レポー トN。・
Contents
1. o 0775 ZENS 1839410 88 011 FOR PUBLICATION N9410 88 011 FEBRUARY 1988 Preliminary Results on Experiments Analyses and Evaluations Performed by Reactor Technology Section Experimental Reactor Division Quarterly Report Vol 42. 200 000 MWd t 62 243 150 SN9410 88 011 2 2 1 BB 4 24 35 y HAE y TRU aa Eo mm TD W cm 6 59 91 518
3. 862 312 169 SN9410 88 011 1141 17 20 8 2F 21 22 23 24 9 El 25 25 3 5 6 L 22 A4D 5 A3D Bi 0 BI T T O B8 BSD 1 50 2 Q rv CAF a a 465 St INTA NTA S INTA 2 G 532 0 0 0 1 5 0 O UPR 1 4 5 1 CMI R 2 3 O CMIR 4 AMIR 2 lt s lt P z9 gt v p 3 1 IW Po O nA 5 Q 3 20 6 5 1 lt 3 5 2 O ssnT SMIR 9 Tv PPU 5 10 SME RO c
4. Gr THEO 11 2 1 ERT _
5. SR FE 62 314 250 L2 6AK kj 0 MW 14 A U 9 O i 14 15 15 17 18 19 20 7 wb HB 5 9 3 23 1 14 20 21 110 88 0T76NS ONd SN9410 88 011 4 SN9410 88 011 4 1 MK 14 Gr l E MK L 14 2
6. SMIR 5 1 CMIR 0 15 1 2 1 SG AI IAEA
7. 5 5 63 5 10 _ 113 _ SN9410 88 011 A oe 8 1 1 114 5899410 88 011 8 1 1 s 4 73 x 1022 x Fh i A Be Am RM f R 30 R 2 B P P R 29 C O O O R 3 B AOS ee es SEP Nemec a 8 25 Da 35 SATS O Loon taunt b
8. 6 5 1 0 1 5 3 1 13 7 9 1 4 2 2 7 9 1 4 fm
9. 3 62 225 539410 87 139 62 130 2 SN941 85 149 5 9410 88 011 10 6211 26 9 O 8 SPJDER 7 lt gt 6 SPTEDR is x 5 1 O 17218 PR 4 R 4 3 2 0 20 30 40 50 60 70 8 1 Na 3 6 1 90 100 SN9410 88 011 3 7 13 5 4 Gr l H W MK T 13 2 13 3 7 1 3 7 1 3 7 3 3 7 1 5420 1 62 8 A316 62 E 10 318 MW d Z t
10. F IHX 1 2 MIMIR N DHX TEMPERATURE DRG 6 A Lobe TEMPERATURE 4 AT A LOOP TEMPERATURE LOOP eae dn 7 avestas one 1109 4 1064 DHX 3024 40400 TIME TIRE
11. R 5 55 5 D D AT 60 0 139 0 82 100 0 504 0 70 3 AT 80 62 229 SN9410 88 011 7 6 1 1 1 S 62 9 7 MIMIR N EPO 5 A LOOP TEMPERATURE Gi A 379 Cat 105 B 382 at135 FEIT A 0 1 EPO DHX2 Na
12. 2 O 0 HIBEACON 3 1 46 0 62 214 SN9410 88 011 6 3 Gr L 2 6 2 2 3 4 7 5 6 IAEA
13. 62 209 5 9410 88 011 BOC EOC gt 6 POC CEREN k Z k MW 4 9 5 3 3 1 0MW 100MW X110 4 3 0 2 5 lt 4 A 2 3 k i 2 S 4 2 32 RRR Re 1 2 w Fl Bit 5 9410 88 011 E 4 2 WR 3 3 3 MK I F Y amp R SN9410 88 011 3 4 13 Gr MK 13 MAGI ick Sac 13 RAND MAGTI 1 2 238 257 Pu 3
14. 3 1 8 1 1 90 1 10 2 4 0 Ba gt gt 110 Ce k D 12 89 Tye 40 3h Er 1596 keV 2 Ce 1 pr Pr T 284 5d Tye 17 3min 2 14 10 Er 2186 keV 3 Gk 62 178 292 5 9410 88 011 4
15. Cit SN9410 88 011 2 2 1 62 10 12 I 70 1 55 13 2 LT 60 14 COM 12 4 CMK 1 MK HH 30 000 12 4 10 31 55 13 5 11A 13 1 2 27 28 14 12 1
16. K 2 21 13 MWdt iCB C B 1 C 6 2 385 W cm 675 RR BE 130 000 200 000 MWa t 1 6 x 10 2 4 102 n cm gt 0 1 Mev
17. 14 FR 62 280 7 n VANE X DAMPER HH E S tier LOTT SR HH Sonn LT LTT 5 1 can 56 00 64 CONTROL SIGNAL Z 4 00 6 40 6 60 8 18 9 58 10 99 12 39 18 78 15 18 16 58 17 98 19 38 VANE SIGNAL ot 4 00 16 62 DAMP SIGNAL H 7 9 1 1 A 62 11 18 10 88 OIL6NS 8 VANE DAMPER HEH _ 5 mas maz NN 11 SRE 1 x 1 T ASE PEP i ere TNE CEE 8 nee sa E naa Au 00 48 00 55 09 88 00 96 00 104 00 CONTROL SIGNAL Z 10 86 12 36 19 74 15 13 5 62 17 91 19 30 VANE SIGNAL 12 4 00 15 52
18. t t 4 8 L 9 6 t 4 4 t b 1 4 4 s 8 4 6 4 8 a b i 6 4 8 5 a a 8 t a 1 q a 20 120 4 H 8 ef cee i pe ew ce ef wee wep of a 4 4 a 8 b b 4 ae m mb 3 4 0 Oe tour 14 w 14 7 N rt l x 4 3 2 5 9410 88 011 5 SN9410 88 011 51 4 Gr 4 RR BME ORAS ROR MIRE E LHS 2 B 100 _ 0 055 Ak Zk
19. 2 O 15 3 I 3 23 62 317 SN9410 88 011 3 23 Gr 1 BGA KOE cS DEGRA CMIR B 2
20. 2 ERAS 0 NOISA 3 13 VAX K NOISA m 620 252 539410 86 051 60 296 140 SN9410 88 011 9 3 GEYSER NLP NLPGY Gr GEYSER NLP NLPGY
21. Ko 185 2 11 1 gt RIB aB GE 1 13 1 14 7 12 3 M 7 12 3 3 REL HO AR OOU 62 320 106 lt SN9410 88 011 gt ees sean es lt i sss Tas ww ans 8 I a H t 4 4 4 b t I t 1 1 t t ae ak uska EE gee re a I t t n I H t 1 L 1
22. He 2 B Al Be 2 MK 5 Fil 3 RID HR KOR GAMA F477 U ENDF B IV DOT3 5 7 3 te R 0 1 E 22 2 223809 15 Mev 2 He 1 55 59 10 He atoms mg AL 1 6 10 4 He He 8 4 1 62 301 r 5 9410 88 011 amp 8 4 1 Al Be V He
23. A SN9410 88 011 8 1 Gt 1 2 A 511 8 1 1 FER RO MAILED RS CHR COS RAS IRG AER TCH Ge B 10
24. 7 los 5 9410 88 011 650 Ru 370 10 100 8w cm 10 80 R 60 40 10 20 0 1 2 3 4 5 6 7 8 9 10 11 12 Re hr 10 8 1 153 5 9410 88 011 10 9 EBR RBCB Gr 1 H 2 K2C 2 2 3 4 5 6 RBCB 7 3 1 FP LOF
25. 2 2 Na 7 6 1 SR IHX TEMPERATURE A LOOP 7 6 2 DHX 2 Na Pr 200 7 6 3 lt gt 20 01 2 62 263 100 TEMPERATURE LOOP Gr 900 1376 too TIHE 6 20 299 RPA 7 6 1 600 SEC 817 62 DHX 2 Na ADU 500 TIME aga 400 TIHE DHX 2 Na 399 309 400 100 SOc 60 Bl 7 6 3 SN9410 88 011 7 7 MK 14
26. 5 62 286 SN9410 88 011 10 11 Gr L H 2 1 O 2 0 2 1 AMM GO FRR ICR ASEM LTH 10 CAMA uA O ALBA 1 10 3 s CESSES 4 62 293 1995 5 9410 88 011 10 12 Gr l 22
27. r r r H 9 w ID aot seed ge ceed lt a am un lt wa u lt a a a aa a an w w i 1 1 4 4 5 1 420 4 t 1 H 1 t 4 1 2 1 a g 9 ma mam m mnm mua 3 1 1 4 t 4 5 4 8 gt E TPP a H th pa ka v annuns p a as amas oc 1 l t i I 4 1 4 t t i 4 1 t 4 1 4 gt 4 1 4 d b 1
28. 2 3 12 3 3 12 4 SA EOC SA H 62 279 MW _ Ch 7 THE W 50 100 87 09 16 MOC 87 10 07 EOC 87 10 31 Pe k iN 3 12 1 MK 13 100 MW P 50 100 0 BOC 87 09 16 87 10 07 EDC 87 10 31 SA x0 TN 4 Ahs _ Ay i 9 n 3 12 2 S A MK 13
29. 2 2 4 fm 62 232 2 10 7 1 Bat SAL o amp HR tolg F U A FAT ick BRE fe BF 1 Na Na Na se 5 0 88 BR ae fh 1 B Om 15 BE kg
