Difference between revisions of "DWSIM-3.4/C2/Creating-a-material-stream-in-DWSIM/English-timed"
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| 00:10 | | 00:10 | ||
− | | | + | | How to select chemical components |
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| 00:14 | | 00:14 | ||
− | | | + | | How to choose a thermodynamic package |
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| 00:17 | | 00:17 | ||
− | | | + | | How to choose units and values |
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| 00:19 | | 00:19 | ||
− | | | + | | And how to specify a material stream. |
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| 10:19 | | 10:19 | ||
− | | | + | |We defined a material stream. |
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| 10:22 | | 10:22 | ||
− | | | + | |Chose chemical components. |
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| 10:24 | | 10:24 | ||
− | | | + | |Chose the property estimation package. |
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| 10:27 | | 10:27 | ||
− | | | + | |Completed specifications. |
|- | |- | ||
| 10:29 | | 10:29 | ||
− | | | + | |Assigned values and units. |
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| 10:32 | | 10:32 | ||
− | | | + | |Specified '''temperature''', '''pressure''' and''' flow rate.''' |
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| 10:36 | | 10:36 | ||
− | | | + | |Pointed out many different options. |
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Revision as of 16:05, 27 March 2017
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00:00 | Welcome to the spoken tutorial on creating a material stream in DWSIM. |
00:05 | My name is Kannan Moudgalya. |
00:07 | In this tutorial, we are going to learn: |
00:10 | How to select chemical components |
00:14 | How to choose a thermodynamic package |
00:17 | How to choose units and values |
00:19 | And how to specify a material stream. |
00:23 | To record this tutorial, I am using DWSIM 3.4 windows version. |
00:29 | But this process is identical in Linux, Mac OS X and FOSSEE on ARM. |
00:35 | To practice this tutorial, you should have access to DWSIM. |
00:39 | Let us start with creating a new steady state simulation. |
00:46 | When DWSIM is opened, you see a startup window, such as this. |
00:53 | Click on Create new simulation |
00:57 | If a simulation wizard appears, cancel it. |
01:02 | On the top left, locate a field called Simulation. |
01:08 | Hover the mouse over the puzzle like button next to it. |
01:14 | You can see that it is known as Configure Simulation. |
01:18 | Press this button. |
01:23 | A Configure Simulation pop-up opens. |
01:26 | In some earlier versions, this pop-up opened automatically. |
01:31 | The lettering is very small and unreadable in this recording. |
01:35 | To address this, I will zoom in on the relevant portion of this screen only. |
01:42 | I have now rearranged the screen for better readability. |
01:46 | In the Component Search tab of this window, type "benzene". |
01:59 | Benzene appears in two rows. We are interested in the entry that has DWSIM as the database. |
02:07 | We will explain in another tutorial the significance of other databases. |
02:13 | Double click anywhere on this line. |
02:17 | You could have pressed the Add button also which is on the right hand side which we will see shortly. |
02:23 | You can see that Benzene is now selected. |
02:27 | I shall let you see it by shifting the pop-up window to the left. |
02:40 | Repeat this for toluene. |
02:52 | Let us select this. Let us add. |
02:59 | You can see that the component selection is completed. |
03:04 | I shall shift the window back to where it was. |
03:12 | We are now ready to choose Thermodynamics. |
03:14 | Let us go back to the slides. |
03:18 | Let us go to the next slide. |
03:21 | This slide has guidelines on how to choose thermodynamics. |
03:24 | Covering the theory behind this slide is beyond the scope of this tutorial. |
03:30 | As Benzene and Toluene form an ideal solution, we can choose Raoult's law. |
03:35 | Let us do this in DWSIM. |
03:40 | Locate the Thermodynamics tab on the left hand side. Click on it. |
03:47 | A sub-menu appears in the white space above. |
03:51 | Click on the Property Packages in the sub-menu. |
03:56 | Scroll down in this list and locate an option called Raoult's law. |
04:03 | Choose this by double clicking on it. |
04:08 | You will see Raoult's law appearing on the right hand side of the pop-up. |
04:12 | To see this, let me shift the pop-up to the left. |
04:20 | On the lower right hand corner of this pop-up, locate a button called Back to Simulation. Click on it. |
04:28 | The configure simulation pop-up gets closed and we are ready to do the simulation. |
04:35 | The canvas at the centre of this page is used to create flowsheets. |
04:41 | We will now create a material stream. |
04:44 | On the right hand side, you see an object palette. |
04:49 | It has a large collection of many useful chemical engineering objects. |
04:55 | You can scroll it and see what all are available. |
05:01 | Right at the top of this is the Material Stream object. Click it and drag it to the flowsheet. |
