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1、 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Transformer Core Loss Calculation in Maxwell 2D and 3D This example analyzes cores losses for a 3ph power transformer having a laminated steel core using Maxwell 2D and 3D. The transformer is rated 115- 13.8kV, 60Hz and 30MVA. The tested power loss

2、es are 23,710W. It is important to realize that a finite element model cannot consider all of the physical and manufacturing core loss effects in a laminated core. These effects include: mechanical stress on laminations, edge burr losses, step gap fringing flux, circulating currents, variations in s

3、heet loss values, to name just a few. Because of this the simulated core losses can be significantly different than the tested core losses. This example will go through all steps to create the 2D and 3D models based on a customer supplied base model. For core losses, only a single magnetizing windin

4、g needs to be considered. Core material will be characterized for nonlinear BH and core loss characteristics. An exponentially increasing voltage source will be applied in order to eliminate inrush currents and the need for an unreasonably long simulation time (of days or weeks). Finally, the core l

5、oss will be averaged over time and the core flux density will be viewed in an animated plot. This example will be solved in two parts using the 2D Transient and 3D Transient solvers. The model consists of a magnetic core and low voltage winding on each core leg. 7.4-#ANSYS Maxwell 3D Field Simulator

6、 v15 Users Guide 2D Model 3D Model 7.4 Maxwell v15Example (2D/3D Transient) Core Loss 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Launch Maxwell To access Maxwell Click the Microsoft Start button, select Programs, and select Ansoft Maxwell

7、 15.0 and then Maxwell 15. Opening a New Project To Open a New Project After launching Maxwell, a project will be automatically created. You can also create a new project using below options. 1. In an Maxwell window, click the On the Standard toolbar, or select the menu item File New. Select the men

8、u item Project Insert Maxwell 3D Design, or click on the icon Set Solution Type To Set Solution Type Select the menu item Maxwell 3D Solution Type Solution Type Window: 1. Choose Magnetic Transient 2. Click the OK button 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2

9、D/3D Transient) Core Loss Prepare Geometry To Import Geometry Select the menu item Modeler Import Locate the parasolid file “Ex_7_4_Core_Loss.x_t” and Open it. The geometry is of a transformer with core simplified in order to reduce the complexity. Users can bring the geometries directly and do simp

10、lification inside Maxwell. Change Attributes Press Ctrl and select the objects LV_A, LV_B and LV_C and goto their properties window, 1. Change the color of the objects to Orange 2. Change the transparency of the objects to 0 Select the object Core from the history tree and goto Properties window, 1.

11、 Change the transparency of the object to 0 Specify Excitations To Create Coil Terminals Press Ctrl and select the objects LV_A, LV_B and LV_C Select the menu item Modeler Surface Section In Section window, 1. Section Plane: Select XZ 2. Press OK Rename the resulting sections to SectionA, SectionB a

12、nd SectionC respectively Select the sheets SectionA, SectionB and SectionC from the history tree Select the menu item Modeler Boolean Separate Bodies Delete the sheets SectionA_Separate1, SectionB_Separate1 and SectionC_Separate1 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15E

13、xample (2D/3D Transient) Core Loss Assign Excitations Press Ctrl and select the sheets SectionA, SectionB and SectionC from the history tree Select the menu item Maxwell 3D Excitations Assign Coil Terminal In Coil Terminal Excitation window, 1. Base Name: term_A 2. Number of Conductors: 76 3. Press

14、OK This will create three excitations corresponding to each section. Change their names as below: 1. Rename the excitation corresponding to SectionA as term_A 2. Rename the excitation corresponding to SectionB as term_B 3. Rename the excitation corresponding to SectionC as term_C Create Windings Sel

15、ect the menu item Maxwell 3D Excitations Add Winding In Winding window, 1. Name: WindingA 2. Type: Voltage 3. Stranded: Checked 4. Initial Current: 0 A 5. Resistance: 1 mOhm 6. Inductance: 0 mH (Since this is calculated by solver) 7. Voltage: Vpeak*(1-exp(-50*time)*cos(2*pi*60*time) 8. Press OK In A

16、dd Variable window, 1. Unit Type: Voltage 2. Unit: V 3. Value: 138002 / 3 = 11268 4. Press OK Note: This is an exponentially increasing (in several cycles) sinusoidal 60Hz waveform with peak magnitude of 11,268V. 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Tra

17、nsient) Core Loss In Similar way add two more windings WindingB 1. Name: WindingB 2. Type: Voltage 3. Stranded: Checked 4. Initial Current: 0 A 5. Resistance: 1 mOhm 6. Inductance: 0 mH (Since this is calculated by solver) 7. Voltage: Vpeak*(1-exp(-50*time)*cos(2*pi*60*time+(2/3*pi) WindingC 1. Name