30. ete LE 4 hk JI LE aanek wt mk min Gee eevee Ferree eet rh mr tae eae 9 ah mr ee om Fe ene etree wea ree 3 2 1 0 209 31 WD S VLNI 3000 2000 m Zh up sa s s h w 1 0 1000 k T 7 8 2 SN9410 88 011 LOOP A LOOP B rer m 1 7 1 3 1 ae eee me
31. 5 9410 88 011 3 62 12 14 13 FFD 15 16 F B4M ATR CMIR 0 HORE AMIR 1 MK
32. Gr MK 14 Hi 62 11 26 INTA 5F2 3 1260 m3 hr 47 71 mNa B 47 33 mNa mNa 40 01 2 3 4 5 6 7 8 9 10 11 12 12 13 14 4 PE 1 B 2 13 A B 2 1 B 62 272 SN9410 88 011 7 8 MK HH 14 Gr 1 1 INTA
33. k MR GX 62 282 SN9410 88 011 eooo ay aa fh Sees R22 y ey ass ss CYCLE 130 EOC DATE 1987 10 31 FILE NAME S406 OUTPUT CY13 5 010 DATA JOYO S A CONFIGURATION Ja RR AGHA A AGRA fl OR I N T A 3 13 1 13 8 5 44 143 48 O gt gt o m 110 88 0 76 6 ONd SN9410 88 011 3 13 1 MAGI 13 A 62 9 7 H 62 31 F 3 RA BEBE Cat EOC 2 43 x 10 PR BE 6 16 x 10 PFD 255 H J 883 65 WA cm 2 2 2 301 8 RE
34. 900 1 cet a ha eet Oe BON 700 _ asss e aa u we oy m s w s gt eee 1 3 a eee eo ease eu 1 49 See Pep eo ee SHE Cee ee 3 et ever es seers ONE Bere amp 2 40 eee even ane ewe rm a a oe eee ee apan ete et Sh s s pp u tn ST Bese Ro amp 4 t Pets Set Su 1 v y g b A
35. PTM 1WGER 2 1 2 Na Ar SN9410 88 011 3 SN9410 88 011 3 1 MAGI Gr LH MK MAGI 3 4 Fissile 0 1 ST TOC
36. 62 321 124 9 126 9 1 Gk 62 213 224 127 9 2 NOISA 3 62 252 128 9 3 GEYSER NLP NLPGY 62 316 129 10 0 131 10 1 2 BES 62 186 132 10 2 FP ZH FRAO WA BEL 203 135 10 3 FBR 62 210 136 10 4 62 218 139 10 5 62 219 143 10 6 s 1 62 220 146 10 7 o 1 62 232 7 10 8 62 243 150 10 9 EBR I RBCB 62 275 154 5 9410 88 011 10 10 10 11 10 12 11 1 11 3
37. E O 62 274 lt lt 67 43 Fie 5 KH RN FE 62 299 eee 68 5 72 5 1 4 6 62 268 78 6 RRE 74 6 1 IAEAZIWGFR lt 27 2 stage 2 2 5 GR 62 189 75 6 2 62 214 76 6 3 7 79 7 1 M MK 13 62 190 80 7 2 2 Na 1 62 191 83 7 3 DHX ka ee 62 197 84 7 4 1 62 223 262 300 315 85 75 7
38. CRT PC 9801 model 216 BY 62 213 224 127 5 9410 88 011 9 2 NOISA 3 Gr 1 13 350 VAX DEC NOISA DA SUBSY2 SUBSY3 NOISA NOIPAC
39. 288 00 I 3 t t t t a a a amm m m f 1 1 1 4 L 7 4 4 EEE Pr 264 00 a ata eal dla sss 3 3 1 1 1 t I i t 1 4 H 4 t i 4 1 1 1 5 p ae t t 1 t t 1 1 1 4 1
40. 2 1 7727 ORB 2 SUS 3 3 1 1 148 2 SUS 7 1 9 2650 50 3 0 23 C 27 O O 62 193 5 9410 88 011 3 2 14 Gr 14 3 2 1
41. 500 C KERAN ME 100 UPR HHHH RT Na 100 swe BE EE 110 88 0T 6NS ONd a 2 3 2 S 62 11 ee BR 100MW 14 SSA Nein SF BEE EE eee A T LT IiNTA S DREPE 979 SA R P Bz 20 15 85 kW FARA Ho s eh Na 1 Na 2 Na 6 844 oypAsz RIEP _ KAANAA LE 25 L A Na S a AF 958 _ FED Z KArSP 1 Ar SP 2
42. SUS HSH 20 1455 SN9410 88 011 10 6 B Gr 1 BE FBR 2 21 2 2 23 1 J 2 10 C D 2
43. s RN f EL TW Ko 2 1 2 3 1 2 Sn Sn lt lt 3 Sm 501 AT 60CRUAT 100 62 191 SN9410 88 011 7 3 1 2 3 DHX 1 2 IHX Na
44. 2 m 1 250 2 2 He 10 atm cc sec 7 16 kg m 11 2 1 3 ERE y 3 16 kg m 62 255 1052 991 19 A 9 6 5 N Ni 2 M16 x 65 8 NO 540 Z ZC 10 107 JIS3B10K 5 10 He
45. H H gt 5 9410 88 011 4 2 INTA S 1 Gr LE INTA S 375 111 35 7 INTA S 55 INTA 8 INTAS AQUA INTA S 2 AQUA INTA node S 32 3
46. Gr 1 MK IPDORAAT FLA 000 H I t 4D44 CA Tc1 2 Tc4 3 BOC 14 2A B 12 13 14 3 fa 4 3 1 040 1 14 12 13 14 Tc1 Tc 2 Tc 4 X 4 3 2 1 14 2 H 62 299 SN9410 87 139 Gk 62 171 24 3 1 CA 556 0 547 8 2 570 7 553 3 556 3 551 2 546 7 561 6 553 7 558 0 551 6 546 0 570 4 Te 532 9 530 3 541 0 531 2 534 2 526 1 524 4 528 5 529 6 524 5 538 0 534 4 534 5 528 7
47. seeno ml mann ra 1 am fas cama mem ee s s mwl Ta S62 MK I H 624 H 110 88 0176 5 TsTaTe 9 5 7 91010 31 so 2 2 1 5 62 10 5 6 7 12 13 14 15 16 1920 21 22 23 24 26 27 28 29 30 100MW 13 8 31 10 31 5 UPR 1 2 3 1 AMIR i 2 SMIR 9 A 110 88 OIL6NS 2 2 2 x rey i 100MW 14 il 0 PARTE BEA INTA S BLY mesa INTA S REL MERSE 1 11 10 18 ner BET VN A0 1416 18 fi sa R P 1 108 30
48. 11 1 1 2 45 1 3 m 62 234 p 11 1 1 8 TRTE mem As i _ 9 I D 5 gt gt eO
49. 9 7 18 15 9 10 62 10 31 30 MW 13 7 11 1 2 1 21 3 41 lt O fll 1 SA 2 3 3 PF 62 307 103 5 9410 88 011 1 MK H 13 i 250 BOC 1 22 28 239 X10 4 A
50. SN9410 88 011 75 7 ABBA T 80 Gr l 10 21 62 5 3 2 T 60 100 T 80 60 80 C T 80 2 1 1 1 0 1 kg mm 2 10 2 Sn 26 5 kg mm 2 3Sm 26 0 kg mm
51. 62 213 224 62 252 62 314 62 317 F 5 1 FBR 5 2 5 3 7 1 DHX 7 2 1 9 3 He GEYSER NLP NLPGY IAEA Z IWGEFR stage 2 IAEA 62 210 5 62 220 62 232 5 62 197 ft 62 294 62 301 1 62 316 62 312 62 286 62 189 9410 88 011 62 214 amp 62 251 2
52. 1 mM SN9410 88 011 10 4 Gr 1 H F FBR 2 1 1 2 100 10 4 1 2 FP
53. 1 55 103 atoms mg 1102 8 10 10 2 7 BN B 599618 PBR 0 05mg 14 25 atm V He V He B He He He He He He He 124 5 9410 88 011 85 FAERIE RRR Gr 1 S 62 12 7 5 63 1 21 62 5 58 I 075 5B3 3 6 x 10 s xs 121 4F1 3 7 x 104 we asr ss 6 11 4 PFD141 24 10 PFD 150 1 7
54. 2 1 JOYDAS 6 MT 600455 F 4123 MKE 129 600456 F 4124 MKE 130 600458 1415 131 600461 15407 132 600466 F 2506 MKE 133 600471 1311 134 2 RAND 12 3 RAND PFD238 PFD257 PFD301 PFD313 NFRIIS NFRI1Z TCR201 ORB ST ACR 1011 PRA031 8 62 221 PRS090 3 62 221 INTA S AP 1 306 10 SMIR 9 7 206 x10 x a AMIR31 AMIR32 AMIR 58 158 3 13 3 13 1 3 13 1 MAG1I Flux 1
55. k 2 3 3 4 3 1 1 J 2 XI 3 23 1 14 20 2 1
56. S 60 5 7 3 1 mia INTA CMIR O 0 07 0 08 CMIR 1 r B 0 20 A 173 rpm 170 rpm 1 2 3 4 5 6 7 ix 62322 SN9410 88 011 8 5
