Monte Carlo Solution of the Ray Effect ProblemUniversity of Michigan, 1986 - Computer programs |
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Page iv
... Flux Values Along Side 2 of the Ray Effect Problem for dX = dY = 0.1 cm and N = 1.0E + 5 from the ANDY code and MCREQ . . 2. Point - Wise Normalized Scalar Flux Values Along Side 2 of the Ray Effect Problem for dX = dY = 0.1 cm and N ...
... Flux Values Along Side 2 of the Ray Effect Problem for dX = dY = 0.1 cm and N = 1.0E + 5 from the ANDY code and MCREQ . . 2. Point - Wise Normalized Scalar Flux Values Along Side 2 of the Ray Effect Problem for dX = dY = 0.1 cm and N ...
Page 10
... along with their deviations . The track length scalar fluxes are the sum of all of the track length contributions ... flux values along side 2 from MCREQ for the test run compared with the ANDY prediction for 1.0E + 5 histories . The scalar ...
... along with their deviations . The track length scalar fluxes are the sum of all of the track length contributions ... flux values along side 2 from MCREQ for the test run compared with the ANDY prediction for 1.0E + 5 histories . The scalar ...
Page 12
... flux values along side 2 from MCREQ for the test run with the results from ANDY for N = 1.0E + 6 . The normalized scalar flux values appear to be converging for both cases . In addition , the deviations in both ANDY and MCREQ have ...
... flux values along side 2 from MCREQ for the test run with the results from ANDY for N = 1.0E + 6 . The normalized scalar flux values appear to be converging for both cases . In addition , the deviations in both ANDY and MCREQ have ...
Common terms and phrases
0.0 SURFACE NUMBER 999 REGION NUMBER ANDY input BOUNDARY COLLISION CALL TRACK FLUX code and MCREQ distance to collision DOUBLE PRECISION Effect Problem Scalar EX/XCOM FLUX IN INTERVAL GO TO 90 HISTORIES STARTED IAR(IR IMIX INTERVAL 18 ITALY MCREF and MCREQ MCREQ Results Monte Carlo code NAS(IR neutron scalar flux neutron transport NORMALIZED FLUX Normalized Scalar Flux Normalized Scalar Standard number of histories NUMBER SURFACE NUMBER particle Point-Wise Normalized Scalar Problem for dX=dY=0.1 Problem Scalar Flux RANDOM NUMBER RAY EFFECT MONTE Ray Effect Problem REGION NUMBER IR relative error RETURN GO Scalar Flux Comparison Scalar Flux Values SENSES SURFACE SEGMENT source region STANDARD DEVIATION SUBROUTINE SURFACE 22 SURFACE NUMBER SURFACE SURFACE SEGMENT NUMBER symmetric Ray Effect three codes top edge TOTAL FLUX total number track length contributions track length estimator TYPE Vacuum Values Along Side variance reduction W=RANF INTEG WIR(IT XCOM XTOL YCOM