Page 1 Page 2 概 況 ・新型転換炉開発概況
Contents
1. No16 1975 11 7 SJ206 75 072. MAR 650 0 1MeV 2 7X1015nv 1 X109 hr
3. Ce RS 4
4. 277C 72kg org 40 thr 1 2 tb GS 4 1975 11
5. 2
6. 1 72kg emg 277C 2
7. 1MW LPG 500
8. 4 3kg emg 4
9. 7 AGF GETER gt GETR T PD MMF DFR DF 448 1 2 DF R464 1 JMM TR JMTR SM FM F 1 1975 11
10. A 7 lt 8 ne pe te I
11. HE Photo IOmm Deteotors 5 Sheathed 8 Exhaust 6 Connector Connector Wire Tube Case 20 rr i 2 Ps 3 i 63 15000 Fig 3 IOmnm In Core Neutron Monitor No16 1975 11 F BR 59 Table 2 Speoifioation of the FBR In Core Monitor ASSEMBLY NUMBER CHANBER NUMBER MATERIALS Detector case Electrode coating Cable sheath Insulator Detector Cable Connector Filling gas MAXiMUM RATING Temperature Pressure CHARACTERISTICS Neutron Sensitivity Gamma Sensitivity Insulation resistance at room temp at high temp Operation voltage Plateau tangent DETECTOR DIMENSIONS Sensor diamet
12. Pu U 9 792 2 2 1 TI TI V DCA
13. SD 2 KD 2 2 7 Z 4 6 inner iter ation outer iteration SOR Successive Over Relaxation m ethod No16
14. SJ234 75 02 16B 50 2 4 50 3 31 16 B 1
15. WV LT 50MW V nul TL 6 No16
16. 1ng 1ppb oY cts N941 75 18 1972 49 1 49 12
17. 7 3 2 1 1 1 1 gt
18. ZJ322 75 03 DEFECTIVE FUEL ELEMENT EXPERIENCE SURVEY ENERGY INCORPORATED 49 12 3 50 3 25 ZA255 E 175 05 A Monthly Report on the Water Reactor Safety Program in U S A Energy Incorporated 50 2 18 50 5 20 No16 1975 11
19. MgO J237 75 01 No16 21 49 12 10 50 7 31
20. lt
21. Na 5 H II HK 1 LT 1975 11 2 WV
22. 15 H Nakagawa S Yiftah ZJ202 75 08 CV 49 11 1 50 4 20
23. 0 1 3 4 zt 5 8 5 6 1 3
24. V 3 STRW Rapsodie PN C 4 5
25. 5 50MW 1 5 1 3 4 No16 5 I 1M
26. JMTER IS I 2 5 RCR _ yes 5 5
27. 1 2 V HI T B M CRC 2 IT 50 LMF BR JANUS 8
28. Na16 1975 11 40 50 ES 40 x KN 30 i 20 T 1 2 3 4 5 6 7 8 1 8 m 204 2 ne XX A 10 EE DC 2 es gt 0 RR T EE T 1 2 3 4 5 6 7 8 9 10 mm SA
29. 2 50 MW LPG NN 44
30. 1 1 4 277 72 kg cwg
31. 50M W 46 7 50MW 3 2 4 49 6 50MW 22 4 6 4 3 10 7
32. 3 CN tt No16 1975 11 47 50MW 1 MN0S 5 2 bp 2 rp EA 95 8T SE 6t 9t 12 0 HS A3 HSTAT ET TA 9 S A we wwAs 6 WAT WAT 992 HS AT DgS 2 Tt sit Pg A XHI 2 LA 4 WA 4 H Hl 4 HS HA 0 6 06 ST iI 92 12 St HST TATI A 4 NAT AS WAT HS AT Dsl
33. SN941 74 07 No16 1975 11 28 1 1 2 1
34. JMTER Fig 8 2 1020nvt F 9 5 1020nvt 10MW 50MWth 400C 550C 550C 56 g 600C 4 6 3 3 2
35. 4 49
36. 3 4 44
37. PFR 0 Nuclex CFR PFR 1 2 PFER U 16 1 CE GB CFR 1970 1 9 DFR 1976 10 DFR 1954 1959 09 No16 1975 11 68 1 4 1975 3 6
38. 2 ATR 3 ZJ302 75 13 49 7 15 50 5 31 No16 1975 11 10
39. Na Cr Mo Na Na SJ272 75 02 II 49 11 1 50 4 3 300A 2 MHz 50 4 D 5 15 25 0 45 90 0 10m see K
40. S J 201 74 14 83 30 S J201 75 08 1 7 3 49 9 17 50 5 20 3