57. Zt G4 2 L 8 2 1 L IO 5 9410 88 011 83 CMIRO JF GT Gr 1 g MK H CMIR 0 HREH EHE H CMIR 0 1 0Mey 0 1Mev 2 1 0 MK 0 1983 2 8 1983 7 6 2781 MWd 2 CMIR 0 3 Fe Ni Co Al Nb foil Rh Ti Nu Eu Th Np V Z Chi A 3 CMIR 0 END B V 5 4 73 DOT3 5 NEUPAC JLOG ic k p Cn cm sec dpa sec 4 BREF REAR 8 3 1 8 3 2
58. 10MW 13 BOC 14 BOC 0 100MW 13 BOC 20 50MW 18 3 13 0 ML3449 BOC W 1987 9 38154369 9A 58115259 1 4 HALE E 196721182981 885573 12 18118263 9 0 I OK 2 lt n nfs Ne e O R 5 0 ie ae ignon Oo ms 3 0 i 0 0 20 40 60 80 100 A MW 62 313 5 9410 88 011 3 22 Gr L 185 13 FREED EBS c OE 14 CMIR 815 B
59. 13 R 62 279 39 3 13 MAGI 13 14 he 62262 42 3 14 14 BOC 62 283 46 3 15 HRI 14 62 285 49 3 16 MK 14 62 287 51 3 17 MK 14 62 3092 52 3 18 15 62 304 53 3 19 INTA 62 308 54 3 20 1494 62 311 56 59410 88 011 3 21 MK 14 BOC 62 313 60 3 22 62 317 61 3 23 62 314 62 4 64 41 MK HI 14 ee 62 264 65 42 INTA S
60. 1 JOYDAS 2 1 20 100 lt 3 R 1 37 8 1 2 2 7 8 1 2 1 INTA 3 7 8 3 JOYDAS 3 T 4 4 3 k 62 276 SN9410 88 011 7 8 1 1 m hr s am ae o nm n t _ 628 62 38 7 8 2 1 sma ms ee me sm _ me me sa mm we sm sm ms am
61. 3 4 5 RRE 3 Be tin
62. _ Na Gr L 2 12 m 2 2 m 3L mD 3 K 11 1 1 3 1 1 m 2 m 3 m 120 cm 37 cm
63. b W 1 t I 4 b 1 b 4 4 a 1 4 8 4 b 8 a 24 I a a a b 4 s i a 4 W 8 4 4 4 1 4 a 4 4 1 b 3 H F F 4 4 4 ee 2 2 b 1 t t 5 1 1 t i 4 nm mw un we sn aes t k t f k t aiioa 500 400 3 200 930 dN 1 100 14 4 N CA 4 3 1 SN9410 88 01 1 4 4 a L 9 s 4 8 4 a me anap enemman f E 4 4 a i 9 t 2 8 4 lt i 93 4 H e i I 4 x 1
64. aa t t t 6 5 b 5 4 4 4 a a t 4 4 4 6 b a t 1 b a b a i W H oo we s p a m m oe b 4 b b a 3 b 4 4 h 4 4 4 8 t 4 gt ao ss ee Oe er ee S e vec avec i 930 dN3L m m mw s an ae 200 s palos tt ess ce ee a OE re 4 s 4 4 4 6 a a 4 4 4 H 5 t 4 20 a a f 1 4 4 a i 4 4 4 4 4 3 a a a 8 4 8 4 a 4 4 a t 8 4 ha a
65. 8 3 1 8 3 2 5 1 0 Mev 0 1 Mev MAG1 8 3 3 8 3 5 MAGI ZNEUP 0 77 1 08 GX 62 281 1959 021 8 3 1 E D11 D 12 D 13 Z 282 mm Z 4 mm Z 268 mm 1 Z 0 mm nZ sec 10MWt 8 3 2 FR HH D11 13 Z 282 mm Z 4mm Z 268 mm Total 5 827 x 107 8 88 9 791 x 10 3 64 5 327 x 107 8 05 gt 1 0 7 504 102 10 4 1 767 x 102 10 3 7 850 x 102 10 5 n Z cm gt 0 1 Mev 3 595 x 102 10 9 7 230 1021 971 3 664 x 10 10 3 pe ee re 1 SRE 2 0 mm 0 88 0176 5 9410 88 011 _ edp Vdd lo lo gt 300 gt 200 100 100 0 OFA PIERRE mm 200 300 10 gt gt re ra 8 102 1A 0014998 9 ok W amp edp 200 300 100 a
66. MK 14 44 7 62 263 fe 62 272 62 276 62 280 62 307 5 62 320 62 322 JOYO 1 62 234 Na OYO J 1 62 255 9 Pu c 5 62 270 3 6 CHECK fk 62 230 84 62 223 262 300 315 5 9410 88 011 01 10 2 NOISATI 3 1 12 kuk E 1 5
67. 3 1 GE 3 RR L eee G 62 251 5589410 88 011 gt HIBEACON ii i HIBEACON iv HITEIRAS 1 1 iD v 2 4 1 i v
68. 0 5 65 FP 10 4 2 3 1 1 1 cm100 2 FFP 2 2W cm C Cit 4 fii 1 62 218 139 0T 2 0 FP 0 D 10 4 1 FALL SUS L21249 100 tle C85 1 0 3 0 4 mm RERET B b 2 W cm2
69. 4 a vr T gt 343 34 3 4 jp 4 4 1000 2000 3000 4000 500 6000 7000 1000 9000 10000 _ 49 7 10 3 Gk 62 294 1 DHX 8 62 197 10 SN9410 88 011 CASE 2 3 2 7 10 3 Na LU SN9410 88 011 7 11 MK I 13 Gr MK 13 62 8 31 9 5
70. 1 ww 1 BERD se 1 2 3 1 3 19 1 2 1 3 19 2 2 4 10 BAK K MW 4 62 308 5 9410 88 011 3 19 1 x 10 WEBEL x 107 x 107 RAS i EC RRS AZ x 10 2 3 19 2 x 10 6 Ak k k 5 090410 88 011 3 20 144 4 Gr 1 MK I 14
71. 100 2 6 350 mm 650 mm D 6 R MK 14 3 20 1 RUK 3 20 1 03 20 61 To 1 R HEEE Ak 3 CRCOEF i R 3 20 1 COEF 0 5 1655251D 01 COEF 1 2 88654490 02 COEF 2 1 32007960 04 COEF 3 2 41919560 07 COEF 4 2 08310710 10 5 7 1318149D 14 0 1 3 0558578 2 02 COEF 2 1 35522871 0 04 COEF 3 2 48600240 07 COEF 4 2 15884460 10 5 7 4697579D 14 2 RG BE W AK ZK 1 01579550 00 COEF 0 1 5977222 D 00 COEF 1 6 8606202 D 03 COEF 2 3 94444320 05 COEF 3 4 7001514 08 4 4 9395521 12 5 1 2219621 20 14
72. 100 MW 110 88 OIP6NS SN9410 88 011 1 2 3 CYCLE 13 COUN 4 9 CYCLE 13 2 12 ZDK KZHH POWER COEFFICIENT 1 103 2 2 30 3 LAPSE DAYS DAY 3 12 3 POWER COEFFICIENT CHANGE IN OUTY CYCLE MK 13 10 12 2 5 S A OUTLET TEMP DEFFERENCE C Z een atas A 0 5 Q 5 16 20 oe Els 3 46 4 5h LAPSE DAYS GAY 3 12 4 S A OUTLET TEMP CHANGE IN OUTY CYCLE S A 5 9410 88 011 3 13 MAGI 13 Gr 13 MAGI 13 07
73. SN9410 88 011 1 2 L ge 2 2B 351 00 355 00 355 00 3 ana AAC 2A 8 BE 8 EE 8 FAA a 8 HINa Eg TE 3 UPRONA A 8 9 4 9 A C Na 8 T A C Na A ayy BARREIA 88 i Sg rb E HE chs 8 6 00 54 00 114 00 174 00 234 00 294 09 354 00 414 oO 471 534 00 ESA oo ra pa 834 34 00 884 00 any gt PLANT STABILITY TEST OHX 2 14 12 1 1 10 6 29 7 1 3 MK 14 O SN9410 88 011 7 13 Gr 1 2 34 CMIR 1 INTA B 1 6 3
74. FFI ICS AREE 3 10 4 39Np PNC N941 83 12 60 TTO 88 6 5 ONd 5 9410 88 011 3 10 1 o 25 239 Pu fissile CJ 1 5AMWd t R 5 BUA 2 2810 28 pu fissile F P 8 lt 10 MWd 2381 F P ATED IC K 5 5 9410 88 011 3 11 MK 14 Gr l MK I 14
75. Na M 1987 9 24 1987 9 26 1A 2 2 B 12 12 1 13 7 1 1 M 7 1 2 4 REMEBER 0 H 62 190 9410 88 011 ane ak heed M 1512151 O x 16 ww ME 24 ate lt wm G PAE tens ea
76. 1 10 9 1 10 9 2 D LOF 10 9 3 10 9 4 FP LOF 10 9 5 10 9 6 FP 2 201089 4 5762 2176 SN9410 88 011 1500 ae Legend COOLANT 760 L 1 4 i x CLADDING 0 0 0 4 1300 CLADDING 1 0 704 W 1200 aa F p 649 BS 12 1100 593 s 1000 900 482 0 40 60 80 100 TIME s 10 9 1 FP 4000 2204 Legend 5 17 A FUEL SURFACE 2 FUEL CENTER 1649 G me 2000 1093 x LJ fut SS 4 1000
