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C-RELOAD.SIF
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***************************
* SET UP THE INITIAL DATA *
***************************
NAME C-RELOAD
* Problem :
* *********
* Source: Nuclear Reactor Core Reload Pattern Optimization
* A.J. Quist et.al., draft paper, September 1997.
* (2nd data set implemented here)
*
* SIF input: S. Leyffer, November 1997
* classification LOR2-MN-342-284
IE 1 1
IE 2 2
IE 3 3
IE 4 4
IE 5 5
IE 6 6
IE 7 7
IE 8 8
IE 9 9
IE 10 10
IE 11 11
IE 12 12
IE 13 13
IE 14 14
IE N 14 $ number of nodes in core (index I)
IE M 3 $ number of discharged bundles (index J)
IE L 4 $ number of age groups (index K)
IE T 6 $ number of time steps (index S)
IE D11 1 $ diagonal positions
IE D12 7
IE D21 11
IE D22 14
RE KFRESH 1.25
RE FLIM 1.8
AE KEFF_INI 0.956145
AE ALPHA 6E-6
AE CONSPW 364.0
AE CYTIME 350.0
RI TT T
RA T-1 TT -1.0
R/ DELTAT CYTIME T-1
A* ACC ALPHA CONSPW
A* ACC ACC DELTAT
AM -ACC ACC -1.0
DO I 1 N
AE V(I) 1.0
ND
AE V(D11) 0.5
AE V(D12) 0.5
AE V(D21) 0.5
AE V(D22) 0.5
* ... sparsity pattern of matrix G (row--wise definition)
AE NROW1 2
AE ROW_(1,1) 1
AE ROW_(1,2) 2
AE G(1,1) 0.705
AE G(1,2) 0.25
AE NROW2 5
AE ROW_(2,1) 1
AE ROW_(2,2) 2
AE ROW_(2,3) 3
AE ROW_(2,4) 7
AE ROW_(2,5) 8
AE G(2,1) 0.125
AE G(2,2) 0.625
AE G(2,3) 0.125
AE G(2,7) 0.08
AE G(2,8) 0.045
AE NROW3 6
AE ROW_(3,1) 2
AE ROW_(3,2) 3
AE ROW_(3,3) 4
AE ROW_(3,4) 7
AE ROW_(3,5) 8
AE ROW_(3,6) 9
AE G(3,2) 0.125
AE G(3,3) 0.58
AE G(3,4) 0.125
AE G(3,7) 0.045
AE G(3,8) 0.08
AE G(3,9) 0.045
AE NROW4 6
AE ROW_(4,1) 3
AE ROW_(4,2) 4
AE ROW_(4,3) 5
AE ROW_(4,4) 8
AE ROW_(4,5) 9
AE ROW_(4,6) 10
AE G(4,3) 0.125
AE G(4,4) 0.58
AE G(4,5) 0.125
AE G(4,8) 0.045
AE G(4,9) 0.08
AE G(4,10) 0.045
AE NROW5 5
AE ROW_(5,1) 4
AE ROW_(5,2) 5
AE ROW_(5,3) 6
AE ROW_(5,4) 9
AE ROW_(5,5) 10
AE G(5,4) 0.125
AE G(5,5) 0.58
AE G(5,6) 0.125
AE G(5,9) 0.045
AE G(5,10) 0.08
AE NROW6 3
AE ROW_(6,1) 5
AE ROW_(6,2) 6
AE ROW_(6,3) 10
AE G(6,5) 0.125
AE G(6,6) 0.58
AE G(6,10) 0.045
AE NROW7 5
AE ROW_(7,1) 1
AE ROW_(7,2) 2
AE ROW_(7,3) 7
AE ROW_(7,4) 8
AE ROW_(7,5) 11
AE G(7,1) 0.045
AE G(7,2) 0.16
AE G(7,7) 0.5
AE G(7,8) 0.16
AE G(7,11) 0.045
AE NROW8 8
AE ROW_(8,1) 2
AE ROW_(8,2) 3
AE ROW_(8,3) 4
