1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
|
*DECK FLPHPR
SUBROUTINE FLPHPR(IPMAP,NCH,NB,NX,NZ,POWB,PBNM,ICHM,IBNM,POWC,
1 PCHM,BAVG,BFACT,CAVG,CFACT,IMPX)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Print the bundle and channel powers over the fuel lattice. Adapted
* from FLPRNT.
*
*Copyright:
* Copyright (C) 2010 Ecole Polytechnique de Montreal.
*
*Author(s):
* V. Descotes
*
*Parameters: input/output
* IPMAP pointer to fuel-map information.
* NCH number of reactor channels.
* NB number of fuel bundles per channel.
* NX number of elements along x-axis.
* NZ number of elements along z-axis.
* POWB bundle powers in kW.
* PBNM maximum bundle power.
* ICHM maximum-power channel number.
* IBNM maximum-power bundle number.
* POWC channel powers in kW.
* PCHM maximum channel power.
* BAVG average bundle power.
* BFACT bundle power-form factor.
* CAVG average channel power.
* CFACT channel power-form factor.
* IMPX printing index: 0 = no print
* 1 = minimal printing
* 2 = channel power only
* 3 = bundle power by plane only
* 10 = bundle power by channel
* any added values of 2, 3 and 10: 5,12,13,15
*
*-----------------------------------------------------------------------
*
USE GANLIB
*----
* SUBROUTINE ARGUMENTS
*----
TYPE(C_PTR) IPMAP
INTEGER NCH,NB,NX,NZ,ICHM,IBNM,IMPX
REAL POWB(NCH,NB),POWC(NCH),PBNM,PCHM
DOUBLE PRECISION BAVG,CAVG,BFACT
*----
* LOCAL VARIABLES
*----
PARAMETER(IOUT=6)
REAL RADB(NX,NB),RADC(NX)
INTEGER MIX(NX,NZ)
CHARACTER TEXT*12
*
MIX(:NX,:NZ)=0
CALL LCMGET(IPMAP,'BMIX',MIX)
*----
* BUNDLE POWERS OVER EACH CHANNEL
*----
WRITE(IOUT,1009)
IEL=0
ICH=0
DO 10 I=1,NX
IEL=IEL+1
DO 5 K=1,NZ
IF(MIX(IEL,K).NE.0)GOTO 6
5 CONTINUE
GO TO 10
6 ICH=ICH+1
IF(IMPX.GE.10) THEN
WRITE(TEXT,'(A9,I3.3)')'CHANNEL #',ICH
WRITE(IOUT,1000)TEXT,POWC(ICH)
IF(PBNM.LT.1.)THEN
WRITE(IOUT,'(1X,1P,12E11.4)')(POWB(ICH,IB),IB=1,NB)
ELSE IF(PBNM.LT.1000.)THEN
WRITE(IOUT,'(1X,12F11.3)')(POWB(ICH,IB),IB=1,NB)
ELSE
WRITE(IOUT,'(1X,12F11.1)')(POWB(ICH,IB),IB=1,NB)
ENDIF
ENDIF
10 CONTINUE
*
IF((IMPX.LT.3).OR.((IMPX.GE.10).AND.(IMPX.LT.13)))GOTO 50
*----
* BUNDLE POWERS PER RADIAL PLANE
*----
RADB(:NX,:NB)=0.0
WRITE(IOUT,1010)
DO IB=1,NB
IEL=0
ICH=0
DO 20 I=1,NX
IEL=IEL+1
DO 15 K=1,NZ
IF(MIX(IEL,K).NE.0)GOTO 16