77. 650 A k Zk ARH ABE 400 1 Y ECoef i BSW Y COEF 0 1 COEF 1 3 2 1 COEF 3 2 COEF 4 2 COEF 5 6 450 500 550 mm 056404840 00 218596810 02 408357450 04 5202614 0 106312460 19 924938690 14 3 20 6 6 800 10 88 0176 5 SN9410 88 011 3 21 MK I 14 BOC Gr l MK 14 BOC 62 11 29 12 1 2 Na 250 chl g 5 10 cps 100 MW Na ia BE 370 C OMWHORBIRIOE amp Na 370 100M W 0 100MW 0 100 MW 14 BOC 0 100MW 4 97 10 3 13 BOC 4 84 X 10 Ak Zk Z MWG Db 3 VEE
78. PFD 301 313 Pu 28Pu Pu NFRI1S NFRI1Z ohl TCR 201 2 SMIR PRS 090 62 186 INTA S PRI01S 61 66 k D o AMIR PRAO31 PRA032 61 66 2 RAND 5 406 RAND 1203 SEQ 20 DATA 62 211 5 9410 88 011 3 5 2 TCR201 Gr 1 13 2 TCR 201 COR 2 MAGI 7 B 1366 779 2 0 6022 2 17413 X 1077 10 10 013 g mol 3782 72
79. EOC MAGI BOC 0 084 EOC p 1 196 ZAk k EOC 0 112 CS BOC EOC 2 006 4 6 62 235 5809410 88 011 3 10 62 FBR WES Gr L 62 F BR 1 C 3 10 1 2 BRR OTE 3 10 2 3 THES MK July ic 35 12 2 PE OR E 75MW 2 3 10 3 4 239 NA Ae NE 3 10 4 5 4 3 10 1 eee 62 247 k Zk ZMWD b 10 4 3 10 1 29 5 MK I 75 MW 110 88
80. 1A 1 BKM 7 12 1 1 A 2A 2 B 456 M M 1A 1 B 2A 2 B 7 12 2 1A 2 A 1B 2B 1A 1 B 2 A 2 BK 3 1 A 1 B 13 A
81. 100 MWENY 4 30 000 14 M 7 10 23 25 62 10 12 2 1 1 21 2 2 2 1 2 2 3 2 3 1 2 3 3 13 14 2 1 1 2 1 2 3 2 11 62 12 30 000 5 62 12 4 9 45 5 62 10 1 12 31 En gt o gt a o gt 31 H 740 00 5 GE 13 11 1 0 20H ymi are 110 88 0176 2 1 2 HER SPER R S 621 RE Met H 62 4 62 4 5 57 11 22 652 4 24 5 62 10 31 62 11 30 s 62 12 31
82. 0 88 0T76NS SN9410 88 011 3 8 MAGI CHECK Gr l CHECK 1 ic J 2 MAGI DEO MAGI CITAT 1 ON HB CHECK 2 MAGI HEX 2 T CITATION CITATION
83. 16970 EOC 24330 BAk k amp 0 100MW 10 3 Ak k MW H 7 H J NP239 NP x 104 65 Ak k MWd 2 43 2 38 Ak Zk 4 00 1072 BOCA 1 JOYDAS 2 3 6 4 Na 250 62 228 236 240 310 5 9410 88 011 x Zk Z MW Dp O 13942 19874 9 39154364 58114359 H13 42 EOC 1987471 0 318 74 78 108318198445 79 0 9 6 9 9 9 9 9 0 20 40 60 80 106 D MW 3 7 1 139 42 BOC 1987 9 3815389 SA 58118359 Y 13 42 WARF 1987 1083186 3 79 1013181915447 6 0 0 20 30 48 50 66 10 82 99 00 110 MW 3 7 2 k k 3 7 3 days 100 MW
84. 60 7 32 4 55 COEF A U jl 55 0 2mm b 1 W Zc C amp 3 5 85 110 88 OIF6NS ONd SN9410 88 011 750 700 650 600 gt 54 10 41 MAAE ORRE SN9410 88 011 800 750 O 700 650 600 0 0 0 5 1 5 10 42 142 5589410 88 011 10 5 H Gr _ FBR 2 1 2 FP 3 4 5 3
85. TATTI TTT nvm gt mh mm ee weal 14 r ann an 6 mr were 9 eee ee eee ay t Re ee he t 4 b t i 2 F 1 1 4 b b i 4 1 4 4 t 1 i oo nono q a t a peed W t a 4 k i 1 b 4 a b t b I W t I I H k 4 a w E a i 4 q 4 b b F a b b b b 8 t 3 t ak b b 4 t b 5 H t 4 4 t b 4 5 4 t a e ae 4 t 1 4 4 4 t 6 a b t i i ih 2 ae 7 1 gt dh s eee ee 4 4 11
86. 3 1 7 10 1 2 CASE 1 CASE 4 1 Gr 0 30 60 90 120 150 180 210 240 270 300 1 E 4 X 7 10 1 520 1 490 300 340 300 20 0 1000 2000 3000 4000 5000 6000 7000 8000 8000 10000 4 1 E 7 10 2 H AATTITTTT lt eve rk 1 ry 4 1 4 1 4 gt i 1 prem eke l if ff 1 PF s CASE4 Same w k k i 4 Av lt 5 4
87. 6 0 090 Ak Zk 0 00015 Ak Zk Z s 2 1 x 108 T 650 2650 3 4 REDNER EREDE GAA CX 62 268 SN9410 88 011 6 5 9410 88 011 6 1 IAEA 1WGFR stage 2 IAEA Gr 1 IAEA TIWGFR stage 2 stage1 Code to Code data to Code
88. 85 12 2 80 13 CMIR 0 5 9410 88 011 6 5 INTA S 1 4X 62 214 6 6 62 299 82 M MK I 13 62 190 8 3 2 Na 1 62 191 T 80 C 62 229 87 1 88 MK I 14 89 MK I 14 14 4 2 wv 13 4 Z wv M
89. Gr l HI 15 2 me _ MAGI 2 J 1 1 2 10 K BERA 1465 18 00442 mm 3 i sec 1 283 x 10 2 3 139 x 107 1 9 130 104 1 683 x 1074 4 232 1073 JOYDAS 15 J J 2 19 62 304 SN9410 88 011 3 19 INTA Gr 1 B 1 1 MW R Ze 2775 2 CZMW 2
90. z lt z 52 5 28 0 2 0 2 0 0 9 4 255 1 255 3 254 5 FS AON a REMEM 4 00E 3 0 01790 Ak k 5 y N a 2 98347 96AK k j CRD PREMAON ABE Mm HG JG t 01 10 LAX 0 01463 0 00250 i ce ae cn 2 98597 AkZK 14 Na 13 5 9410 88 011 3 14 2 13 EOC 494 6 494 3 494 1 494 0 493 9 494 0 0 36519 0 34473 0 32631 0 31261 0 33047 0 34511 5 2 02443 KE RRA m hr FSi AON 4 0 23 2224 i 44 5 45 0 01463 C R DARSE 2 082 10
91. a kasa Hiss Tia 4 1 1 t H t H 1 I z t 1 t t 1 H H t 1 4 t i I t Q 1 t t 4 L t L 1 4 H 1 f I t t J 1 1 1 1 I t t r m gt m aduana GS Sas To ez 1 3 2 4 3 1 b t 1 1 t i 1 1 i 5 9 W 4 i 4 L Q kt an pa im a an ama uma ss b 1 4 1 9 1 t b t t t i 4 I t M 1 1 1 t t 3 1 H H 1 t H 3 ae w b b 1 I i
92. 106 871 5 9410 88 011 10 10 Gr 1 H 2 1 3 2 NSRR 3 3 1 x 3 JMTR CR X NSRR 2 8 JRR 3 16 NSRR 10 10 1 15 OWL 1 16 0WL 2 17 0GL 1 3 10 JRR 3 2 2 4 NSRR 11 25 JMTR 5 13 OWL 1 4
93. SET OSCE TOSSES ETE OES Oe DH EH SOG POSE d SSS SS SE SH BSF OF C88 SF SE FSO FOSS RISE BOSS OB OS 4 Free ene eT ee A eee t 1 4 1 4 I a a 1 1 5 H H 4 1 H H I b b H b 8 a e 4 b 5 i i 6 b 4 b t 4 t H 4 4 H H H W 8 8 a Ld t a t E lt 4 e 4 H s i i i 4 4 8 a 9 f 4 1 a 6 9 t 4 8 ili l i 1 k 4 s ap 7 I t t 4 i 4 b b a p re ewe i 4 4 a 1 1 1 4 4 1 p e r gt ee ee eee 4 5 4 a 1 3 4 i t 1 5 1 a r 4
94. l ECC Pu 2 1 11 3 1 2 1 14 3 kev 8 2 0 mm 28 6 5 5 11 3 2 4 7 12X10 PCi 30 ksec 3 13 15 GX 62 270 167 5 9410 88 011 5 i semiconductor detector CANBERRA SPD 450 18 300 239 Pu 599 CANBERRA 4 9 Vacuum Preamp lifier HV power supply ima acum o o Vacuum cham ber CANBERRA 2010 Spectroscopy amplifier COARSE GAIN 30 6 2 FINEGAIN 4 80 0 10 SHAPING TIME 14 sec Pulse height Memory analyzer Display unit CANBERRA 5 40 Digital recorder
95. 4 5 D 40 3 1 MK I MK 1 5 24 2 SRS 62 266 288 5 9410 88 011 2 3 4