41. 3 3 ZJ303 75 02 II 49 9 2 50 5 31 11 2 4 7 JMTR 4 8
42. 2 S J235 75 01 49 9 2 50 5 30 Na Na 3 49 1 Na
43. 1 1 14 2 2300 6000ppm 70 480ppm 3 4 5 SJ206 75 11 49 10 15 50 6 30
44. 1975 11 50MW 1 55 7 50MW 1 50MW 2 11 8 49 50MWSG Na 50MW 50MW
45. VS 6 2 3 1 No16 4
46. 4 SN941 75 10 49 11 50 2 1 1 10 390nm 100xg 20ug 2 8 N941 75 11 CV
47. No16 50MW 483 C132ata _ 1 1 2 2 Na 3 390 540 4 TA 946 5 6 540 2 C 390 7 T h 946 5 C 327 6 4 C 505 7 T h 794 8 505 gt 2 327 6 T h 794 8 2 C 240 T h 79 6 C 487 ata 132
48. MWt 40 1 9 9 1 1 el Re 505 505 atg 10 10 mi 186 100 kg cW 2 8 8 0 kg om 0 43 0 25 mm 765 765 mm 741 741 mm 805 805 mm 1205 1125 mm 10800 9400 SA387GrD SUS304HP 2 STBA24 SUS304HTB 75 60 WW 25 4 25 4 mm 3 2 3 2 4 6 5 m 27 0 18 2 mm 40 40 mm 40 40 5 240 365 367 487 atg 143 132 T H 79 6 79 6 469 6 505 2 327 6 469 6 T H 794 8 794 8
49. 1 JMTR 1 Fig 7 3
50. 55kg 0 21kg mm 650kg ZJ342 75 01 RESEARCH TO DETERMTINE ACOUSTIC EMISSION PROPER TIES OF HYDRIDED AND UNH YDRIDED Zr 2 1 226Nb PRES SURE TUBING DURING FATIGU E CRACK GROWTH AND FRAC TURE BNWL 49 5 30 50 1 30 300C Elastomer Plug ACOU STIC EMISSION AE AE Zr Nb AE
51. H 10mm e FBR 1 oT 45 Mw sown ee e e 0 10 1 GOO e Cs 3 or 10Mw 10 500kWi ooo Oi 0 0 9 3 nd 0 20kW Il ero Om 9 e 0 6 50 100 150 180 Applied Voltage V Fig 9 Saturation Current Curve at JMTR Photo 3 6 3mm etectors 3 2mm 2 10 mm f HH Phboto 3 5 Fig 10 BB Fig 11
52. 1 150 C 82kg cm2 g 10mm 4 538mm 1 424mm 150C 82kg em g 390mmzX450mm 100 C 82kg cm g 890mmgX 45mmX 13 5m 21 t 4 540mm XX7 485mm 3200kg 2 2 130mm X3800mm 120kg 3 m min CO 0 6m min 2 se 10 75m
53. 47 48 1 5 1 2 No16 1975 11 ja 7 lt a 2 1 1 i 1 HE Yl 1 1 le hr RP
54. vol 48 No 50M W 7 50 mm m 8 No16 50 wm 50 vo1 24No 8
55. lt ZJ301 75 01 49 12 25 50 4 30 1 2 3
56. 1500MWe I HH D SJ201 75 17 WN Pu
57. SJ206 75 05 22B 49 1 5 50 6 30 22B SJ234 75 01 26 B Noi6 1975 11 20 49 3 30 49 11 20 26B
58. 1 3 4n 2 1975 11 36 2 2 10mm 5 20 2 ml 3 3 6cc hr 10mm cc hr 300cc hr
59. 23 100C 1200 1 N941 75 19 No16 25 1 II 49 10 50 3 1 47 3 49 9 13 000 13 000 1 1
60. 3 No16 1975 11 IT 1 TV IT II 49 49 F 1 49 FCA 1
61. Fig 3 Case Exhaust Tube Chamber eg JInsulator Fig 3 9 2mm X113mm 3 2mm 15mm 15m Photo 1
62. Argon at 760 mmHg 600C 150kg cm Fast neutron 3 7X10 19Amp nv Thermal neutron 8X10 17 Amp mv 1 X10 Amp Hr gt 1 Xx1019 ohm gt 1 107 ohm 100 volt 26 V 6 3 mm 118 mm 12000 mm 25 4 mm 3 2 mm 4 1 6 3mm 10mn TTR Fig 12 2 550 10 8 8 No16 1975 11 64 Fig 13 Fig 14 TTR 6 3mm RU Yo 109 A 600C x 3 RS 10 s 0 a as SG 0 106 ee a 107 Room Temp 2 10
63. 1 5 DCA1 2 ZJ302 75 03 VI 50 1 27 50 6 30 3 1
64. 8 20 ZJ206 75 02 E 49 11 1 50 3 20 47 CA