05:12 | At the desired place, remove your finger from the mouse to drop the stream. |
05:19 | You may leave it anywhere on this canvas. |
05:21 | You can also move the stream to another place later, if required. |
05:25 | Immediately after dropping the stream, a pop-up to enter compositions appears. |
05:31 | Notice that Mole Fraction is selected by default. |
05:36 | You can choose one of the other possibilities. But, I shall leave it as it is. |
05:42 | The chemicals that we already selected, appear here automatically. |
05:49 | Type 0.5 in the equilibrium composition of Toluene. |
05:55 | Press down-arrow. |
05:57 | Type 0.5 in the Equilibrium Composition of benzene. |
06:02 | Click Apply. |
06:06 | The total of the mole fractions appears on the right hand side. |
06:12 | If the total is not 1, DWSIM 'normalize's the entries, so that the total becomes 1. |
06:19 | But this may give some unpredictable values at times. |
06:22 | So, you yourself may want to ensure that the total comes to 1. Click the Close button. |
06:31 | You can always get back to the previous pop-up by double clicking on the stream. |
06:36 | Below the configure simulation button, notice a place to change the System of Units. |
06:43 | Let us click this menu and choose CGS System. |
06:49 | Let us now complete the specification of this stream. |
06:52 | Click on the stream icon in the flowsheet once; do not double-click it. |
07:00 | On the left hand side of the flowsheet, you will see the selected object window. |
07:07 | This window consists of Properties and Appearance tabs. |
07:12 | The properties tab shows all the properties of the stream. DWSIM assigns default values to all properties. |
07:21 | Let us first scroll up this page. |
07:27 | There are many ways to complete the specification of a material stream. |
07:31 | Press on Specification. |
07:34 | A down-arrow appears on the right hand side, press it. |
07:40 | The default is to specify pressure and temperature. |
07:43 | I shall leave it as it is. |
07:45 | I shall press the down-arrow once again to close the menu. |
07:50 | We see the number 25 already entered against the temperature. |
07:55 | By hovering the mouse over the Temperature, we see the units as degree Celsius. |
08:02 | Let us click to the right of this number. |
08:07 | It is an editable field. Let me delete it and enter 30. |
08:15 | Let us look at pressure next. I shall leave it at 1 atmosphere. |
08:23 | Let us specify the flowrate next. |
08:26 | We can specify- mass flowrate or molar flowrate or volumetric flowrate. |
08:33 | We will specify molar flowrate. |
08:38 | I shall delete the old value and enter 100. |
08:47 | Press Enter to save this change. |
08:50 | Units for this field are moles per second as we can see now. |
08:56 | It is possible to use a combination of units such as CGS and SI. |
09:01 | We will postpone this discussion to another tutorial. |
09:05 | Now the stream is fully defined. |
09:08 | DWSIM has given the name MSTR-004 to this stream automatically. |
09:16 | You may see some other name in your simulation, but do not worry about it. |
09:21 | As I am not happy with this automatically generated name, let me change it. |
09:27 | Under the selected Object window, click on the Appearance tab. |
09:33 | The Appearance tab is used to modify the visual appearance of the stream. |
09:37 | Click on the blank space beside Name and type Inlet1, after deleting this. |
09:55 | Click on the Name again. |
09:58 | You can see the name Inlet1 appearing below this stream in the flowsheet. |
10:04 | We will build on this material stream in the upcoming tutorials. |
10:08 | Let us go back to the slides. |
10:13 | We go to the next slide. |
10:15 | Let me summarize what we learnt in this tutorial. |
10:19 | We defined a material stream. |
10:22 | Chose chemical components. |
10:24 | Chose the property estimation package. |
10:27 | Completed specifications. |
10:29 | Assigned values and units. |
10:32 | Specified temperature, pressure and flow rate. |
10:36 | Pointed out many different options. |
10:40 | I would like to give some assignments now. |
10:43 | Choose Benzene and Toluene mole fractions that do not add up to 1. |
10:48 | Check how DWSIM normalizes when you press Apply. |
10:53 | Go to the page where you defined mole fractions. |
10:57 | Check what the normalize button does when the total is not 1. |
11:02 | Go to the page where we defined the molar flow rate. |
11:05 | DWSIM automatically displays equivalent flow rates in other units. |
11:11 | Check if these values are consistent. |
11:16 | Create a stream consisting of Benzene, Toluene and Xylene. |
11:20 | Carry out the previous assignments for this stream also. |
11:26 | This brings us to the end of this tutorial. |
11:28 | This video summarizes the Spoken Tutorial project. |
11:33 | If you do not have good bandwidth, you can download and watch it. |
11:39 | We conduct workshops using Spoken Tutorials; give certificates. Please contact us. |
11:47 | The Spoken Tutorial project is funded by NMEICT, MHRD, Govt. of India. |
11:52 | We thank the DWSIM team for making it as an open source software. |
11:58 | I want to thank you, the listener, for joining me in this tutorial. Goodbye. |