96. 825 2 1 amp amp amp 62 50 ZORA 1 17 BIRT 5 48 5 X 80 1 53 F 5 1 EHE 30 1 HERR CH 20 5 45 4 RTS 144 5 9410 88 011 4 5 1051 2 2 2 1 2 cm 1 30 5 52 5 1 55 55 2 80 900 1200 C 0 5 kg 5 8 COLA 1 kg 17 1 3 4
97. FMF 1 A 511 x 10 000 t 0000 4j1 j LA F 12 x ARSE CAE OES HAO 0 1 kW 2 kW ZO F 0 15 0 2 kW 8 2 1 SN9410 88 011 PFD 119 40000 3 4 2 116 38000 4 10 4 1 PFD 145 40000 6 13 123 5D4 31000 6 12 152 40000 7 12 13 14 Al 12 ED
98. 62 174 amp IAEA 2 4 6 62 174 Ex 4 Ex 6 Ex 7 A B Ex 4 AB 120 CH D6 5 55 56 2 3 TAEA IWGFR ABHRA y stage 2 1987 12 stage 2 4 62 189 SN9450 87 008 SN9410 88 011 6 2 AGT HOU Gr 1 HIBEACON
99. 5 40 w a w w m p un u we ce 4 SC WW tt Q eee w ane ss Sa Qa a Seer ED ee lt F mer ww of EEEE E AE PENE EAA EE AR w s s s a mee a eee ee RE 3 r 4 4 4 1 5 824 eu ee 7 1 ee ese lt pes 9 4 G CC OP 2424246444608 Ce a gt 4 4 a 1 i a amen ee ee A 500 400 300 200 X 5 E S vd O 94 ws an b
100. 777m Na 2 01088 13 Na 13 SN9410 88 011 3 15 14 Gr MK 14 MK CERES at MAGI 14 2 ESPRIT 1 1 MAGI C3M 1144 2 VAROESPRIT J 62 285 4 35 ad 55 10
101. AT 80 C 2 4 62 220 87 7 6 1 2 62 268 lt 88 7 7 MK IF E 1441 7 merid Z 6 ER 62 272 89 7 8 MK TH 14 62 276 SN9410 88 011 7 9 MK 14 62 280 95 7 10 1 6 62 294 101 7 11 MK 13 62 307 103 7 12 M MK 14 62 320 106 7 13 FE 62 322 110 8 Z 2 111 8 1 tk 62 178 camera itp tif 292 112 8 2 55 62 266 288 116 8 3 CMIR 0 4 62 281 119 84 He 0 62 301 128 8 5
102. DE ES CSCS ERROR ORS OR 10 OO Raat 9 Ta 009 6 mA O O O R 17 B no R 15 P EPS eS 8 12 MK lt 115 5 9410 88 011 8 2 6 Gr 1 62 12 7 2 1 MK MK HER 2 10 000 MWd t 3 EMER gt DORRE
103. 5 1076 107 192 5 1072 ae 5 10 7 1072 107 5 8 12 16 OUT kg em 11 2 1 111 22 110 388 OTVPENS ONd SN9410 88 011 1 3 Pu c Gr 1 Na c 239Pn BA
104. A2D PFD224 PFD251 NFRI1M D 2 ANE CMIR PFD 134 14 15 14 EOC 0MW 250 C 1 47 4k k 1 AkZk 2 3 1 15 2 82 2 D 2 28250 2 2 3 p 3 aR 29 4 B 2 4 1 5 A 2 5 B 3 NFRIIM pmp251 5 3 5B3 G 62 206 SN9410 87 139 4 62 77 SN9410 88 011 33 E MK LF EGE 76
105. a tea oe ee lt eee oe wee sm wv 2 6 was EL ch 1 1 E es ee eer ee eee m sn nr eee e x s ts 4 4 5 1 a al a b 8 b 6 4 w b b 4 1 4 1 1 sss sm d 4 f 1 ww ssam 4 O 19 9 199 1 BEMETT 2 7 1 1 SN9410 88 011 8 1 3 4 A C Na CO 355 00 1 955 60 A C WONaRE 18 A C Na 2 00 PPP FOIA 322 00 335 00 340 00 B TRIB 858 00 372 00 376 00 PP FINa
106. 62 186 FP 62 203 1 m 62 gt 218 62 219 EBR I RBCB 62 275 62 293 62 307 ee x sms DFI 010 C C5 J D SN9410 88 011 L 62 10 1 gt 12 31
107. 8 8 cae s a als s 8 8 I 16 17 7 POON 23 1 a B Tr 15 17 18 21 29 27 29 1 SEPTEMBER OCTOBER 9 3 1 GEYS ERZ 1 1987 86 30 1 0 1987 11 2 29 0 J D Y O JOYO MK II CYCLE 13 2 40 1 29 0 00 1 20 2 40 3 60 4 89 6 00 3 60 86 00 4 11 13 15 17 18 20 25 27 29 3 11185617 19 21 23 27 23 N a 8000 SEPTEMBER OCTOBER 9 3 2 GEYSERZOMWA 2 130 SN9410 88 011 10 SN9410 88 011 10 1 2 H Gr l H F BR 2 1 21206 75 103 2 10 61 7 3 OHJ
108. TRDB 489 50 4981 20 492 60 INa A 8 AN 5 8 8 A C Na A x 009 hy _ ch 6 3 00 68 00 142 00 216 00 259 00 364 00 433 09 612 00 565 00 665 00 734 00 609 60 682 00 956 00 1030 00 1104 00 x 0 PLANT STABILITY TEST DHX SSMW MK2 CY 13 9 mm 4 7 1 2 813 4 7 82 SN9410 88 011 7 2 2 Na Gr l 81 62 06 2 Na 2 Na 2 AT 60 7 7 kg mm AT 100 12 9 kg mm 00 1 1 S ete 0 01 kg mmi
109. b aparas 48 00 10 27 t t 4 1 7 t 1 I 3 4 I i b 4 H t lt H 3 Jaanu is doe ee Sunk 4 t 3 5 t 4 4 t t g i P 4 5 Lasse i tiie 4 I 1 t t N 4 t 3 lt t 4 t 1 t 1 A ___ r aan gt SS a E t x 4 3 1 1 1 1 4 4 H 4 I I t 1 1 t 1 1 t 3 t t gt t a 7 1 A 12 02 00 61 00781 oo 00781 oo rt cores V u V T 1 Tr 00 79 00 09 0
110. Gr l DAME 14 2 0 722 IS 250 C 370 C 2 62 11 29 3 250 C 370 R RR 250 245 0 3 0058 Zk 0 36 MW 370 369 3 C 2 5090 BAK k 250 370 0MW 4 if 250 370 4 00 x 103 13 4 00 x 10 Ak k 62 287 TOYDAS 5 9410 88 011 3 17 14 1 Z GER Gr L MK 14 BOC
111. 1 2 1 2 Na 2 2 ROBBER CSO 3 JOYDAS
112. 10 5 1 4 ie 62210 2520 143 SN9410 88 011 10 51 1 2 1 1 940 850 900 C 2 SUS 3 1130 3 3 1400 2650 1 SUS OBS 100 2 AREATA 1 2 30 50 606 2
113. 2 10 1 1 10 1 1 4 ffi FBR 62 186 150 661 5 0 40 10 11 2 2 J 2 2 CC 100 630 370 10 0 406 383 0 88 OTVENS ONd SN9410 88 011 1000 c 2 10 1 1 4 5 9410 88 011 10 2 FP 1 Gr L H FP gt Fay HE 52 HHA 9 SJ 8 77 0 _ 32 0 10 5 8 8 8 5 7 5 6 3 FP 62
114. 400 450 500 550 600 mm 3 202 2 F G 7 110 88 OTVENS ONd A k Zk RA 400 XI 3 20 3 ARRERA 1 ECoef i X MOMMA wa Yo A k Zl COEF 0 4 COEF 1 1 COEF 2 7 COEF 3 1 COEF 4 8 5 2 450 500 59188 1300 01 603014230 02 58550883 05 24794954D 07 805364800 11 25487171D 14 990 600 5 mm 3 gt crt gt aba st UF Dc y pop Ep cai Ak k ART BE 400 3 20 4 2 ECoef i xx CAMP Y k k COEF 0 1 015795490 00 COEF 1 3 055857790 02 COEF 2 1 35522871D 04 COEF 3 2 486002450 07 COEF 4 gt 2 158344570 10 COEF 5 7 469757990 14 450 500 550 600 GES mm 110 88 Ak k 400 BY 3 20 5 1 i wa REE k Zk COEF 0 COEF 1 2 3 COEF 4 5 450 500 Ge 58 21997831D 01 8 1 92924135D 01 74194209D 02 8802298248 05 903887005 11 209201760 14 550 600 mm ll AE 5
115. arth RR CARER i HIBEACON TETRAS i ARKAS BORE ii HIBEACON PIE v HIBEACON AURORA It k 2 RIE IAEA IWGFR 3 F i Stage 2 ER ee R C M I AEA 6 3 1 SN9410 88 011 T K SN9410 88 011 71 13 Gr ee 42 C p M M
116. 55 40 49 50 55 60 65 70 75 80 27 PIE EEE Se See m s 4 x m w s s s m x s 4 v s x s am v s W s 49 s m a e nele AA a a n en eh em xX1 0 0 0MWd 8 8 1 88 1 110 88 OLPENS ONd SN9410 88 011 3 16 MK I 14