65. 1 mm 2 10mm 3 10mm 1975 11 37 4 5 2 2 2 1 277C 72kg cmg
66. 3 3 1 1 IT 3 FF 2 3 788 1 E 1 1 3
67. No16 1975 11 JMT II 3 CTL 3000 8 9
68. ZJ306 75 02 I SI 50 6 2 50 7 31 Inservice nspection I II T TI 1 2
69. 2 7 1 80C min 2 40 2 2 No16 1975 11 52 97 2 C CHIN 484 1 493 SH Na i 489 479 0 SH 477 8 448 1 EV Na 451 9 FEV Na 390 8 312 9 433 1 EV Na FEV 1 mc 357 3 0 10 20 30
70. 3 C TL 5 3000 4 Pu JMTR 4 HBWR Pu SGHWR U
71. _ ES RE FT SN RE 8 8 EE RR Sodium Level FBR IN Core Monitor Thermocouple Vacuum Chamber 4 C A Fig 7 Standard Detector Sodium Chamber In Core Monitor irradiation Capsule No16 1975 11 62 A A 10 k FBR 2 1 2 0 STD x i 2 x FBR 1 10 s i 4 10 0 1 1 10 100 Reactor Power MW Fig 8 Output Linearity at JMTR 4 6 3mm 10mm ss MARK 6 3mm 10mm A
72. No16 1975 11 46 2 50MW 4 Se 50MW 49 3 50MW 3 72 6 28 3 9 180 130 3 9
73. F 4 600C 107 8 TTR TTR Photo 2 5 620C 1975 11 60 Table 3 Insulation Resistance of Deteotor Head Q Room temp 600 C No 1 gt 1013 8 2x108 No 2 gt 10 33 5 4 X10 8 No 3 gt 10 133 1 0X10 9 No 4 gt 1013 6 4 108 No 5 gt 10 13 6 8X108 Resistanee 9 Output Current A Fig 10 10s Detector Number 108 10 06 Nx T I T 0 100 200 30 400 500 600 Detector Temp Fig 4 Temperature Resistivity X107 1 0 3 we 620 C 0 5 Room temp 0 0 100 200 300 Applied Voltage Y 5 Saturation Ourrent Curve fo
74. 500 50 3 3 400 Ne16 1975 11 Na 1 Na 3 50MW 1 43 N 2 gt 7 gt 505C lt FBR
75. 1 S 1 BNWL 5 2 7 1 1 1 2
76. Ne16 3 2 3 3 3 8 2 1 2 1 2
77. 2 38 43 MF BR Table 1 43 300C FBR 44 400 C 2 45 46 29 600 TTR 1 3YN 47 550C 10 2nvt JMTR 5 48
78. 38 4 277C 72 mw2 M 50mmHg 200mmHg 90sec 2 7 65 C 150 C a es 30 72kg cmzg 2 26 36 43kg mm 14 16kg m 24 30kg m jp 7 10kg m 27kg m 2 8 ss 12kg m 20 24kg m 3 6kg m ee 3 05m min 3 m min 0 61m min 0 6m min 2 63 min i 5 TD 7 184 min ERO AC 14t min Poa 2 A 9 5 nii 16kg cmsg 12kg cm g 14kg cm g i er 2 m hr 0 9m3 hr 3kg amsg nar 78 5kg osg
79. 5 5 4 WV 1 MW No16 1975 11 54 SG SH 4 15 16 EV 4 23 25 1 100hr 4 200hr SUS 304 2 000 1 500 X9 400H 29 400m 3 400hr 4 200hr 2 1 Mo 2 200 1 5008 X10 800H 40 500m SUS 304 100m 9 9 15 H 20 m7 H 3007 530 Nm 12 8 6 440 9 26 2 3 H 20z7H 1 020 895 Nm 12 8 10 500 9 1 Na 2 3 12 1 18
80. RNo16 1975 11 4 8 9 WV WI H20 H
81. P PR RNo16 17 ZJ206 75 03 JAERI Fast Set 3 235 U 238 U 239 Pu 49 7 15 50 6 30 235 U 238 TJ 239 Pu 3 70 JAERI Fast Set ce U 238 of 235 of Pu 239 238
82. U 6 1975 11 50MW 1 45 4 50MW
83. No16 1975 11 3 4 4 R J bd ett eS tai ted et ht ae PE ee eh bed ad obey Ss ng Tt ee Es 5 No16 1975 11 32 2 Rs DM 9
84. MD A 1 2 3 3 2 1 S H EV Ge No16 2 9 2 4 2 lt
85. MZB 2 1975 11 MICS5 2 6 offt center 0 Y