AE ROW_(8,4) 7
AE ROW_(8,5) 8
AE ROW_(8,6) 9
AE ROW_(8,7) 11
AE ROW_(8,8) 12
AE G(8,2) 0.045
AE G(8,3) 0.08
AE G(8,4) 0.045
AE G(8,7) 0.08
AE G(8,8) 0.545
AE G(8,9) 0.08
AE G(8,11) 0.08
AE G(8,12) 0.045
AE NROW9 9
AE ROW_(9,1) 3
AE ROW_(9,2) 4
AE ROW_(9,3) 5
AE ROW_(9,4) 8
AE ROW_(9,5) 9
AE ROW_(9,6) 10
AE ROW_(9,7) 11
AE ROW_(9,8) 12
AE ROW_(9,9) 13
AE G(9,3) 0.045
AE G(9,4) 0.08
AE G(9,5) 0.045
AE G(9,8) 0.08
AE G(9,9) 0.5
AE G(9,10) 0.08
AE G(9,11) 0.045
AE G(9,12) 0.08
AE G(9,13) 0.045
AE NROW10 7
AE ROW_(10,1) 4
AE ROW_(10,2) 5
AE ROW_(10,3) 6
AE ROW_(10,4) 9
AE ROW_(10,5) 10
AE ROW_(10,6) 12
AE ROW_(10,7) 13
AE G(10,4) 0.045
AE G(10,5) 0.08
AE G(10,6) 0.045
AE G(10,9) 0.08
AE G(10,10) 0.5
AE G(10,12) 0.045
AE G(10,13) 0.08
AE NROW11 6
AE ROW_(11,1) 7
AE ROW_(11,2) 8
AE ROW_(11,3) 9
AE ROW_(11,4) 11
AE ROW_(11,5) 12
AE ROW_(11,6) 14
AE G(11,7) 0.045
AE G(11,8) 0.125
AE G(11,9) 0.045
AE G(11,11) 0.5
AE G(11,12) 0.16
AE G(11,14) 0.045
AE NROW12 7
AE ROW_(12,1) 8
AE ROW_(12,2) 9
AE ROW_(12,3) 10
AE ROW_(12,4) 11
AE ROW_(12,5) 12
AE ROW_(12,6) 13
AE ROW_(12,7) 14
AE G(12,8) 0.045
AE G(12,9) 0.08
AE G(12,10) 0.045
AE G(12,11) 0.08
AE G(12,12) 0.545
AE G(12,13) 0.08
AE G(12,14) 0.08
AE NROW13 5
AE ROW_(13,1) 9
AE ROW_(13,2) 10
AE ROW_(13,3) 12
AE ROW_(13,4) 13
AE ROW_(13,5) 14
AE G(13,9) 0.045
AE G(13,10) 0.08
AE G(13,12) 0.08
AE G(13,13) 0.5
AE G(13,14) 0.045
AE NROW14 3
AE ROW_(14,1) 11
AE ROW_(14,2) 12
AE ROW_(14,3) 14
AE G(14,11) 0.045
AE G(14,12) 0.125
AE G(14,14) 0.5
* computed constants
IA T-1 T -1
VARIABLES
DO I 1 N
DO K 1 L
DO J 1 M
X X(I,K,J) INTEGER
OD J
OD K
OD I
DO S 1 T
DO I 1 N
X KINF(I,S)
X PHI(I,S)
OD I
X KEFF(S)
OD S
GROUPS
XN OBJ KEFF(T) -1.0
DO K 1 L
DO J 1 M
DO I 1 N
ZE SUMI(K,J) X(I,K,J) V(I)
OD I
OD J
OD K
DO I 1 N
DO K 1 L
DO J 1 M
XE SUMLM(I) X(I,K,J) 1.0
OD J
OD K
OD I
DO I 1 N
XE PLAC(I) KINF(I,1) -1.0
DO J 1 M
ZE PLAC(I) X(I,1,J) KFRESH
OD J
OD I
DO I 1 N
DO S 1 T
XE KERN(I,S)
OD S
OD I
DO I 1 N
DO S 1 T-1
IA R S 1
XE KINFF(I,S)KINF(I,R) -1.0 KINF(I,S) 1.0
OD S
OD I
DO S 1 T
XE CPOW(S)
OD I
DO I 1 N
DO S 1 T
XL PEAK(I,S)
OD S
OD I
CONSTANTS
DO K 1 L
DO J 1 M
X C-RELOAD SUMI(K,J) 1.0
OD J
OD K
DO I 1 N
X C-RELOAD SUMLM(I) 1.0
OD I
DO S 1 T
X C-RELOAD CPOW(S) 1.0
OD I
* compute rhs for inequality (7)
