Switching to variable particle weight

I have to change the injection of particles. Each edge will receive a similar number of particles and their weight will change to have a constant density based on the geometry. Still testing.
2024-07-04 10:56:13 +02:00 · 2024-07-04 10:56:13 +02:00 · b972120ed5
commit b972120ed5
parent 6b78ae3738
3 changed files with 18 additions and 27 deletions
--- a/src/modules/mesh/2DCyl/moduleMesh2DCyl.f90
+++ b/src/modules/mesh/2DCyl/moduleMesh2DCyl.f90
@ -235,6 +235,7 @@ MODULE moduleMesh2DCyl
      p1 = (/self%z(1), self%r(1) /)
      p2 = (/self%z(2), self%r(2) /)
      r(1:2) = (1.D0 - rnd)*p1 + rnd*p2
+      r(2)   =  (self%r(2) + self%r(1)) * 0.5D0
      r(3)   =  0.D0

    END FUNCTION randPosEdge
@ -578,9 +579,6 @@ MODULE moduleMesh2DCyl
      REAL(8):: detJ
      REAL(8):: fPsi(1:4)
      REAL(8):: dPsi(1:3, 1:4), pDer(1:3, 1:3)
-      REAL(8):: nodeR(1:3)
-      REAL(8), PARAMETER:: correction = 0.81D0 !TODO: No idea why this is needed, this needs more attention. Probably a better
-                                               !      calculation of the volume is needed.

      self%volume  = 0.D0

@ -594,26 +592,18 @@ MODULE moduleMesh2DCyl
      !Computes total volume of the cell
      self%volume  = r*detJ*PI8 !4*2*pi
      !Computes volume per node
-      self%n1%v = self%n1%v + fPsi(1)*self%volume
-      nodeR = self%n1%getCoordinates()
-      if (nodeR(2) == 0.D0) then
-        self%n1%v = self%n1%v * correction
-      end if
-      self%n2%v = self%n2%v + fPsi(2)*self%volume
-      nodeR = self%n2%getCoordinates()
-      if (nodeR(2) == 0.D0) then
-        self%n2%v = self%n2%v * correction
-      end if
-      self%n3%v = self%n3%v + fPsi(3)*self%volume
-      nodeR = self%n3%getCoordinates()
-      if (nodeR(2) == 0.D0) then
-        self%n3%v = self%n3%v * correction
-      end if
-      self%n4%v = self%n4%v + fPsi(4)*self%volume
-      nodeR = self%n4%getCoordinates()
-      if (nodeR(2) == 0.D0) then
-        self%n4%v = self%n4%v * correction
-      end if
+      Xi = (/-5.D-1, -5.D-1, 0.D0/)
+      r = self%gatherF(Xi, 4, self%r)
+      self%n1%v = self%n1%v + fPsi(1)*r*detJ*PI8
+      Xi = (/ 5.D-1, -5.D-1, 0.D0/)
+      r = self%gatherF(Xi, 4, self%r)
+      self%n2%v = self%n2%v + fPsi(2)*r*detJ*PI8
+      Xi = (/ 5.D-1,  5.D-1, 0.D0/)
+      r = self%gatherF(Xi, 4, self%r)
+      self%n3%v = self%n3%v + fPsi(3)*r*detJ*PI8
+      Xi = (/-5.D-1,  5.D-1, 0.D0/)
+      r = self%gatherF(Xi, 4, self%r)
+      self%n4%v = self%n4%v + fPsi(4)*r*detJ*PI8

    END SUBROUTINE volumeQuad