86. S G I ANUS BB M 8 RN FP 9 1975 11 8
87. 1 2 3 235 U 238 Pu 239 2 Y 25 PIG EON Benoist P Coilins ZJ250 75 10 JAERI Fast MZB 49 7 15 50 6 30 MZB
88. SN843 75 08 48 2 1 48 6 30 50MW 21 1 1975 11 24 2 3
89. 10mm 6 3 No16 1975 11 FB 57 Teble 1 43 44 45 46 47 48 4 9 50 51 52 0 T Ii mm 97 6 3mmg JRR 4 7 SJ201 75 21 1975 5 3 FEBR H S 201 70 07 1970 8 SJ201 1 23 1971 10
90. S J202 75 13 CV 49 10 1 50 5 31 SUS316 5 5mm 0 35mm 2 A B C3 A B 400 800 650 2 135 kg mms 4 1000h js A B C 700 C 3000h B C A S J207 75 07 5
91. VI V gt 2 2 DCA 25em 0 549 6 0 87 PuO UO
92. 6 7 70 8 9 V 405 90 17 1 2 4 20 40 2 100 40 3 30 100 3 mn 4 1975 11 50MW 1 51 1 calculation Vajue Water side Flow Distribut
93. 4 a No16 10 3 5 6
94. 9Berin Imternational Generation amp Transmission Corp CANDU AECL 1970 Ber lin ITG amp w C ANDU 1 NRC 8 CANDU PHW 200 700 F HWOCR 9 2 2 CEGB 1978 AGR CEGB NPC SGHWR 3
95. 8S G O 8 GG FV SH OEV SH Ne 2 ek ground O Na O Na EV OEV SH i O SH 6 POPAI No16 1975 11 50 OEY SH St AEV SH EV Ns T H
96. FEjg Connector Sheathed Wire Detector Head Exhaust Tube jf i i i rh oo 1 i 1 1 Et eS 51 118 12100 Fig 10 Dementional Drowing of the Trial Detector Units mm No16 1975 11 MI Cable Upper end plug Spiral wire Cover tube Fission chamber fB 63 Cover tube Lower end plug Nm Go i 32 _ Es 510 1600 Fig I Defeotor Pin for Fuel Assembly Table 4 Speocification of the FBR In Core Monitor ASSEMBLY NUMBER FBRS 29 CHANBER NUMBER MATERIALS Detector case SUS 316 Electrode coating 89 8926 enriched 235 Cable sheath SUS 316 Insulator Detector Sapphire and Beryllia Cable Alumina Connector Alumina Filling gas MAXIMUM RATING Temperature Pressure CHARACTERISTICS Neutron Sensitivity Gamma Sensitivity Insulation resistance at room temp at high temp Operation voltage Plateau tangent DETECTOR DIMENSIONS Sensor diameter Sensor length Overall 1 Active length Cable diameter 10 Ta ble 4 10mm
97. Ne 8 50 8 3 50 9 Neo16 1975 11 2 9 A B 275KV 7 F B R B F B
98. BNFL 1974 1m 8 50m B amp W Clark Chapman John Thompson B amp W Hayward Tyler Whessoe Sizwell B CEGB 0 CEGB Sizewel Tr No16 1975 11 0 69 AECL SSEB Torness
99. C A GE CEA GfK TB M CRC 1 VI 1 FP FP W V Ar
100. Pu UKAEA Pu W JMTR JMTR FP 2 6
101. 8 Release of Plutonium Oxide Aerosol to Atmosphere in a LMFBR Hypothetical Accident INuclear Engine ering and Design 8 rEvaluation of Desired Accuracy for Hot Spot Factors in Fast Reactors 8 fnspection Tool for Primary Coolant System of FUGEN PR 2 vol 21 No 8 8 1 vol 17 No8 9 FAPIG No78 m LI Service 1975 11
102. Re 2921 4388 7309 10 277C 72 es 2 10zw Neoi6 1975 11 42 50 MLW 1 1 49 7 50MW 1 50 3 SNR 2 50M W 1
