Difference between revisions of "Process-Simulation-using-DWSIM/C2/Flash-Separator/English"

Latest revision as of 12:55, 4 December 2025

Title: Flash Separator

Author: Priyam Nayak

Keywords: DWSIM, Material stream, simulation, compounds, thermodynamic package, unit systems, flash separator, gas-liquid separator, operating conditions, separation pressure, video tutorial.

Visual Cue	Narration
Slide Number 1 Title Slide	Welcome to this spoken tutorial on simulating a Flash Separator in DWSIM.
Slide Number 2 Learning Objectives	In this tutorial, we will learn to: Simulate a Flash Separator Define Operating Conditions for a Flash Separator
Slide Number 3 System Requirements	This tutorial is recorded using DWSIM version 9.0.2 Windows 11 OS But, this process is identical in Linux, Mac OS X, or FOSSEE OS on ARM.
Slide Number 4 Pre-requisites	To practice this tutorial, you should know to: Add components to a flowsheet. Select thermodynamic packages Specify the properties of a material stream
Slide Number 5 Problem Statement	We will simulate a flash separator, as shown in the figure. This is to determine the exit composition of vapor and liquid streams. All the necessary feed streams and operating conditions are mentioned. Use the Peng-Robinson property package.
Switch to DWSIM.	I have opened the DWSIM interface.
File >> New Chemical Process Model	Click on File on the menu bar. Select New Chemical Process Model.
Point to Simulation Configuration Wizard window Click the Next button.	A Simulation Configuration Wizard window appears. Click the Next button on the lower right corner of the window.
Point to Compounds tab Type Hydrogen in the search bar Check the check box under the Added column. Point to Added Compounds	We are now in the Compounds tab. We will add the compounds present in the flowsheet. Type Hydrogen in the search bar located at the bottom of the Compounds tab. Under Added column, check the checkbox for Hydrogen. Hydrogen is added to the simulation as displayed against the Added Compounds.
Type Methane in the search tab	Next, we will add Methane.
Type Benzene in the search tab	Similarly, add Benzene.
Type Toluene in the search bar.	Then add Toluene.
Point to Added Compounds.	All the compounds required in this simulation are added. It can be seen in the Added Compounds.
Click on the Next button at the bottom.	Click on the Next button at the bottom to continue.
Point to Property Packages Property Packages >> Available Property Package >> Peng-Robinson (PR). Click on Add. Added Property Package >> Peng- Robinson (PR)	Now comes Property Packages. From the Available Property Packages, click on Peng-Robinson (PR). Then click on Add. Peng-Robinson (PR) has been added under Added Property Packages.
Click on the Next button at the bottom.	Click on the Next button at the bottom to continue.
System of Units >> C5	The next option is the System of Units. We will select C5. This has the desired system of units according to our problem statement.
Click on the Next button at the bottom.	Click on the Next button at the bottom to continue.
Behavior >> Next	We will not change anything here. Click on the Next button at the bottom.
Undo/Redo Operation >> Finish	We will not change anything here. Click on the Finish button at the bottom. This completes configuring the simulation.
Point to Object Palette Click on Separators/Tanks section. Click and drag Gas-Liquid Separator to the flowsheet	Now let us add a Flash Separator. Go to the Separators/Tanks section in the Object Palette. It is located at the right side of the flowsheet window. Scroll down a little to see Gas-Liquid Separator. Drag and drop Gas-Liquid Separator to the flowsheet. The Gas-liquid Separator in DWSIM can be used as a flash separator and a decanter.
Point to Gas-Liquid Separator added to the flowsheet. Point to material Stream 1. Point to Material Stream 2. Point to Material Stream 3.	This is the Gas-Liquid Separator. It has 3 material streams auto-connected to its connection ports. Material Stream named 1 enters the Gas-Liquid Separator as feed. Material Stream named 2 leaves the Gas-Liquid Separator as a vapor product. Material Streams named 3 leaves the Gas-Liquid Separator as a liquid product.
Click >> 1 >> 1 (Material Stream) Property Editor Window. Information >> General Info >> Object >> Feed	Now click on the Material Stream named 1. Rename 1 as Feed.
	Now, we will specify the Feed stream properties.
Input Data>> Stream Condition >> Flash Spec>> Temperature and Pressure(TP)	Under Input Data, in Stream Conditions section, select Flash Spec as Temperature and Pressure (TP). By default, Temperature and Pressure are already selected as Flash Spec.
Input Data >> Stream Condition >> Temperature >> 20 C Press Enter	Change Temperature to 20 degree C and press Enter.
Input Data >> Stream Condition >> Pressure >> 50 bar Press Enter	Change Pressure to 50 bar and press Enter.
Point to Molar Flow Rate	Instead of the Overall Flow Rate, we have the individual flow rate of components. So we will not specify anything here.
Click >> Compound Amounts Basis >> Mole Flows Click Clear	To specify the individual flow rate of components, click on Compound Amounts. Choose the Basis as Mole Flows. Click on Clear to clear the default values.
Point to the Empty Table. Hydrogen >> 400	Now, we will enter the Mole Flows for each compound. Click on the first cell below Amount against Hydrogen and enter 400. Press Enter.
Methane >> 100	For Methane, type 100 and press Enter.
Benzene >> 90	For Benzene, type 90 and press Enter.