AE TEMP 0.0
DO I 1 N
A+ TEMP TEMP V(I)
OD I
A/ TEMP FLIM TEMP
DO I 1 N
DO S 1 T
Z C-RELOAD PEAK(I,S) TEMP
OD S
OD I
BOUNDS
DO I 1 N
DO K 1 L
DO J 1 M
XU C-RELOAD X(I,K,J) 1.0
OD J
OD K
OD I
DO I 1 N
DO S 1 T
ZU C-RELOAD KINF(I,S) KFRESH
OD S
OD I
AE LO_KEFF 0.9
AE UP_KEFF 1.5
AI TEMP T
AM TEMP TEMP -0.015
A+ LO_KEFF LO_KEFF TEMP
A+ UP_KEFF UP_KEFF TEMP
DO S 1 T
ZL C-RELOAD KEFF(S) LO_KEFF
ZU C-RELOAD KEFF(S) UP_KEFF
OD S
START POINT
AE R14 14.0
A/ TEMP KFRESH R14
DO S 1 T
Z C-RELOAD KEFF(S) KEFF_INI
OD S
DO I 1 N
DO S 1 T
Z C-RELOAD KINF(I,S) KFRESH
Z C-RELOAD PHI(I,S) TEMP
OD S
OD I
DO I 1 N
DO K 1 L
DO J 1 M
X C-RELOAD X(I,K,J) 0.5
OD J
OD K
OD I
ELEMENT TYPE
EV 2PROD V1 V2
EV 3PROD V1 V2
EV 3PROD V3
ELEMENT USES
* ... elements for c/s (3); A_, B_, C_
IE K 2
IA K1 K -1
DO J 1 M
DO I 1 N
DO II 1 N
XT A_(I,II,J)3PROD
ZV A_(I,II,J)V1 X(I,K,J)
ZV A_(I,II,J)V2 X(II,K1,J)
ZV A_(I,II,J)V3 KINF(II,T)
OD II
OD I
OD J
IE K 3
IA K1 K -1
DO J 1 M
DO I 1 N
DO II 1 N
XT B_(I,II,J)3PROD
ZV B_(I,II,J)V1 X(I,K,J)
ZV B_(I,II,J)V2 X(II,K1,J)
ZV B_(I,II,J)V3 KINF(II,T)
OD II
OD I
OD J
IE K 4
IA K1 K -1
DO J 1 M
DO I 1 N
DO II 1 N
XT C_(I,II,J)3PROD
ZV C_(I,II,J)V1 X(I,K,J)
ZV C_(I,II,J)V2 X(II,K1,J)
ZV C_(I,II,J)V3 KINF(II,T)
OD II
OD I
OD J
DO I 1 N
DO S 1 T
XT KTP(I,S) 2PROD
ZV KTP(I,S) V1 KEFF(S)
ZV KTP(I,S) V2 PHI(I,S)
OD S
OD I
DO I 1 N
DO S 1 T
XT P(I,S) 2PROD
ZV P(I,S) V1 KINF(I,S)
ZV P(I,S) V2 PHI(I,S)
OD S
OD II
GROUP USES
DO I 1 N
DO J 1 M
DO II 1 N
ZE PLAC(I) A_(I,II,J) V(II)
ZE PLAC(I) B_(I,II,J) V(II)
ZE PLAC(I) C_(I,II,J) V(II)
OD II
OD J
OD I
DO S 1 T
DO I 1 N
XE KERN(I,S) KTP(I,S) -1.0
A= TEMP NROW(I)
IR N_ROW TEMP
DO II 1 N_ROW
A= TEMP ROW_(I,II)
IR III TEMP
ZE KERN(I,S) P(III,S) G(I,III)
OD II
OD I
OD S
DO I 1 N
DO S 1 T-1
ZE KINFF(I,S)P(I,S) -ACC
OD S
OD I
DO S 1 T
DO I 1 N
ZE CPOW(S) P(I,S) V(I)
OD I
OD I
DO I 1 N
DO S 1 T
XE PEAK(I,S) P(I,S)
OD S
OD I
OBJECT BOUND
* Solution
ENDATA
***********************
* SET UP THE FUNCTION *
* AND RANGE ROUTINES *
***********************
ELEMENTS C-RELOAD
EV 2PROD V1 V2
EV 3PROD V1 V2
EV 3PROD V3
INDIVIDUALS
T 2PROD
F V1 * V2
G V1 V2
G V2 V1
H V1 V2 1.0
T 3PROD
F V1 * V2 * V3
G V1 V2 * V3
G V2 V1 * V3
G V3 V1 * V2
H V1 V2 V3
H V1 V3 V2
H V2 V3 V1
ENDATA