88 lines
3.1 KiB
Python
88 lines
3.1 KiB
Python
import numpy as np
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import gmsh
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gmsh.initialize()
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#gmsh.model.add("adaptive_mesh")
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gmsh.option.setNumber('General.NumThreads', 4)
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#gmsh.option.setNumber("Mesh.Adapt.MaxNumberOfElements", 200000)
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#gmsh.option.setNumber("Mesh.Adapt.MaxNumberOfNodes", 200000)
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#gmsh.option.setNumber("Mesh.Adapt.MaxIter",5)
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#gmsh.option.setNumber("Mesh.MeshSizeMin", 5e-3)
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#gmsh.option.setNumber("Mesh.MeshSizeMax", 10.0)
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gmsh.option.setNumber("Geometry.Tolerance", 1e-2)
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#gmsh.option.setNumber("Mesh.CharacteristicLengthFromCurvature", 0)
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lc = 0.04
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#anodes, plane 1 at -zmax/2
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k=-2*np.pi/24.
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offset = 6*k + 3*k #-pi/2
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xarra_1 = np.array([37*np.cos(k*i+offset) for i in np.arange(0,24)])
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yarra_1 = np.array([37*np.sin(k*i+offset) for i in np.arange(0,24)])
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#cathodes, plane 1 at -zmax/2
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kc=2*np.pi/24.
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offsetc = -4*kc + 2*kc - np.pi/24 #-pi/4
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xarrc_1 = np.array([42*np.cos(kc*i+offsetc) for i in np.arange(0,24)])
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yarrc_1 = np.array([42*np.sin(kc*i+offsetc) for i in np.arange(0,24)])
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#anodes, plane 2 at +zmax/2
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offset = offset-3*k
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xarra_2 = np.array([37*np.cos(k*i+offset) for i in np.arange(0,24)])
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yarra_2 = np.array([37*np.sin(k*i+offset) for i in np.arange(0,24)])
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#cathodes, plane2 at +zmax/2
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offsetc = offsetc-3*kc
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xarrc_2 = np.array([42*np.cos(kc*i+offsetc) for i in np.arange(0,24)])
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yarrc_2 = np.array([42*np.sin(kc*i+offsetc) for i in np.arange(0,24)])
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wire_radius = 0.254 #mm
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anode_wires = []
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cathode_wires = []
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aw_tags = [(3,i) for i in range(24)]
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cw_tags = [(3,i+24) for i in range(24)]
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for i,[xa,ya,xc,yc,xa2,ya2,xc2,yc2] in enumerate(zip(xarra_1,yarra_1,xarrc_1,yarrc_1,xarra_2,yarra_2,xarrc_2,yarrc_2)):
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print(i,xa,ya,-178.3,xc,yc,-178.3,xa2,ya2,178.3,xc2,yc2,178.3)
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pa1 = gmsh.model.occ.addPoint(xa,ya,-178.3,lc)
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pa2 = gmsh.model.occ.addPoint(xa2,ya2,178.3,lc)
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pc1 = gmsh.model.occ.addPoint(xc,yc,-178.3,lc)
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pc2 = gmsh.model.occ.addPoint(xc2,yc2,178.3,lc)
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linea = gmsh.model.occ.addLine(pa1,pa2)
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linec = gmsh.model.occ.addLine(pc1,pc2)
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anode_wires.append(linea)
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cathode_wires.append(linec)
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#anasen_barrel = gmsh.model.occ.addCylinder(0,0,-500,0,0,500+605,300,1234) #tag 1234
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anasen_barrel = gmsh.model.occ.addCylinder(0,0,-200, 0,0,400, 300) #tag 1234
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gmsh.model.occ.synchronize()
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gmsh.model.mesh.embed(1,anode_wires+cathode_wires,3,anasen_barrel)
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f1 = gmsh.model.mesh.field.add("Distance")
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gmsh.model.mesh.field.setNumbers(f1,"CurvesList",anode_wires+cathode_wires)
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f2 = gmsh.model.mesh.field.add("Threshold")
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gmsh.model.mesh.field.setNumber(f2,"InField",f1)
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gmsh.model.mesh.field.setNumber(f2,"SizeMin",0.08)
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gmsh.model.mesh.field.setNumber(f2,"SizeMax",5)
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gmsh.model.mesh.field.setNumber(f2,"DistMin",1)
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gmsh.model.mesh.field.setNumber(f2,"DistMax",20)
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gmsh.model.mesh.field.setAsBackgroundMesh(f2)
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gmsh.model.addPhysicalGroup(1, anode_wires, tag=10)
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gmsh.model.setPhysicalName(1,10,"anode_wires")
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gmsh.model.addPhysicalGroup(1, cathode_wires, tag=20)
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gmsh.model.setPhysicalName(1,20,"cathode_wires")
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gmsh.option.setNumber("Mesh.Algorithm",6)
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gmsh.option.setNumber("Mesh.Algorithm3D", 10) # For 3D meshes
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gmsh.model.mesh.generate(dim=3)
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gmsh.model.mesh.refine()
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#gmsh.model.mesh.refine()
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#gmsh.model.mesh.refine()
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gmsh.fltk.run()
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gmsh.finalize()
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