103. 47 48 M 1 SUS304 5 000 10 000 M 3 2 Cr 1Mo NRo16 1975 11 5 000 10 000 M 12 M 3 5 000 FNA FNA SJ278 75 03 2 49 12 50 6
104. 16 1 1 1 1 CRBR CRBR ERDA ERDA 1976 JCAE 1 JCAE 1 1976 3 CRBR 60 5m CRBR 15 1982 8 1983 10 0 NRC CRBR LWA L imited Work Authorization 1976 11
105. 3 50 8 2 3 H
106. 45 No16 1975 11 K 1 0 90 D 3 KK D 25 SJ223 75 02 CIV 49 9 2 50 2 28
107. 3 2 7 LNo 16 2 AOL 3 7
108. M 50MW m 1 MW 50MW 50MW W 2 Na 3 50MW 11 174 5 Na 12 175 5 50MW Na 2 1MWSG 1975 11 56 FBR 1
109. No16 1975 11 9 50 I CLUSTER MINTI 49 9 10 50 2 28 burnable poison burnup CLUSTER burnable poison CLUSTER CLUSTER burnable poison burnup
110. EDF 0 Framatome PWR CGE FBR CGE Phenix Snper Phenix 2 000M We FBR 2 3 FBR Creuso Loire CGE CGE Babcock GG AAA GNR 2 Creusot Loire 1 3 Committee of Public Accounts PFR UKAEA 67
111. 49 11 20 50 5 31 1 10 0 1 2 3
112. 1 Ge 50 11 15 orgian North Channel 4 x 750MWe 19 1 The Liquid Metal Fast Breeder Reactor Promises and Uncertainties General Accounting Office OSP 76 85 Bruce 1 July 31 1975 1980 2 The Reuter Applied Atomics Report Aug 5 1975 p 5 1 3 Sep 30 1975 p 4 4 Atomwirtschaft July 1975 p 266 Superior 5 Finaneial Times Oct 6 1975 p 30 2 000MWe 1990 7 6 Nuclear Engineering International May 1975 p 468 AECL Nova Scotia GI 7 June July 1975 p 503 8 June July 1975 p 504 ey 9 Sep 1975 p 639 0 Sep 1975 p 642 ace Bay AECL 0 Sep 1975 p 643 09 Oct 1975 p 882 20 66m A 19 Nov 1975 p 897 09 Nov 1975 p 905 ECL 130m 19 Nuclear Industry July 1975 p 34 0 July 1975 p 35 Sep 1975 p 35 400t yr 1975 19 Nuclenoies W
113. F BR 73 50 7 9 No16 74 50 9 23 WV F B R 8 50 7 15 F BR 2 50 7 24 3 50 9 5 1975 11
114. 2 JAERI Fa st U K 3 ZJ250 75 11 49 7 15 50 6 30 JAERI Fast set C O Na Al Fe Ni No16 1975 11 235 U 238 Pu 239 PROF GROUCH G IL
115. 7 1 0LOEFT PBF 1 Approach ZA245 MR 1 02 TU 50 2 3 50 5 31 ZJ 303 73 08 2Z J 303 74 04 3
116. se 0 02 0 03 0 01 0 015 6 3 7 POPAI GD F BR FEBR
117. 302C 89kg cm g 277C 72kg cng X 4 X5 X 4 X 4 X 5 60t bh 400kw 5X105keal h 1 2 2 3 3 Nc16 1975 11 4 3 1 TE 1 1 8 mm RR
118. 48 9 1 49 11 30 SW 2 1 1 0 180 100kg 4000kg
119. W SJ201 72 21 1972 7 FBR S J301 73 01 1 1973 2 1 2 3 4 5 6 CV 1974 3 S J201 74 11 1 90 1969 3 10mm 3 1 Fig 1 Fig 1 14869 5 Tri Axial Cable mm No16 1975 11 58 10 8
120. 300C 47 2 2 5 7 1
121. 1 No16 1975 11 3 GAO LMFBR GAO General Accounting Offire 19 74 12 6 LMFBR LM FBR LMFBR ER D GAO GAO LMFBR GAO LMFBR R D 1 2 Super Phenix 1976 1 1975 4 7 10
122. 70 25 J250 75 12 49 10 11 50 3 15 48 I SI IHX SG I S I 1 3 2 IS ISIi 3
123. 2921 4388 7309 9 277C 72 ow 10zw 3 3mm 10mm 4 No16 1975 11 41 50 2 A A cm et 40 et Oem i wo o ox oo we A SE x 20 10 2 3 4 5 6 7 8 9 10 m 20 5 2 SN i 10 i a 0 X X lt 20 0 i ms ne AAA A
