteristics of gas turbine simulation program - GSP software:
Any gas turbine configuration
Steady state and transient design simulation
NLR has developed custom components
Object-oriented
Table and graphic output formats can be configured by the user
High execution speed on standard computers
Multiple impacts on performance
Quickly analyze complex problems
Simulate multiple models simultaneously
User configurable control system logic
Users can adjust the control of the equation system
Gas Turbine Simulation Program - GSP is a component based modeling environment and is the main tool used by NLR for performance analysis of gas turbine engines. GSP's flexible object-oriented architecture allows for steady-state and transient simulation of any gas turbine configuration using a user-friendly drag and drop interface running under MS-Windows. Simulate gas turbine configuration by creating a specific arrangement of engine component models in the model window.
GSP is a universal modeling tool that can model almost all gas turbine engine configurations, including external loads such as circuit breakers, pumps, generators, etc. GSP is mainly based on zero dimensional modeling of gas turbine thermodynamic cycles. This indicates that the flow attributes are averaged across the cross-section of the flow at the interface level of the component model (input and output). GSP uses component model stacking to create the required engine thermodynamic cycles. The input is the model configuration, cycle design, or any known reference point (or preferably a few points) of the new engine. The information required for cycle configuration, such as turbine and compressor drawings, can be easily obtained from the manufacturer or on the internet (such as manufacturer's instruction manuals, ASME documents, etc.).
Characteristics and characteristics of gas turbine simulation program - GSP software:
Any gas turbine configuration
Steady state and transient design simulation
NLR has developed custom components
Object-oriented
Table and graphic output formats can be configured by the user
High execution speed on standard computers
Multiple impacts on performance
Quickly analyze complex problems
Simulate multiple models simultaneously
User configurable control system logic
Users can adjust the control of the equation system