117. 62 286 158 62 293 159 62 307 160 11 161 1 Na i 62 234 lt 162 1 62 255 165 Pu d on 4 62 270 167 62 212 169 SN9410 88 011 62 10 12 MAGI 1 62 193 3 2 14 62 206 3 3 9 14 62 209 3 4 13 62 211 35 2 TCR201 62 212 57 13 62 235 38
118. CRT 1 4 4 1 2 1 2 1 Na 1987 9 7 amp 62 223 262 300 315 SN9410 87 1
119. JOYDAS 2 1 RARER 250 C BE IE 2 925 P 0 191 1 554 Ak k T MAGI 2 i eff 1 212 10 1 8 988 x 10 7 829 x 1074 A 1 568 x 103 4 3 320 x 10 2 1 395 10 3 773 10 8 6 229 x 1074 1 674 1074 4 161 1073 7X 62 235 54 2 FR 62 254 SN9410 88 011 3 12 MK 13 Gr l MK T 13 2 15 100MW 3 6 1 3 12 1 M3122zcenenpeFRRVUS AMOME 1 1 OR FV 7750 EOC
120. ew ee eee s IO AuL 01 x rh 0 10 lt Se 44 eee s ro Q et ee 3000 2500 2000 mh Q rs DEI in _ v m See ee vv w 48 Awe 9 B 5 4 3 2 1 T n 7 8 1 SN9410 88 011 n 4 t b t 4 4 1 4 1 f b b b t 4 k t s an i hae a ee ee se ee ee eee eee b t t a 1 b 1 b 1 4 1 3 t a 1 1 t 4 t 4 t A ot w m gt AD ak Gn Ciencia meee mea q AED x ep ee _ _ ee ep ee ee es eee es ee ee ss gt gt ee 4 I 228 494 ma murat eee ee ee aA ana aaan m
121. REE AMP CORTADA 7 5 feu ty CR Ss e 7 7 319 1184 4 49 Inquiries about copyright and reproduction should be addressed to Technical Cooperation Section Technology Management Division Japan Nuclear Cycle Development Institute 4 49 Muramatsu Tokai mura Naka gun Ibaraki 319 1184 Japan Nuclear Cycle Development Institute Afi 78 9410 88 011 1 Vol 4 No 3 62 10 12 e 62 10 12
122. a 538 2 40 100 TIME 10 9 2 FP 158 5 9410 88 011 1500 Legend A COOLANT 1500 COOLANT _ CLADDING 0 0 D CLADDING 1 0 1400 n Sana V 1300 2 1200 871 760 704 sss a 1100 593 0 20 40 60 80 100 TIME 10 9 3 2204 Legend 1927 A FUEL SURFACE _ FUEL CENTER 1649 1371 ii z 1093 4 I M h n r T 816 i 538 60 80 100 TIME 10 9 4 Sahel LOE FP 156 SN9410 88 011 871 7 4 _ L _ 0 100 lt 760 Q _ 649 Legend EDGE 538 CENTER 800 427 Q 20 40 60 80 100 TIME 10 9 5 ERRORE LOF 982 EMPERRIURE deg F 427 40 60 80 100 10 9 6 FP LOF
123. 4 t 4 4 soem cen cen fe a ha me ne oe a ce re s 1 i H f 4 t 1 4 3 t t b t 4 b Fe s p esse 4 t 4 6 0 t a t t b t oom 4 a i 9 4 e 4 4 1 ee Ra ee gn es eh woe Bema 5 Q 4 4 4 4 4 b gs 4 t H ee Se eae ee Fe Pee i eA wea eee 1000 300 1 Sr eee Sere li 1 H ak ES ae teat tee i oe ee oly 1 i i i E a H DER D O Lf w m
124. 5 9410 88 011 EHM O 00 4 FBIB R I7 B 8 5 4 2 1 2 100MW 14 hob Bae A C B OZ0 A C gt m R oz O or fe KON At 3 0 0 0 it CA 2 D C C 3 M SMIR AMIR CMIR 5 SN9410 88 011 22 62 10 12 1 62 10 13 14 He _
125. 5940 Gr 8 SN 0 nas fy t 4 y 4 1002 kk 3 3 a io DHA SECI todo 2408 ty DHX HHG 1089 1009 w x tady 400 10000 Fa oakao FAs DHXAG M F kaa L 000 10000 w j4 iv er oraa j TEST Ty Tp 1 asehan t 1009 3005 1 1000 300 13 000 10000 62 197 5 9410 88 011 7 4 H G r 1
126. MAGI 14 P i 1 1 N 5 F T 1 1 Ci 2 P i X RG T N N Te N Tin Tjn 2 PG P MAGI R Tin FADE TRCN 14 C MAGI N No 3 4 1 1 4 e 3 62 264 SN9410 88 011 4 4 1 1 N lt 500 499 497 403 apa 509 504 508 603 605 606 507 4 1 518 4 4 512 AF3 519 27 3c1 3c2 4cr 535 538 539 519 510 495 511 524 Address Address im Address AE im BE im TA 4 5 4 7 4 8 4 9 gt x x lt gt lt tO
127. W 4 2 3 t b 4 1 t 1 1 4 1 t 1 1 I 5 Q wrt won dae 1754 4 Be ic i ih a to ee i Si hl a i 4 b 1 f 1 1 3 7 N O Laki Ber Y GO ee Q Se eee Ph NIBI NOI 108 t a 1 6 8 J t 4 b 3 3 t t f 3 i 1 t 4 t 3 b t i t I i 4 aa 1 1 8 t f J 1 1 4 ne I 5 4 nan uru a W b b 1 t TOT TTT lt 4 b a t a b 1dUdUdd e ws ees e e s sem xw sme m en s eeect eee an w re re to namnaman 14 11 9 CYCLE NAME 7 7 122 M
128. _ MAGI CITATION 1 2 Na Ar 1 Na 2 SG IAEA 2 62 11 13 14
129. 1 1 4 _ t t 1 7 w in eee 1 1 t 2 i 4 t 24 8 1 b 5 1 t t 4 t wwe L ee a L a a w 1 r PETETA 1 r t I 4 n 1 t t i f 6 H 4 A 5 a 1 aj aes ai a i 1 3 a i 1 g 1 J H t d 1 t L 4 L hese 4 4 t H t 1 t t H t rc
130. 11 239 1 6 12 5 12 9 12 4 2 x 104 x gt 62 321 FPGS 2 MAGI 25 SN9410 88 011 9 ABS 1246 SN9410 88 011 9 1 Gr BETS 2
131. 11 3 1 gw 40 40 gt w 30 30 it R 20 20 10 10 2 5 10 15 20 25 mm 11 3 2 168 keV 9410 88 011 11 4 A Gr 3 70 70 4 24 13 20
132. 4 4 t I i 1 1 i 1 1 4 L 4 4 4 t t mos 4 q I a i H 1 t gt m i t 1 6 1 t H 4 t I h t 4 1 b I M t H 3 4 kawa oe aaa 1 4 1 t 4 1 H H 1 t H g ye 1 1 i 1 I 2 s QJ
133. 532 5 523 2 522 0 525 7 533 4 526 4 529 2 526 5 539 9 530 6 552 0 549 1 560 8 582 5 574 9 574 1 589 4 594 4 591 3 587 3 621 3 497 9 497 8 501 9 515 8 525 2 544 7 511 6 521 4 519 4 530 0 518 3 530 4 530 0 524 9 545 1 540 0 548 5 542 3 4 518 0 520 9 527 8 538 4 Coco 1 4 CARTY 1 4 TTO 88 OTPENS SN9410 88 011 4 4 a cere ee 20a G44 le ee Wv sg eee tm tt Oe Bee 3 1 b 5 t b lt annaganhkhe o 4 L serve gt POSSE SORES ew m e ke Tanta ete eres ae w ee m payeo s sv etenena see ew oe
134. Gr 1 MK J 2 2 MK H 0MW100MW 3 3 1 3 3 2 BOC EOC 3 3 3 1 13 3 1 3 3 3 0 3 4 Sh H 2 3 3 2
135. 0 1 92924132 01 1 1 74194210 02 2 8902292D 05 3 1 2799763 0 07 4 8 9038870D 11 5 2 2092018D 14 COEF 0 4 59188190 01 COEF 1 1 6030142 02 2 7 5855088 2 05 COEF 3 1 2479495 2 07 4 8 8053648 2 11 COEF 5 2 2548717D 14 0 lt 1 06640480 00 COEF 1 3 21859680 02 COEF 2 1 4083574D 04 _ COEF 3 2 5202615D 07 COEF 4 2 1063125D 10 COEF 5 6 9249387 D 14 mm o 1 2 4 5 6 amp 62 311 62 11 28 Ak Ak FRE REE 2 Y ECoef i xx HERRE wa Y 66 k Zk 0 5 165525110 01 COEF 1 2 8865448 80 02 2 1 320019600 04 COEF 3 2 419195630 07 COEF 4 2 083107100 10 COEF 5 1 13181490D 14 400 490 500 950 600 3 20 1 mm 1 Z F Z 650 her 3 Y ECoef i ma Y H4k k COEF 0 1 597122210 00 COEF 1 6 860620170 038 COEF 2 3 944443250 05 COEF 3 4 700151420 08 COEF 4 4 939952050 12 COEF 5 1 221962050 14