18、: WindingC 2. Type: Voltage 3. Stranded: Checked 4. Initial Current: 0 A 5. Resistance: 1 mOhm 6. Inductance: 0 mH (Since this is calculated by solver) 7. Voltage: Vpeak*(1-exp(-50*time)*cos(2*pi*60*time+(4/3*pi) Add Terminals to Windings Expand the Project Manager tree to view Excitations Right cli

19、ck on WindingA and select Add Terminals In Add Terminals window, Select term_A Press OK In Similar way add term_B to WindingB Add term_C to WindingC 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Assign Materials To Assign Materials to Coils

20、Press Ctrl and select the objects LV_A, LV_B and LV_C , right click and select Assign Material In Select Definition window, 1. Type copper in Search by Name field 2. Press OK to assign material To Assign Material to Core Select the object Core from the history tree, right click and select Assign Mat

21、erial In Select Definition window, select the button Add Material In View/Edit Material window, Material Name: M125_027 Relative Permeability: Set the type to Nonlinear Select the button BH Curve from value field In BH Curve window, Select the button Import Dataset Set the File Type to *.Tab Locate

22、the file Ex_7_4_core_loss_B_H.tab and Open it Press OK to close BH Curve window 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Return to View/Edit Material window, Core Loss Type: Set to Electrical Steel Set the tab at the bottom of window Ca

23、lculate Properties for to Core Loss at one Frequency In BP Curve window, Select the button Import Dataset Set the File Type to *.Tab Locate the file Ex_7_4_core_loss_B_loss.tab and Open it Core Loss Unit: w/kg Mass Density: 7650 kg/m3 Frequency: 60 Hz Thickness: 0.27 mm Conductivity: 5000000 S/m Pre

24、ss OK to close BP Curve window 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Note that the core loss coefficients are calculated automatically. Press OK to create the new material Press OK to close Select Definition window Assign Mesh Operat

25、ions In the transient solvers, there is no automatic adaptive meshing. Therefore, the user must either link the mesh from an identical model solved using the magnetostatic and eddy current solvers, or alternatively a manual mesh must be created. In this example, a mesh is created manually using “ins

26、ide selection” to create elements throughout the volume of the objects. To Assign Mesh Operations for Core Select the object Core from the history tree Select the menu item Maxwell 3D Mesh Operations Assign Inside Selection Length Based In Element Length Based Refinement window, Name: Length_Core Re

27、strict Length of Elements: Unchecked Restrict the Number of Elements: Checked Maximum Number of Elements: 10000 Press OK 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss To Assign Mesh Operations for Coils Press Ctrl and select the objects LV_A

28、, LV_B and LV_C from the history tree Select the menu item Maxwell 3D Mesh Operations Assign Inside Selection Length Based In Element Length Based Refinement window, Name: Length_Coils Restrict Length of Elements: Unchecked Restrict the Number of Elements: Checked Maximum Number of Elements: 10000 P

29、ress OK Set Core Loss Calculations To Set Core Loss calculations for Core Select the menu item Maxwell 3D Excitations Set Core Loss In Set Core Loss window, Core: Core Loss Settings: Checked Press OK Note: Once the core loss properties are defined in material definition, a tick mark will appear in t

30、he column Defined in Material indicating core loss coefficients are already specified 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Set Eddy Effects Since winding is single object representing many strands and core is single object represent

31、ing many laminations, eddy effect must be turned off them. To Turn off Eddy Effects in Objects Select the menu item Maxwell 3D Excitations Set Eddy Effects In Set Eddy Effects window, Ensure Eddy Effects are Unchecked for all objects Press OK Create Simulation Region To Create Region Select the menu

32、 item Draw Region In Region window, Padding Data: Pad individual directions +/- X = 30 +/- Y = 200 +/- Z = 30 Note: This small padding % is acceptable as fields are completely concentrated inside the magnetic core and there is little or no fringing 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Gui

33、de 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Analysis Setup To Create Analysis Setup Select the menu item Maxwell 3D Analysis Setup Add Solution Setup In Solve Setup Window, General tab Stop time: 0.1s Time step: 0.0005 s Save Fields tab Type: Linear Step Start: 0.08 s Stop: 0.1 s Step Size

34、: 0.0005 s Select the button Add to List Solver tab Nonlinear Residuals: 1e-6 (To Provide accurate convergence for BH Curve Press OK Save To Save File Select the menu item File Save Save the file with the name “Ex_7_4_Core_Loss.mxwl” Analyze To Run Solution Select the menu item Maxwell 3D Analyze Al

35、l 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Mesh Information To Plot Mesh on Core and Coils Select the object Region from the history tree Select the menu item View Visibility Hide Selection Active View Select the menu item Edit Select A

36、ll Visible Select the menu item Maxwell 3D Fields Plot Mesh In Create Mesh Plot window, Press Done To View Mesh Information Select the menu item Maxwell 3D Results Solution Data In Solutions window, Select the tab Mesh Statistics to view mesh information 7.4-#ANSYS Maxwell 3D Field Simulator v15 Use