Toluene >> 10	For Toluene, type 10 and press Enter.
Click >> Accept changes	On the right side, click on the Accept Changes button.
Click >> Stream Conditions Point to Mass Flow	Go back to Stream Conditions. Mass Flow and Molar Flow are automatically calculated as per the entered flow rate of compounds.
Point to 2 and 3.	Now, we will rename our product streams.
Click >> 2 >> 2 (Material Stream) Property Editor Window. Information >> General Info >> Object >> Vapor	Now click on the Material Stream named 2. Rename 2 as Vapor.
Click >> 3 >> 3 (Material Stream) Property Editor Window. Information >> General Info >> Object >> Liquid	Now click on the Material Stream named 3. Rename 3 as Liquid.
	All our streams have been defined. Now we need to specify the parameters for the Gas-Liquid Separator.
Click >> V-1 >> V-1 (Gas-Liquid Separator) Property Editor Window General >> Object >> Flash	Click on the Gas-Liquid Separator named V-1. Rename V-1 as Flash.
Hover mouse at Calculation Parameters	Go to the section Calculation Parameters.
Hover mouse at Calculation Mode Calculation Mode >> Legacy	The first field is Calculation Mode. Click on the drop-down against Calculation Mode and select Legacy.
Hover mouse at Outlet Pressure Calculation	Next is Outlet Pressure Calculation. This is similar to specifying pressure for a mixer. Also, this is to be specified only when more than one feed stream enters the flash. Since we have only one feed stream entering, we will not change anything here.
Point to Override Sep. Temperature Select Override Sep. Temperature	Next is Override Separation Temperature. This is to specify the operating temperature of the flash separator. Since the operating temperature of the flash is not mentioned in the problem, we will not specify anything here.
Point to Override Sep. Temperature Check the check box on the left of Override Sep. Pressure Override Sep. Pressure >> 30 bar	The next field is Override Separation Pressure. This is to specify the operating pressure of the flash separator. Check the checkbox against Override Separation Pressure. Click on the field against Override Separation Pressure and enter 30 bar.
Click Solve	This completes the problem specification. Click on the Solve button in the toolbar area.
Point to Messages at the bottom	Once the calculations are complete, we can see an error message at the bottom. It says, Error in ‘Flash’: This means we must connect an energy stream to the Gas-Liquid Separator.
Flash (Gas-Liquid Separator) property editor window >> Point to Energy Stream Click >> Create and Connect	This can be done in two ways. We can drag an Energy Stream from the Stream section of the Object Palette and drop it near the Gas-Liquid Separator. Alternatively, we can also click on the yellow icon next to the drop-down against Energy Stream. It will automatically Create and Connect and Energy Stream to the Gas-Liquid Separator. Let us do that.
Hover Mouse at E-1	An energy stream named E-1 is created and connected to the Gas-Liquid Separator.
Click Solve	Now, once again, solve the flowsheet. Click on the Solve button in the toolbar area.
Click on File and Click Save As	Let us now save this file. Click on the File and select Save As option.
Type flash-sim	Select a desired location to save the file. Enter the file name as flash-sim.
Insert >> Master Property Table	Now, let us display the streamwise results. Go to the Insert menu and select Master Property Table.
Double click on Master Property Table Point to Configure Master Property Table	Double-click on the Master Property Table to edit it. Configure Master Property Table window opens.
Type Steamwise Results – Flowsheet	In the Name field, type Stream Wise Results hyphen Flash.
Object >> Feed, Vapor, Liquid	Under Object, select Feed, Vapor, and Liquid.
Configure Master Property Table>> Property	Under Property, scroll down to see all the parameters. Now select the properties as: Temperature Pressure Mass Flow Molar Flow Molar Flow (Vapor) Molar Fraction (Mixture) / Hydrogen Molar Flow (Mixture) / Hydrogen Molar Fraction (Mixture) / Methane Molar Flow (Mixture) / Methane Molar Fraction (Mixture) / Benzene Molar Flow (Mixture) / Benzene Molar Fraction (Mixture) / Toluene Molar Flow (Mixture) / Toluene
Close this window.	Close this window.
Place the cursor on the Gas-Liquid Separator to see the table.	Move the Master Property Table for better visibility. Here, we can see the corresponding stream results for Flash Separator.
	This brings us to the end of this tutorial.
Slide Number 6 Summary In this tutorial, we have learnt to Simulate a Flash Separator Define Operating Conditions for a Flash Separator	Let's summarize.
Slide Number 7 Assignment	As an assignment, Simulate the Flash Separator with different feed and operating conditions.
Slide Number 8 DWSIM Flowsheeting Project The FOSSEE team coordinates the conversion of existing flowsheets into DWSIM. We give honorarium and certificates for those who do this. For more details, please visit this site.	We invite you to participate in DWSIM Flowsheeting Project.
Slide Number 9 Lab Migration Project The FOSSEE team helps migrate commercial simulator labs to DWSIM. We give honorarium and certificates for those who do this. For more details, please visit this site.	We invite you to migrate commercial simulator labs to DWSIM.
Slide Number 10 Acknowledgements	The FOSSEE project is funded by NMEICT, Ministry of Education(MoE), Government of India.
Slide Number 11 Thank You	We thank the DWSIM team for making it as an open source software. Thank you for joining.