124. min 0 AC 4 93 1975 11 50MW 1 53 475 1C 295 9C EV Na 344 0Ton mj 446 8 33 2Ton EV Na 439 8 C 443 3C 1 Ol SH S HH Na EV 9 2 3 4 5 min UM IMB 1 H B Hn i An Tj LU 1 RR ek 1 RE EC Tt i 1 1 pons ate 1 1 1 1 Ee Ss 1 1 i 1 A s A Rn 8 H pn ii 5 ty ti PD a Tl Dr A i t 53 REE II a 304Ton h 324Ton h uy Se Gn Gw 12 7 Gn Gw 18 5 Hs N 1 TMP 3 5 11 12 2 EXP No 813 R Gn Gw 4 2 1
125. 49 10 1 50 7 31 00C 650C 750C k 2 A B C3 B C A C A B N 1 A B C 2 B A 3 B 650C 750 C A B C 4 A B C 8SJ216 75 01 lt 4 49 8 5 50 3 28
126. DFR 332 10 5 2 RapsodiePNC 3 8 BMI 1 WE BAC B10 JMTR nl No16 7 3 FMF
127. ERDA Nelson Sievering 1975 7 AECTL Jo hn Foster AECL 9 Hans Bethe CANDU CANDU NRC CANDU NRC
128. 3 2322 7 4 SN941 75 48 Na CV 2 48 2 50 5 2 Na 2 48 2 50 5 Q HH
129. 6 1 6 2 310C No16
130. 300 C AE AE ZA185 75 02 RESEARCH TO ESTABLISH BASELINE HIGH TEMPERATURE FRACTURE CHARACTERISTTCS OF ADVANCED THERMAL REACTOR PRESSURE TUBING BNWL 49 2 18 50 3 31 300C CCL mechanical defect fatigue defect ZA185 75 01 1 AE CL 49 3 20 50 7 20 Zr 2 5Nb AECL AECL No16 1975 11
131. C 41 8 32 C 26 5 m h 4500 1975 11 44 2 MW 15 50 C 1 2 540 560 atg 130 173 C 480 513 200 270 3 Na 2 30 100 5 min 10 30 1009 6 2 1 2 12
132. 48 SUS316 2 A B 2 750C 100 300 1 000 3 000 Ar 1975 11 22 1 750C A B 2 750C 0 A B 3 X100 A 1422 60 B 8 11
133. 50 29 49 0 103 50 9 16 50 9 17 104 50 9 30 No16 38 Na 50 7 23 50 7 16 50 8 26 LMFBR 50 7 24 50 8 6 mFBR 86 87 1975 11 50 8 20 50 9 17 50 9 19 50 7 8 JOYO 50 8 26 72 88 50 9 9 49 FBR 60 50 9 10
134. V Se EN 4 4 1 NE 1 2 4 2 ON 5 3 32B 1
135. 1 Benoist 2 3 4 ZJ201 75 15 1 V 3 49 12 16 50 4 30 3 VESTA 3 ABBN 3 FO RTRAN Y 10 VESTA Z J201 75 15 49 11 15 50 4 15 No16 1975 11 16
136. 46 5kev 0 215eV 300 900 2100 3500 K 103 102 10 1 barn 10keV 0 215eV 300 900 2100 3500 K oo 103 R 0 25 50 10 2 R 0 1 5 10 R 0 0 2 0 6 21 5keV 0 215eV 300 900 2100 3500 K 103 R 0 50 100 10 2 R 0 5 10 10 R 0 1 2 R 288 235 239 Pu J250 75 08 oo 235 UJ 239 Pu OO 1 JAERI Fast Set MZA MZB 49 7 15 50 6 30 JAERI Fast set 1975 11 18 MOZART MZA MZB 2 C E
137. 2 1 4 800gr 3 4 5 SN941 75 43 48 7 50 3 1975 11 26 0 1ug 0 2
138. F BR PFR AEA 1969 TNPG PF 33 240 0 PFR 3 1 30MWe 1 250MWe 1
139. Na SG S G O Oo Oo 5SG O Na gt O 2 Na O Ee 2 Na O vy O SG a A Oo 6 a pn RR
140. Pu299 U295 MZ A Pu241 fission U 238 capture U 238 Of ssion 1 1 U288 fission J AERT East set ZJ250 75 09 HI JAERI FAST MZ C 49 7 15 50 6 30 MOZART M2 C A ERI FAST
141. SJ206 75 08 WN 49 12 16 50 4 30 DUO 15 SN Benoist ZEBRA MZB ABN 25 NNS 5
142. 7 10 1 X10 4 g S N941 ag 5 49 2 21 49 11 9 27 650 700C 650C 1 501 0 7 700C 1 925 4 700C
