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7 | 7 |
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8 | 8 | <table> |
9 | 9 | <tr> |
10 | | - <td class="text-column" width=900>This project uses Simscape™ libraries to model a building, add solar radiation load to it, |
| 10 | + <td class="text-column" width=1200>This project uses Simscape™ libraries to model a building, add solar radiation load to it, |
11 | 11 | simulate for HVAC requirements, and setup the model for Building Energy Management System (BEMS) simulations. The project includes |
12 | 12 | basic functionalities to evaluate and size HVAC concepts such as radiators and underfloor heating or cooling. You can use these models |
13 | 13 | as a starting point to design BEMS software. The project Workflow uses two Simscape Model files that leverage one or more (out of four) |
14 | | -of the following Simscape custom Components: Building, Ambient, Operational Data, and EN14511 datasheet based Heat Pump. |
| 14 | +of the following Simscape custom Components: Building, Ambient, Operational Data, and EN14511 datasheet based Heat Pump. You will learn |
| 15 | +how to: |
15 | 16 | </td> |
16 | 17 | </tr> |
17 | 18 | </table> |
18 | | - |
19 | | -<table> |
20 | | - <tr> |
21 | | - <td class="text-column" width=900>You will learn how to:</td> |
22 | | - </tr> |
23 | | -</table> |
| 19 | + |
24 | 20 |
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25 | 21 | ## Create Building Models Quickly and Analyze Solar Loading. |
26 | 22 | <table> |
27 | 23 | <tr> |
28 | | - <td class="image-column" width=300><img src="Overview/Images/createBuildingREADME.gif" alt="Create Building"></td> |
29 | | - <td class="image-column" width=300><img src="Overview/Images/houseAnimationREADME.gif" alt="Create Building"></td> |
| 24 | + <td class="image-column" width=400><img src="Overview/Images/createBuildingREADME.gif" alt="Create Building"></td> |
| 25 | + <td class="image-column" width=400><img src="Overview/Images/houseAnimationREADME.gif" alt="Create Building"></td> |
30 | 26 | <td class="text-column" width=25></td> |
31 | | - <td class="text-column" width=275>Create a multi-storied building and integrate solar load at any location and building orientation. Design more energy efficient buildings by changing windows and walls size, thickness, material and surface properties like reflectivity and absorptivity.</td> |
| 27 | + <td class="text-column" width=375>Create a multi-storied building and integrate solar load at any location and building orientation. Design more energy efficient buildings by changing windows and walls size, thickness, material and surface properties like reflectivity and absorptivity.</td> |
32 | 28 | </tr> |
33 | 29 | </table> |
34 | 30 |
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35 | 31 |
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36 | 32 | ## Analyze Building HVAC Requirements Across Different Seasons, Geography. |
37 | 33 | <table> |
38 | 34 | <tr> |
39 | | - <td class="text-column" width=275>Evaluate the impact on energy consumption from operational parameters linked to time of the day. Example operational parameters include number of occupants at a given day and time, additional electrical loads, and switching on/off the HVAC system. Visualize your results in 3D.</td> |
| 35 | + <td class="text-column" width=375>Evaluate the impact on energy consumption from operational parameters linked to time of the day. Example operational parameters include number of occupants at a given day and time, additional electrical loads, and switching on/off the HVAC system. Visualize your results in 3D.</td> |
40 | 36 | <td class="text-column" width=25></td> |
41 | | - <td class="image-column" width=300><img src="Overview/Images/requirementAnalysisCanvas.png" alt="Building Heat Load Analysis"></td> |
42 | | - <td class="image-column" width=300><img src="Overview/Images/houseHeatLoadREADME.gif" alt="Building Heat Load Analysis"></td> |
| 37 | + <td class="image-column" width=400><img src="Overview/Images/requirementAnalysisCanvas.png" alt="Building Heat Load Analysis"></td> |
| 38 | + <td class="image-column" width=400><img src="Overview/Images/houseHeatLoadREADME.gif" alt="Building Heat Load Analysis"></td> |
43 | 39 | </tr> |
44 | 40 | </table> |
45 | 41 |
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46 | 42 |
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47 | 43 | ## Model Heat Pump, Detailed HVAC, and Building Energy Management System. |
48 | 44 | <table> |
49 | 45 | <tr> |
50 | | - <td class="image-column" width=300><img src="Overview/Images/buildingAnimationREADME.gif" alt="HVAC Requirement Analysis"></td> |
51 | | - <td class="image-column" width=300><img src="Overview/Images/simulateBuildingEnergyMgmtModel.png" alt="Tune Controller"></td> |
| 46 | + <td class="image-column" width=400><img src="Overview/Images/buildingAnimationREADME.gif" alt="HVAC Requirement Analysis"></td> |
| 47 | + <td class="image-column" width=400><img src="Overview/Images/simulateBuildingEnergyMgmtModel.png" alt="Tune Controller"></td> |
52 | 48 | <td class="text-column" width=25></td> |
53 | | - <td class="text-column" width=275>Evaluate performance under loading conditions for the heat pumps. Design your controllers for physical conditions. Evaluate HVAC concepts such as a radiator and underfloor piping.</td> |
| 49 | + <td class="text-column" width=375>Evaluate performance under loading conditions for the heat pumps. Design your controllers for physical conditions. Evaluate HVAC concepts such as a radiator and underfloor piping.</td> |
54 | 50 | </tr> |
55 | 51 | </table> |
56 | 52 |
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