Contributors and Content Editors

Madhurig

Difference between revisions of "Process-Simulation-using-DWSIM/C2/Flash-Separator/English"

Latest revision as of 12:55, 4 December 2025

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@@ Line 6: / Line 6: @@
+{| border=1
-{| border =1
 |-
 || '''Visual Cue'''
@@ Line 30: / Line 29: @@
 |-
-|  | '''Slide Number 3'''
+|| '''Slide Number 3'''
 '''System Requirements'''
@@ Line 37: / Line 36: @@
 * '''DWSIM version 9.0.2'''
 * '''Windows 11 OS'''
 But, this process is identical in '''Linux, Mac OS X, '''or '''FOSSEE OS on ARM'''.
 |-
 || '''Slide Number 4'''
 '''Pre-requisites'''
-|| To practice this tutorial, you should know to
+|| To practice this tutorial, you should know to:
 * Add components to a '''flowsheet.'''
 * Select '''thermodynamic''' packages
 * Specify the properties of a '''material stream'''
 |-
 || '''Slide Number 5'''
 '''Problem Statement'''
-[[Image:image2.png.png|top]]
 || We will simulate a '''flash separator,''' as shown in the figure.
+This is to determine the '''exit composition ''' of vapor and liquid streams.
-This is to determine the '''exit composition '''of vapor and liquid streams.
@@ Line 73: / Line 67: @@
 |-
 || '''File''' >> '''New Chemical Process Model'''
-|| Click on '''File '''on the menu bar.
+|| Click on '''File''' on the menu bar.
 Select '''New Chemical Process Model'''.
@@ Line 86: / Line 80: @@
 |-
 || Point to '''Compounds''' tab
 Type '''Hydrogen''' in the search bar
 Check the check box under the '''Added '''column.
 '''Point to Added Compounds'''
 || We are now in the '''Compounds''' tab.
 We will add the compounds present in the flowsheet.
 Type '''Hydrogen''' in the search bar located at the bottom of the '''Compounds''' tab.
 Under '''Added''' column, check the checkbox for '''Hydrogen'''.
@@ Line 109: / Line 109: @@
 || Similarly, add '''Benzene.'''
 |-
-|| Type '''Toluene''' in the search bar
+|| Type '''Toluene''' in the search bar.
 || Then add '''Toluene.'''
 |-
@@ Line 116: / Line 116: @@
 It can be seen in the '''Added Compounds'''.
 |-
 || Click on the '''Next '''button at the bottom.
 || Click on the '''Next '''button at the bottom to continue.
@@ Line 125: / Line 125: @@
 Click on '''Add.'''
 '''Added Property Package >> Peng- Robinson (PR)'''
-|| Now comes '''Property Packages.'''
+|| Now comes '''Property Packages'''.
 From the '''Available Property Packages''',
@@ Line 134: / Line 135: @@
 Then click on '''Add.'''
 '''Peng-Robinson (PR)''' has been added under '''Added Property Packages.'''
 |-
 || Click on the '''Next '''button at the bottom.
 || Click on the '''Next '''button at the bottom to continue.
@@ Line 143: / Line 145: @@
 || The next option is the '''System of Units.'''
-We will''' '''select '''C5.'''
+We will select '''C5.'''
 This has the desired system of units according to our problem statement.
 |-
 || Click on the '''Next '''button at the bottom.
 || Click on the '''Next '''button at the bottom to continue.
@@ Line 152: / Line 154: @@
 || '''Behavior''' >> '''Next'''
 || We will not change anything here.
 Click on the '''Next''' button at the bottom.
@@ Line 164: / Line 165: @@
 |-
 || Point to '''Object Palette'''
 Click on '''Separators/Tanks''' section.
@@ Line 203: / Line 205: @@
 || Now click on the Material Stream named '''1'''.
-In the '''Object''' field, under '''General Info''' section, rename '''1 '''as''' Feed'''.
