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Throughout the video you are going to be amazed how simply the binary mixture analysis is exploited to propose a
Throughout the video you are going to be amazed how simply the binary mixture analysis is exploited to propose a distillation unit for the mixture. Then the presenter switches to do the same for a three-component mixture by using Azeotrope Search and Analysis of Ternary Systems. Next, he tries to show how to validate different property methods for a mixture against real data. Finally, he shows what PT Envelope Analysis is and how it could be used
In this part you learn how to simulate pumps, control valves and pipes. More importantly, you will learn how sensitivity is used to predict cavitation in pumps and a lot more
separators are simulated and how wrong selection of property method could lead to major differences between simulation and reality
heat exchanger simulation could be used and what information could be extracted output of aspen results
The speaker at first shows how DSTW model could be used and how its result could be used to model the distillation column in a rigorous form. Then in second part he talks about new mixture, does the same but this time he also talks about conversion problems and how it could be addressed. Furthermore, he shows how the tower could be sized. Finally, he dedicates his time to delve into the difference between rate-based model and equilibrium model
In the video the presenter shows you the different types of utilities used, how they could be calculated for different applications such as distillation columns
In the video you are taught how crushers, fluidized beds, drying and crystallization processes are simulated. Throughout the examples you get to know PSD, stream classes and classifications comprehensively
You will learn when a system is categorized as electrolyte system and how Electrolyte Wizard could be used to accelerate your simulation of electrolyte system. Throughout the video you are provided with two comprehensive examples to help you obtain a deep understanding of electrolyte system and how to behave towards it pragmatically
Throughout the video you see how new component with little experimental information could be created and be used in simulation environment. More importantly you will observe how powerful and extensive Aspen plus library is when the presenter compares the simulation based on his own registered component and the simulation based on Aspen Library
By watching the video, you can see how professional process engineers shortlist possible heat exchanger network using Aspen Energy Analyzer in an optimized manner
The instructor at first shows how this software could be used to estimate the cost of a unit of a process plant and get full report from the software. Then he shows how Aspen plus economic feature could be used to estimate the cost by giving two examples
Throughout the video you are going to be amazed how simply the binary mixture analysis is
Throughout the video you are going to be amazed how simply the binary mixture analysis is exploited to propose a distillation unit for the mixture. Then the presenter switches to do the same for a three-component mixture by using Azeotrope Search and Analysis of Ternary Systems. Next, he tries to show how to validate different property methods for a mixture against real data. Finally, he shows what PT Envelope Analysis is and how it could be used
In this part you learn how to simulate pumps, control valves and pipes. More importantly, you will learn how sensitivity is used to predict cavitation in pumps and a lot more
separators are simulated and how wrong selection of property method could lead to major differences between simulation and reality
heat exchanger simulation could be used and what information could be extracted output of aspen results
The speaker at first shows how DSTW model could be used and how its result could be used to model the distillation column in a rigorous form. Then in second part he talks about new mixture, does the same but this time he also talks about conversion problems and how it could be addressed. Furthermore, he shows how the tower could be sized. Finally, he dedicates his time to delve into the difference between rate-based model and equilibrium model
In the video the presenter shows you the different types of utilities used, how they could be calculated for different applications such as distillation columns
In the video you are taught how crushers, fluidized beds, drying and crystallization processes are simulated. Throughout the examples you get to know PSD, stream classes and classifications comprehensively
You will learn when a system is categorized as electrolyte system and how Electrolyte Wizard could be used to accelerate your simulation of electrolyte system. Throughout the video you are provided with two comprehensive examples to help you obtain a deep understanding of electrolyte system and how to behave towards it pragmatically
Throughout the video you see how new component with little experimental information could be created and be used in simulation environment. More importantly you will observe how powerful and extensive Aspen plus library is when the presenter compares the simulation based on his own registered component and the simulation based on Aspen Library
By watching the video, you can see how professional process engineers shortlist possible heat exchanger network using Aspen Energy Analyzer in an optimized manner
The instructor at first shows how this software could be used to estimate the cost of a unit of a process plant and get full report from the software. Then he shows how Aspen plus economic feature could be used to estimate the cost by giving two examples
Educational Institute for
Equipment and Process Design
We at EIEPD show you the way to become professional in oil and gas industry
Educational Institute for
Equipment and Process Design
We at EIEPD show you the way to become professional in oil and gas industry