136. 146 079 g 0 6022 a 11 009 g mol X 3782 72 cc 464 359 g 0 6022 615481 X 107 10 at 12 011 g mol X 3782 72 62 212 SN9410 88 011 3 6 MK 12 2 Gr 61 11 26 12 6 2 30MW 9934 30 100 3 1 3 6 1 SPIDER 2 SPIDER cr 0 7545 0 75
137. 2 RRS O Bs TL El BJ amp 3 5 O SI DL 539410 88 011 3 4 5 6
138. 3 1 2 4 1 5 2 Na 220 146 5 9410 88 011 10 7 B Gr 1 FBR 2 1 10 7 1 2 10 7 2 3 1 he SEA 1 Na 1
139. 62 FBR 62 247 3 9 MK HL 14 62 254 62 266 288 62 282 62 283 gt 62 285 62 287 62 302 62 304 62 308 62 311 62 313 62 321 62 268 62 264 62 225 62 279 62 178 292 5 62 281 3 11 MAGI 13 3 12 14 BOCC 313 THE 14 3 14 MK 14 3 15 14 3 16 15 3 11 INTA 3 18 MK I 14 3 19 MK 14 BOC 3 20 5 4 4 6 4 MK IL 14
140. No 3 Nobutatsu Mizoo Kiyohiko Maeda Abstract This report summarizes preliminary results on experiments analyses and evaluations pertormed by Reactor Technology Section Experimental Reactor Division during October through Decemher 1987 All results described in the report were released with internal memoranda of Reactor Technology Section before detailed analyses evaluations and or discussions Each result is classified into the following categories according to its content Results of measurements analyses and evaluations for nuclear characteristics in JOYO Results of measurements analyses and evaluations for thermal hydraulic characteristics Results of analyses and evaluations for official permission Results of analyses and evaluations for core mechanics Results of measurements and analyses for the plant characteristics of JOYO Results of measurements and analyses of neutron flux gamma ray and decay heat of JOYO Production and or arrangements of analyses codes and their manual Preparation of Construction Permit Amendment for RTCB Run To Cladding Breach test Reactor Technology Section Experimental Reactor Division Oarai Engineering Center PNC 8 9410 88 011 Miscellaneous results Tables classified by kind of work are added After detailed discussions analyses and evaluations the final report for each program will be published respec
141. m we m sma e e 1 BB p lt gt SN9410 88 011 See See SE iv dn tn nr ees 4 FCP ST 2H s ae ps 2 aw ee ee w w a ae e ew u k s s as ns On SWS SS FS SCC ete Hews ee OFS CSE SSF w OE OS ee aN eh te eee ee m ben we tt ee lt lt es bal C28 lt SET 96 95 ee t b 1 1 4 b b H H 5 i i 1 4 3 1 b 1 8 t 1 8 b 1 4 1 t 4 4 1 H t a 1 t t 4 4 W a t t t a 1 1
142. 0176 5 ONd WA B A k Zk ZMWD 10 4 3 0 3 10 2 5 6 7 8 9 10 11 2 MK I 100 MW 12 110 88 OIF6NS 6 Z k 1 5 1 fittmg 1 4 1 57 x 1044 A K ZK 1 3F Cycle 1 60 x 104 AkZk MWD 1 1 0 gt 80 5 19 3 5 25 20 6 1 14 6 8 7 6 15 1 11 0 500 1000 1500 2000 2500 3000 PRAM MWD 3 10 3 RBI MK IPCE 75 MW 2 PNC 941 83 1249 TTO 88 QTVENS ONd HAREC Aj Np 239 B 7420 02 CH 2 3 0 1 y 29 t1 2 23mi 11 2 2 3day keff 75 MW 0 5 Ak k 2 Np 0 1 1 5 AK k
143. 1 2 1 1 3 1 100 80 80 40 40 20 100 20 2 3 X 107 flow 100 20 5 3 0 00023 b 1 01517 E RHR 20162 302 5 9410 88 011 3 18 15
144. 2 3 NLPGY 1 GEYSER NLPGY XY 2 GEYSERD XY 3 GEYSERZ NLPGY _ GEYSERZ 9 3 1 9 3 2 62 316 SN9410 88 011 1987 88 30 1 0 lt 1887 11 2 23 0 JOYO 11 CYCLE 13 lt 125 00 19 8 8 a gl al 8 81 8 AA han be gre ty 8 818 55 EDION eae 8 gj a 3 i sl 8 B 8 s 818
145. 3 44 60 70C 678 DIOs 3 6 50 OWS HAS 52 100 4 6 70 BOMBA 124 240 822 b 2 FP b FP ic FP 90 55 5254 0 34 5420 cm s 4 kg cm 4 g s 20 0 26 810 WBA 2 40 0 47 980 3 GTA A
146. 55 535 aro O ae as a ae oa ee 2 BE 0 7 540W cm 540 W cm 700 1 270 g s 2 100 540 W cm 10 8 1 3 BT SARABRORMSSHILS SUGARS 1 Co
147. 62 210 196 _ 210 31 1 1 1 2 2 1 ee 0 88 ONd Bek 1032 48 1 110 688 0T76NS wth Uo ASK 2 BLA BK 1 FP J 1 2 REAVER Y BK 2 0030282 2 2 yupa F is tC BES 9
148. G 724 AL 1 HL 24 20 1 55 45 cm 2 SAS 10 VL ASH 45 cm 2 3 62 307 160 5 9410 88 011 11 3 10 822 SN9410 88 011 11 1 1
149. MW 2 2 amp amp 1 N 7 A 11 1 44 1618 2 P 90 MW 1 10 2 3 ATER 8 4 IA UPR 1 2 r wre oe 1 IOYDAS 2 x SMI R 9 2 352 7 2 Yells Cte a 1 BE 7 Ez 2 DRE 110 88 OTVENS 228 s CS aoe La 100 758 14 4 Z willie 11 28 1 30 100MW 14 1 28 1280 100MW 12 1 1 29 60 1 LL EEL LLL LL n e TE 110 88 ONd 231 TAB 62 10 IN SI Ne pasi 100MW 5 HL 161 6100
150. OD OO F2C F3B ASD 0 A4D AMIR 6 1 3 5 10 10 El 29 11 12 7 4 10 3 6 3 Bg 10 C6D 0 2 2 0 o 5 6 EEE 0
151. T da few see ee Se 2 eee a m a mj v s s 109 p G gt EE oe enone auwe ooo i 1 ee 300 400 500 600 700 800 900 1000 200 rpm 7 8 3 SN9410 88 011 7 9 144 4 2 JL 1 Gr 1 MK 14 2
152. cm im BE CC 10 7 2 A 1 183 6 32 4 0 524 208 111 0 60 81 8 130 A 1 A B Al 2 Na 116 m3 215 3 2 8 0 137 48 2 128 2 4 86 109 9 6 6 177 1 4 72 0 125 65 2 0111 2 8 6 104 7 11 0 88 OIL6NS N9410 88 011 10 8 Gr 1 ERER PICS S 5 8 gt SCEITEO Ny
153. lt gt gt t ae T Hl 2 2 Zm Ci 5 Na Na Na b 5 Gr ER 0 88 OIF6NS 5 9410 88 011 1 382 2kg cm G PG IN 1 7 1 2B yy 1 2 3 a 4 3 X V BE 1 2 pe 1 2 mi 2 1B 11 1 1 164 SN9410 88 011 11 2 REI 1 Gr 1 Na