37、rs Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Create Reports Plot Winding Currents Vs Time Select the menu item Maxwell 3D Results Create Transient Report Rectangular Plot In Report window, Category: Winding Quantity: Press Ctrl and select Current(WindingA), Current(WindingB) and Curre

38、nt(WindingC) Select New Report Note: Do not close Report window as we will create more plots using same window 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Plot Input Voltages Vs Time In Report window, Quantity Deselect the Current quantiti

39、es already selected Press Ctrl and select InputVoltage(WindingA), InputVoltage(WindingB) and InputVoltage(WindingC) Select New Report Plot Cores Loss vs Time In Report window, Category: Change to Loss Quantity: Select CoreLoss Select New Report Press Close to close report window 7.4-#ANSYS Maxwell 3

40、D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Calculate Avg Losses over a Time Range In XY Plot Corresponding to CoreLoss, right click on the Legend and select Trace Characteristics Add In Add Trace Characteristics window, Category: Math Function: Avg Change th

41、e Range from Full to Specified Start of Range: 80 ms End of Range: 100 ms Select Add and Done 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Create Flux Density Plot To Plot Flux Density on Core Double click on Maxwell3DDesign1 in Project Man

42、ager window to exit Plot view Select the object Core from the history tree Select the menu item Maxwell 3D Fields Fields B Mag_B In Create Field Plot window, Plot on surface Only: Checked Press Done 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core L

43、oss To Animate the Plot Select the menu item Maxwell 3D Fields Animate In Setup Animation window, Sweep Variable: Time Select values: Select the time range from 0.0805s to 0.087s Press OK An Animation window will pop up which will enable to start, stop, pause the animation. Animation speed can also

44、be varied using same window. The animation can be also exported in GIF or AVI format using Export button 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Part 2: 2D Eddy Project Create a 2D Design Automatically To Create a 2D Design from 3D Sel

45、ect the menu item Maxwell 3D Create 2D Design In Create 2D Design window, Coordinate System: Global Section Plane: ZX 2D Geometry Mode: XY Press OK Set Solution Type To Set Solution Type Select the menu item Maxwell 2D Solution Type In Solution Type window, Verify that Geometry Mode is set to Cartes

46、ian, XY Select the radio button to Magnetic Transient Press OK Set Model Depth Set the depth of the 2D XY model to give the same area as in Maxwell 3D = 264704 mm2. Since the width of the core leg = 580mm, set the depth = 456mm. To Set Model Depth Select the menu item Maxwell 2D Model Set Model Dept

47、h In Design Settings window, Set Model Depth to 456 mm Press OK 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Modify 2D Geometry Modify Region Expand the history tree corresponding to the sheet Region Double click on the command CreateRegion

48、 from the history tree In Properties window, Change +X Padding Data to 100 Change X Padding Data to 100 Press OK Delete Unnecessary Sheets Press Ctrl and select the sheets SectionA, SectionB and SectionC Select the menu item Edit Delete Separate Coil Sections Press Ctrl and select the sheets LV_A,LV

49、_B and LV_C Select the menu item Modeler Boolean Separate Bodies 7.4-#ANSYS Maxwell 3D Field Simulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss Specify Excitations Assign Coil: Out Press Ctrl and select the sheets LV_A, LV_B and LV_C from history tree Select the menu item M

50、axwell 2D Excitations Assign Coil In Coil Excitation window, Base Name: out Number of Conductors: 76 Polarity: Positive Rename the excitations created to A_out, B_out and C_out Assign Coil: In Press Ctrl and select the sheets LV_A_Separate1, LV_B_Separate1 and LV_C_Separate1 from history tree Select

51、 the menu item Maxwell 2D Excitations Assign Coil In Coil Excitation window, Base Name: in Number of Conductors: 76 Polarity: Negative Rename the excitations created to A_in, B_in and C_in Add Windings Select the menu item Maxwell 2D Excitations Add Winding In Winding window, 1. Name: WindingA 2. Ty

52、pe: Voltage 3. Stranded: Checked 4. Initial Current: 0 A 5. Resistance: 1 mOhm 6. Inductance: 0 mH (Since this is calculated by solver) 7. Voltage: Vpeak*(1-exp(-50*time)*cos(2*pi*60*time) 8. Press OK In Add Variable window, 1. Unit Type: Voltage 2. Unit: V 3. Value: 138002 / 3 = 11268 4. Press OK 7

53、.4-#ANSYS Maxwell 3D Field S imulator v15 Users Guide 7.4 Maxwell v15Example (2D/3D Transient) Core Loss In Similar way add two more windings WindingB 1. Name: WindingB 2. Type: Voltage 3. Stranded: Checked 4. Initial Current: 0 A 5. Resistance: 1 mOhm 6. Inductance: 0 mH (Since this is calculated by solver) 7. Voltage: Vpeak*(1-exp(-50*time)*cos(2*pi*60*time+(2/3*pi) WindingC 1