+Rename '''1 ''' as ''' Feed'''.
 |-
 ||
@@ Line 214: / Line 216: @@
 |-
 || '''Input Data >> Stream Condition >> Temperature >> 20 C'''
 Press '''Enter'''
-|| Change '''Temperature''' to '''20 degree C''' and press '''Enter.'''
+|| Change '''Temperature''' to 20 degree '''C''' and press '''Enter.'''
 |-
 || '''Input Data >> Stream Condition >> Pressure >> 50 bar'''
 Press '''Enter'''
-|| Change '''Pressure''' to '''50''' '''bar''' and press '''Enter'''.
+|| Change '''Pressure''' to   50  '''bar''' and press '''Enter'''.
 |-
 || '''Point to Molar Flow Rate'''
 || Instead of the Overall Flow Rate, we have the individual flow rate of components.
@@ Line 232: / Line 236: @@
 '''Basis >> Mole Flows'''
 '''Click Clear'''
@@ Line 241: / Line 246: @@
 |-
 || '''Point to the Empty Table.'''
 '''Hydrogen >> 400'''
-|| Now, we will enter the Mole Flows for each compound.
+|| Now, we will enter the '''Mole Flows''' for each compound.
-Click on the first cell below '''Amount''' against '''Hydrogen''' and enter '''400'''. Press '''Enter'''.
+Click on the first cell below '''Amount''' against '''Hydrogen''' and enter  400. Press '''Enter'''.
 |-
 || '''Methane >> 100'''
-|| For '''Methane, '''type '''100 '''and press '''Enter.'''
+|| For '''Methane,  type  100 and press '''Enter.'''
 |-
 || '''Benzene >> 90'''
-|| For '''Benzene''', type '''90''' and press '''Enter'''.
+|| For '''Benzene''', type  90  and press '''Enter'''.
 |-
 || '''Toluene >> 10'''
-|| For '''Toluene''', type '''10''' and press '''Enter'''.
+|| For '''Toluene''', type  10 and press '''Enter'''.
 |-
 || '''Click >> Accept changes'''
@@ Line 275: / Line 282: @@
 || Now click on the Material Stream named '''2'''.
-In the '''Object''' field under '''General Info''' section, rename '''2 '''as''' Vapor'''.
+Rename  2  as''' Vapor'''.
 |-
 || '''Click >> 3 >> 3 (Material Stream) Property Editor Window.'''
@@ Line 282: / Line 289: @@
 || Now click on the Material Stream named '''3'''.
-In the '''Object''' field under '''General Info''' section, rename '''3 '''as''' Liquid'''.
+Rename  3  as ''' Liquid'''.
 |-
 ||
@@ Line 295: / Line 302: @@
 || Click on the Gas-Liquid Separator named '''V-1.'''
-In this '''Object''' field under '''General '''section, rename '''V-1 '''as''' Flash'''.
+Rename '''V-1 ''' as ''' Flash'''.
 |-
 || Hover mouse at '''Calculation Parameters '''
@@ Line 328: / Line 335: @@
 Check the check box on the left of '''Override Sep. Pressure'''
 '''Override Sep. Pressure >> 30 bar'''
-|| The next field is '''Override Separation Pressure. '''
+|| The next field is '''Override Separation Pressure'''.
 This is to specify the operating pressure of the '''flash separator'''.
 Check the checkbox against '''Override Separation Pressure.'''
 Click on the field against '''Override Separation Pressure''' and enter 30 '''bar'''.
@@ Line 340: / Line 349: @@
 || Click''' Solve'''
 || This completes the problem specification.
 Click on the '''Solve''' button in the toolbar area.
@@ Line 346: / Line 356: @@
 || Once the calculations are complete, we can see an error message at the bottom.
-It says, '''Error in ‘Flash’: The current calculation mode requires an Energy Stream to be connected to the Unit Operation.'''
+It says, '''Error in ‘Flash’: '''
-This error message means we must connect an energy stream to the '''Gas-Liquid Separator'''.
+This means we must connect an energy stream to the '''Gas-Liquid Separator'''.