143. 4 5 ZJ304 75 01 No16 1975 11 12 50 1 10 50 3 31 DYNAM ELCE NTRO GOLDEN GATE TAFT
144. 49 11 15 50 5 15 MZ B 1 MZ B 2 M Z B 4 Pu Pu ZJ202 75 07 49 11 20 50 5 10 No16
145. 7 Na 70 6 f 3 No16 10 3 20 180 N 30 40 10 4 10 3 10 2 10 1 Hz 8 Na EV Y 9 40 902 17min IHX 1 Na D869 9T H 353 2C 506 6 IHX 1 Na 492 8C i 90 Cald Shoeck 4C4 93 5 15 2 500T M FIC 107 TT 150T M 4 EV T 1 C 172 FIC 301 Na 469 9 C 39 43 C 398 2 E V Na 395 7 327 7
146. 100 Ey 82kg em g 100kW 283 7mmgX 17 4mm 4m U 100 C 82kg cm g 8 6X10 Kcg Br 336 6mmgX 9 5mm 0 88m 2 700mm 7 400mm 60 t 50m min 3 0m min 0 12m min 0 1m min No16 1975 11 33 34 2 a 44 45 46 47 48 49 50 1 2 O O 1 O O 2 3 1 1 2 2 3 L 3
147. vol 20 No 9 a vol 17 No 9 71 9 vol 15No 5 50 7 9 A TR 1 50 8 19 2 50 9 2 3 50 9 26 F B R 100 50 8 5 European Nuclear Conferenee 10l 50 7 29 102 50 7 31 Pu
148. JMTER 1021nvt U29 MARK 2 mh OR F BR 61 2 X109nv 1 X1014nmvy 6 watt g 50 50 35 550 C JMTR 2 3 JMTR
149. 1 1 2 9 10 mm 277C 72kg amg 2 2 10mm 277 72kg cwWg 10 3 1 1 277C 72 kg em g 40t jr 1975 11
150. 6 8 Ontario Bruce 4 2 3 1978 4 1979 9 600m 9 2 3 2 4 1974 Pickering 74 3 Rio Tercero CANDU 79 126 1974 12 1974 72 0 88 4 42 7 93 9 1974 1 565 IAEA AECB New Brunswick
151. U D T H 5 1 2 15 20 3 4 2 3 No16 5
152. AECL Gentilly 1 2 AECL Gentilly AECL AECL ZZJ302 75 14
153. II r 1 50 2 17 50 6 30 r v 1 8SJ201 75 24 1 49 12 10 50 3 20
154. 1 50MW 50 50MW 50MW 50MW 1 50MW T 50MW 1 Na 50MW I 50MW HH No16 50 50MW 50MW Na 50MWSG Y 50MW
155. 108 Is 1 5 10 BR 8 8 103 x 8 gt 10 0 100 200 300 400 500 6 Temperature C Fig 2 Insulation Resistanoe of Tri Axial Gable SUS27 lt 3 2mm 15 100V Fig 2 600C 1010r 100V 10 7 A 10 3A 3 2 10mmg
156. 85 gt 2 A 10mm Ne16 1975 11 39 ATT TT RT ES a CALLE
157. TV 45 9 49 9 45 1970 9 49 1974 9 SN941 75 17 1 No16 1975 11 _ 48 4 50 2 233 10 20 g
158. 13 H 50 3 20 50 7 15 2 1 2 3 2 g 4 f 35Hz ZJ346 75 01 Not6 1975 11 14 50
159. 2 Point Lepreau Fundy Rio Tercero 200 AECL John Foster Montreal 1 2022 2 000MWe AECL CNEA 2000 130 000MWe 0 Ontario 2
160. 23 SD2 KD 2 F SN241 75 13 49 11 1 50 1 31 3 750C 800C 48
161. Burns amp Roe Stone Webster 3 ERDA EPRI 1 3 30 3 1 1 2 3 1 NCBR ERDA EPRI
162. 0 5ppm 27 N941 75 44 TE 2 48 2 50 4 r 2 Na 2 8 000 1 2 2 8 000
163. 22 5em 25 0qm PuaO UO 8 I AEA 2 3 HTL 0 8 9 2 4
164. 6 3 mm 10mm e KNK 6 3mm No16 1975 11 F BR 6 No16 1975 11 65 66
165. SJ202 75 03 49 9 2 50 4 30 19
166. 4 1977 7 8 CRBR 19 83 10 1975 4 11 1976 4 23 19 76 10 1 PMC 1975 9 LWA NRC 9 GE CRBR 1 2 6 1 Borg Warner Corp Byron Jackson Division 34 8m 1978 3 LMEC WH 21 4m Chic ago Bridge amp Iron Co 1981 12 WHH TIHX 5 2m Foster Wheeler Energy Corp 2 NCBR ERDA EPRI Electric Power Resear ch Institute L MFBR 30m GE WH A iT 3 Bechtel