154. 02 kk 4 2 MAGI Ak Zk 14 14 BOC 13 EOCK 89 558 OTT 14 BO 2 9800 0 191 0 110 AkZk 18 BEOC 0 191 2 202 0 081 AkZk 0 0818 MAGI 2 011 14 1 CMIR 1208 OMW 250 1 GX 62 283 5 9410 88 011 583 141 14 BOCC DLT ear 4 4 Py OPC PE 22 2 SEAD tee At 453 8 454 0 453 9 53 6 453 2 RIE 455 5 454 0 455 9 453 6 453 2 453 7 0 47426 0 46030 0 46227 0 48973 2 96558
155. 03 62 60 5 9410 88 011 5 1 5 241 80 19 LMEFBR 7 4 1 10 100 2 3 7 4 2 1987 9 7 ee UA 2 SR lt 3 b 0 08 60 02 320 00 15 00 240 00 mo 420 058 480 00 540 00 720 00 20 00 1020 00 1060 00 1440 00 1200 00 _ ISEC 5 7 41 2 JL 5 25 299 00 ea 620 1000 00 us YD TIME 7 4 2 1987 9 7
156. 0735 0025 008 50 00 0 0072 00782 0002 96 3388 LI Y I i OO 0 09 ZEE 00 82E 00 ree 025 00 Ste 03 21 09 80 POS 09700 2 2 DU E2 8 107 TEST 1 1987 12 7 TIME M SEQ MAY FIG 12 1 3 Te 87 12 7 SN9410 88 011 OF s s rne ea an ess e728 4487482862428 ee ee eee s 9 Se se a e us 2 tee s t 4 t eee ee s anang up 4 t b 5 5 b t 4 1 t t 4 pees ee re magi pe a ea a a mn i 4 4 a a t W 1 1 a 1
157. 1 NEW MAGI OLD MAGI CITATION Flux 10 88 0176 5 ONd 3 8 2 NEW MAGI 2 OLD MAGIO Flux TOTAL FLUX UNIT x10 NEW OLO FR NEW OLO 0 88 OITVENS 5 9410 88 011 3 9 13 Gr L MK 13 MAGI T 2 13 BOC 62 8 31 i 257 2 3 355 ji OMW 250 3 384 Ak Zk OMW 250 GO MAGI 3 468 AkZk 3 13 EOC 62 11 1 1 246 2 2 021 k k ii OMW 250 2 006 k k ji OMW 250 CTO 2 202 4 MAGI 4k k 13
158. 203 135 SN9410 88 011 10 3 FBR Gr FBR 4 ERROR 10 3 1 10 3 2 2 10 1 1 2 3 1 2 Na Na 1 Na 4
159. 24 H lmmiww rmltm a mamas UNIT 2 CL02 LP01 02 ML 6 1 29 6 6 1 1 2 15 0 88 01 6 5 SN9410 88 011 7 10 1 RABIES XS F DBASE OR BL 1 amp TEST E 1 1 1 TEST E 2 2 1 CASE 1 4 CASE 2 CASE 1 CASE 3 4 2 2 CASE2 1 m 40 ma 3
160. 3 HEX Z 3A2 Fissile 3 Flux CITATION 3 8 1 3 8 2 c 4 1 8A1 3A2 MAG1 Flux 5 SR b CITATION E 2 Flux CITATION 3 MAGI 13 RAR RS 1 62 230 CITAION FLUX PLOT NEW RAEO 2 OLD NEW OLD Flux 000 38
161. 4 DAMP SIGNAL HR 9 7 9 2 2 A 62 11 18 110 88 VANE x HRPER ae 100 00 HH TE 50 00 50 60 GPENING 71 40 00 20 00 10 09 50 00 0 6 oo 68 00 86 104 00 4 00 5 41 8 82 8 24 9 66 11 08 12 47 13 88 15 28 18 71 18 12 18 58 VANE SIGNAL 1 1662 DRHP SIGNAL im m 7 9 3 FARN 1 B 62 11 18 0 88 OIF6NS 5 9410 88 011 85 00 88 00 80 00 64 00 72 00 4 56 00 DO CONTROL SIGNAL G Titi ttt lyf tt ty tt _ Z tt tt ty 5 T E Do 09705 00 08 00704 05 0070 00704 0002 09701 00 41 5 41 8 82 8 24 8 55 11 06 12 47 18 86 15 29 18 71 18 124 18 53 VANE SIGNAL HA 4 00 16 52 4 00 DAMP SIGNAL 4 7 9 4 2 B HAN 62 46 11 18 001 2 7 9 1 62 11 18 62 11
162. 5 INTA SK 6 7 INTA S 10mm 28 100 mm 27 26 CRS D 25 24 0 380 530 680 830 1080 15 x 19mm 23 22 4 20 1720 mm 21 20 50 X 80 mm 3 19 18 INTA S 16 15 node 14 5 INTA S 13 I 12 4 2 1 11 8 7 6 5 4 3 2 1 4 2 1 1 62 274 SN9410 88 011 4 3
163. 5 ER 306 1 1 E HH _ LLL FEE EEE EEE EEE EE 65 04 1 5 14 14 3 1 654 0 1 EATA sm Lf SMIR 1 3 UPR 1 65 1 B 0 Ch 1 SMIR 1 AMIR 3 CMIR 14 UPR 1 654 A 1 B 0 1 5 14 SMIR 1 AMIR 3 CMIR 1 UPR 1 110 388 OTVE6NS 52 3 3 62 12 TT Oa owe e oss aT sR ST STS 100MW 14 CEREA tee aE PTT TTT TT 100 AG Na tit BE 370 T 467 x T gt 1 FHE E mam E 0592 tA I put DE PE PE BE PE BE PF BE BSE HERE EEE HEE pitt titty tt tt EE 110 88 OIP6NS SN9410 88 011 R 221B One 029 ES R 7 B OOQ R IS C R I5 42 11 1LOOMWH1344 Z 446 a we wee 6 wm A
164. 615 A E TAR PFD255 i 5 153 255 PFD 301 PFD 030 x Cat EOC 153 OVER POWER BOC SN9410 88 011 3 14 5 14 BOC Gr 1 MK T 14 L MAGI 2 14 BOC 62 11 28 H 33 14 1 1 254 4 2 966 kk OMW 250 2 986 kk j OMW 250 C GO MAGI 3 096 3 13 EOC 62 11 1 3 14 2 0MW 246 2 2 024 i OMW 250 gt 2 011 kk OMW 250 CTA MAGI 2 2
165. kZK MWD I 7 B GE2 810 0 809 3 rpm 3 50 BAD mA Table 1 Fig 2 5 104 J O Y OD MW 1987 9 1 1 0 1987 11 2 23 0 MK 2 13 RP PAA 125 00 112 60 87 50 00 12 50 25 00 50 00 62 50 75 00 67 59 1090 00 11 15 17 19 21 23 25 27 29 1 3 5 7 3 16 17 18 21 23 25 27 29 31 SEPTEMBER OCTOBER 7 11 1 5 7 9 5800 TT0 88 0j 6NS SN9410 88 011 7 12 M MK I 14 Gr 1 1 2 M 3 Na 2 M M
166. kay 100 0 mm 200 300 lt gt gt 129 10 10 i J 8 3 2 8 3 1 8 3 3 PNC SN9410 88 011 211 2 282 mm 012 Z 4mm 13 2 268 mm MAGI 7 MAGI MAGI NEUP MAGI 6 2842 5 8277 1 078 1 03122 9 7917 1 053 5 4602 5 3272 1 025 gt gt 1 0 6 443 7 5042 0 859 1 3558 1 767 0 767 6 046 7 8502 0 770 gt 0 1Mev 3 6882 3 595 1 026 6 9062 7 2304 0 955 3 4304 3 66421 0 936 10 8 3 4 gt 1 0Mev gt 0 1 Mev 8 3 5 T SN9410 88 011 84 He GT Gr L He
167. t t t b t 1 1 i 5 4 1 e a t b 1 t 1 4 t t b 1 3 t L 4 b 1 t 1 b 3 4 1 4 3 4 a 4 b t 4 3 1 3 6 3 4 t a b 1 a t t 1 4 b a t 8 f b 4 r 1 i 4 t 1 t t b 1 1 4 t t 4 4 a 1 1 1 1 1 1 1 1 H 1 8 4 4 4 Q 4 4 t t 5 1 1 t b t t t 4 t b 4 1 I a 1 1 H t 1 1 3 1 4 1 6 4 1 8 t b a t 4 t 1 1 1 4 t 4 1 t 1 4 L 1 4 4 4 b k t 1 b 4 b i 4 1 t I 8 b 1 4 4 b t 1 i 1 th 46 s k k aanas naa mjam amm OEE EO ECS Se ens ee oe see eee ee ee gt mr 2 nh 49 ee eee ew tb es Fa Feet ee Sees Se SS 8 ww w w ewe ee v 2 eee x
168. tively 9410 88 011 1 2 2 2 1 62 10 12 eee emsa sama 2 2 2 13 3 15 3 1 62 198 16 3 2 14 f 62 206 17 33 MK L 9 62 209 18 3 4 13 62 211 21 3 5 2 TCR201 62 212 22 3 6 MK 12 2 62 225 23 3 7 MK 13 62 228 236 240 310 25 3 8 CHECK oe GX 62 230 28 3 9 18 HA 62 285 31 3 10 62 FBR 62 247 32 3 11 MK I 14 62 254 38 3 12
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