15 CONTINUE
GO TO 20
16 ICH=ICH+1
RADB(I,IB)=POWB(ICH,IB)
20 CONTINUE
ENDDO
DO IB=1,NB
WRITE(IOUT,1011)IB
ENDDO
50 IF((IMPX.EQ.0).OR.(IMPX.EQ.1).OR.(IMPX.EQ.3).OR.(IMPX.EQ.4)
1 .OR.(IMPX.EQ.10).OR.(IMPX.EQ.11).OR.(IMPX.EQ.13).OR.(IMPX.EQ.14))
2 GOTO 90
*----
* CHANNEL POWERS IN RADIAL PLANE
*----
RADC(:NX)=0.0
WRITE(IOUT,1013)
IEL=0
ICH=0
DO 60 I=1,NX
IEL=IEL+1
DO 55 K=1,NZ
IF(MIX(IEL,K).NE.0)GOTO 56
55 CONTINUE
GO TO 60
56 ICH=ICH+1
RADC(I)=POWC(ICH)
60 CONTINUE
WRITE(IOUT,*)' '
*----
* FINAL INFORMATION
*----
90 WRITE(IOUT,1002)
IF(PBNM.LT.1000.)THEN
WRITE(IOUT,1003)PBNM,IBNM
ELSE
WRITE(IOUT,1016)PBNM,ICHM,IBNM
ENDIF
IF(BAVG.LT.1000.)THEN
WRITE(IOUT,1005)BAVG
ELSE
WRITE(IOUT,1017)BAVG
ENDIF
FACT=1./REAL(BFACT)
WRITE(IOUT,1006)BFACT,FACT
IF(PCHM.LT.10000.)THEN
WRITE(IOUT,1004)PCHM,ICHM
ELSE
WRITE(IOUT,1018)PCHM,ICHM
ENDIF
IF(CAVG.LT.10000.)THEN
WRITE(IOUT,1007)CAVG
ELSE
WRITE(IOUT,1019)CAVG
ENDIF
FACT=1./CFACT
WRITE(IOUT,1008)CFACT,FACT
RETURN
*
1000 FORMAT(/5X,A12,5X,'CHANNEL POWER =',1X,1P,E11.4,'kW')
1002 FORMAT(/5X,5('--o--',6X)/)
1003 FORMAT(/1X,'MAXIMUM BUNDLE POWER =',1X,F9.1,1X,'kW',
1 3X,'=>',3X,'BUNDLE #',I2.2)
1004 FORMAT(/1X,'MAXIMUM CHANNEL POWER =',1X,F9.1,1X,'kW',
1 3X,'=>',3X,'CHANNEL #',I2,3X)
1005 FORMAT(1X,'AVERAGE POWER OVER ALL BUNDLES',
1 1X,'=',1X,F9.1,1X,'kW')
1006 FORMAT(1X,'BUNDLE-POWER FORM FACTOR',2X,'=>',2X,
1 'AVG/MAX =',1X,F8.4,3X,'(MAX/AVG = ',F8.4,')')
1007 FORMAT(1X,'AVERAGE POWER OVER ALL CHANNELS',
1 1X,'=',1X,F9.1,1X,'kW')
1008 FORMAT(1X,'CHANNEL-POWER FORM FACTOR',2X,'=>',2X,
1 'AVG/MAX =',1X,F8.4,2X,'(MAX/AVG = ',F8.4,')'/)
1009 FORMAT(/20X,'** BUNDLE POWERS OVER EACH',
1 1X,'CHANNEL (kW) **'/)
1010 FORMAT(//20X,'** BUNDLE POWERS PER RADIAL',
1 1X,'PLANE **'/)
1011 FORMAT(//1X,'BUNDLE POWERS',1X,'(kW)',1X,
1 '=>',1X,'RADIAL PLANE',1X,'#',I2.2/)
1013 FORMAT(//20X,'** CHANNEL POWERS IN RADIAL',
1 1X,'PLANE (kW) **'/)
1016 FORMAT(/1X,'MAXIMUM BUNDLE POWER =',1X,F9.1,1X,'kW',
1 3X,'=>',3X,'CHANNEL #',1X,I2,3X,'BUNDLE #',I2.2)
1017 FORMAT(1X,'AVERAGE POWER OVER ALL BUNDLES',
1 1X,'=',1X,F9.1,1X,'kW')
1018 FORMAT(/1X,'MAXIMUM CHANNEL POWER =',1X,F9.1,1X,'kW',
1 3X,'=>',3X,'CHANNEL #',1X,I2)
1019 FORMAT(1X,'AVERAGE POWER OVER ALL CHANNELS',
1 1X,'=',1X,F9.1,1X,'kW')
END
|