167. 45 15 3022 250 50 5 10 000 SN941 75 53 1 y 49 4 50 3 51 54 9 60 7 No16 1975 11 Ge Li
168. 90 Water Flow Rate Ton hr 4 E V 1975 11 50MW 1 49 5 EV O EV SH O O Na S Oo Na ONea Na O EV EV SH 5 En o 8 G EV EV SH O O
169. Ee 3 SS 10 3 SS o x 7 X10Pny 103 es Sd 100W 1KW 10KW 100KW ee Reactor Power CIC 3 Fig 3 Output linearity at TTR a 105 JRR 4 0 100 200 300 400 500 600 Temperature C Fig 2 Temperature Dependence of Insulation Resistanoe of the Deteotors i x 10 er 600C 2 SS x 2 xn0 Room T 3 oom ud 9 90 En 200 Bias Fig 14 Saturation Current Curve at TTR 100 1000 6 3mm 5 10mm 6 3mm 10mm
170. Kr 1 OFP 9 1 2 50MW 50MW 1 2
171. Bensburg RWE A W Eitz SN R 2 SNR 300 1980 1987 88 1975 77 D efinition Phase 80 Baden Wuettemberg 1975 5 2 HKNK 1 KNK 1974 9 1976 1976 1 5 CNEN NIRA 140MWt PE C PEC Lit125bn 1979 0 FBTR 1979 3 2 0 2 2 1 ERDA AECL CANDU
172. Pi a RS 1 i Er U0 Pu gt TREE enn i LL ET x 2 1975 11 No16 30
173. TN134 75 04 No 1 1975 11 No16 lt ee 1 rrr 4 PT 9 ms mmT 14 i m 28 50MW 1 ooo 42 F BR ese 56 8m 66 eee 70 1 1 2 3 4 8 9 12 13 15 16 17 19 20 8 21
174. W 50MW 4 30 40 C 5 360 450C Design Value 500 calculated Value Exp Yalue oD WATER TEWP 2 59010W INLET TE a 4 SODIUM OUTLET TEMP 2 S0DIUW FLOM RATE 300 g i 200 a 0 40 69
175. eek July 17 1975 p 10 Port H 9 July 24 1975 p 8 0 July 31 1975 p 3 awkesbury Bruce 1 200t Aug 7 1975 p 3 9 Aug 14 1975 p 6 9 Aug 21 1975 p 10 0 Sep 18 1975 p 5 yr 1980 Bruce Genti 9 Sep 18 1975 p 6 Sep 25 1975 p 10 lly 800t yr 1980 Oct 9 1975 p 9 Oct 16 1975 p 12 4 000t yr 1980 No16 1975 11 70 5 50 7 9 1 7 ma 7 am
176. er Sensor length Overall 7 Active length Cable diameter 1 Table 2 3 3 O Table 3 600C 1082 No16 FBR 6 0TU SUS304 89 89 enriched 235 SUS 304 Sapphire Beryllia and Alumina Alumina Alumina Argon at 760 mmHg 600C _150kg em Thermal neutron 1 X10 16 Amp nv 4X10 14 Amp R Hr gt 1 1010 ohm 1 107 ohm 100 volt 0 1 rNV 9 2 mm 133 mm 15000 mm 25 4 mm 3 2 mm
177. ftI6 a eiz 2 ZI AT ES 61 et deN Bt4 2 06 6 6 ee 414 92 r74 HS A 9 eN eN T IN 09 TS 8 09 65 9 6 T 8 09 No16 1975 11 48 1 6 300 2 4 600 200 3 400 1 100 18 11
178. r Neutron Flux No16 Photo 2 Im Rea PC ctor Furnace amp Oontroler SA nid Fig 6 34 3 4 1 lt 3 1 Room temp 0 0 10 100 k 10k 100k Reactor Power W Fig 6 Output linearity 1975 11
179. ton flat om Oo exp 450 GT 9 400 1 Exp No 30 3108 A Es 380 oy 4 e 350 2 A 5 KR 370 o _ gt 5 O 4 wy gt gt oo Test No 3108 A 300 Load 100 oad 100 350 1 2 3 4 5 6 7 1 2 3 4 5 6 Fliow Channel No Flow Channel No 6 EV 5 V 6 10 902 11 2
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