 |-
 || '''Flash (Gas-Liquid Separator) '''property editor window >> Point to '''Energy Stream'''
@@ Line 356: / Line 366: @@
 We can drag an '''Energy Stream''' from the '''Stream''' section of the '''Object Palette''' and drop it near the '''Gas-Liquid Separator'''.
 Alternatively, we can also click on the yellow icon next to the drop-down against '''Energy Stream'''.
-It will automatically '''Create and Connect''' an '''Energy Stream''' to the '''Gas-Liquid Separator'''.
+It will automatically '''Create and Connect''' and '''Energy Stream''' to the '''Gas-Liquid Separator'''.
 Let us do that.
-|-
-|| '''Click >> Create and Connect'''
-|| Click on the yellow icon next to the drop-down against '''Energy Stream'''.
 |-
 || Hover Mouse at''' E-1'''
@@ Line 370: / Line 381: @@
 || Click''' Solve'''
 || Now, once again, solve the flowsheet.
 Click on the '''Solve''' button in the toolbar area.
 |-
 || Click on '''File '''and Click '''Save As'''
 || Let us now save this file.
 Click on the '''File''' and select '''Save As''' option.
 |-
 || Type '''flash-sim'''
 || Select a desired location to save the file.
 Enter the file name as '''flash-sim'''.
 |-
-||  '''Insert >> Master Property Table'''
+|| '''Insert >> Master Property Table'''
 || Now, let us display the streamwise results.
 Go to the '''Insert '''menu and select '''Master Property Table'''.
 |-
 || Double click on '''Master Property Table'''
   Point to '''Configure Master Property Table'''
-|| Double-click on the '''Master Property Table '''to edit it.
+|| Double-click on the '''Master Property Table ''' to edit it.
 '''Configure Master Property Table''' window opens.
 |-
 || Type '''Steamwise Results – Flowsheet'''
-|| In the '''Name''' field, type '''Stream Wise Results – Flash.'''
+|| In the '''Name''' field, type '''Stream Wise Results hyphen Flash.'''
 |-
 || '''Object >> Feed, Vapor, Liquid'''
-|| Under '''Object''', select '''Feed''', '''Vapor,''' and '''Liquid'''.''' '''
+|| Under '''Object''', select '''Feed''', '''Vapor,''' and '''Liquid'''.
 |-
 || '''Configure Master Property Table>> Property '''
 || Under '''Property''', scroll down to see all the parameters.
@@ Line 446: / Line 460: @@
 '''Summary'''
 In this tutorial, we have learnt to
 * Simulate a '''Flash Separator'''
 * Define Operating Conditions for a '''Flash Separator'''
 || Let's summarize.
 |-
-|| '''Slide Number 7 '''
+|| '''Slide Number 7'''
 '''Assignment'''
-[[Image:image1.png.png|top]]
 || As an assignment,
 Simulate the Flash Separator with different feed and operating conditions.
 |-
 || '''Slide Number 8'''
@@ Line 477: / Line 492: @@
 For more details, please visit this site.
 || We invite you to participate in '''DWSIM Flowsheeting Project'''.
 |-
 || '''Slide Number 9'''
 '''Lab Migration Project'''
 The '''FOSSEE''' team helps migrate commercial '''simulator labs''' to '''DWSIM.'''
 We give honorarium and certificates for those who do this.
 For more details, please visit this site.
 || We invite you to migrate commercial '''simulator labs''' to '''DWSIM.'''
 |-
 || '''Slide Number 10'''
 '''Acknowledgements'''
 || The '''FOSSEE''' project is funded by '''NMEICT, Ministry of Education(MoE)''', Government of India.
 |-
 || '''Slide Number 11'''
 '''Thank You'''
 || We thank the '''DWSIM''' team for making it as an''' open source software.'''
 Thank you for joining.
 |-
 |}