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JNC-TJ4440-2002-001:8.54MB

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17. 5 JNC TJ4440 2002 001 March 2002 Improvemeni for Simulation System for Emergency Release of Radio Active substance Kazuya Miyauchi Yamamoto Youichi Yatake Kazunori Kasuya Abstract The computer code system SIERRA 2 SImulation system for Emergency Release of Radio Active substances 2 was developed in 2000 for an atmospheric dispersion and dose calculation in an emergency at Monju and Fugen sites In this fiscal year the system has bee
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19. RERAMA HAREE AI ARREK F WINDW dat WINDM dat WINDNM dat or WINDNF dat or WINDGWdat WINDGMLdat WINDGNM dat WINDGNF dat or WNSTM ETZARA WNSTNM or WNSTNF or EXWout EXM out EXN out BEIBEFN SESI 2 7 CONC dat CONCO dat DEPO dat DEPO0 dat
20. HERE Ti Rl2 1 SIERRA 2 6 gt INIL TRANP DIFFU DIVIDL KDEM KUDBW REC RECDS uy Yer wg Lagrange MILUCR Vs AXi AZi AXi u At 24 KA 0 5 0 5 AYi sv 024 KA 0 5 0 5 KDE 1 No No At x y z 0 1 2 i zg oz WERS 8q m Ge x y 019 1
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23. WINDUVfor IWINDUV U V PGPV for PGPV GPV WGPV1 for GPV GPV WBOUND PV i A x IWNST1for WNST1 ELUX2 MILUCR CR1 MILUCR WINDAD for WINDAD
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30. A 2 3 G P V ANEMOS 3 O 3 3
31. 1 2 1 5 5 5 DB 5 X DB X 1 7 X DB 5 X
32. E SIERRA2 BACKUP 24 00 24 00 Hz ON 2 B SIERRA2BACKUP 5 2 4 3 4 Ia DLF AN 227 7 YIN ny AROs PNT 9 GB al SE 2 X Windows WindowsNT 5 9
33. _ IF JAHR 6 1 10 10 W 8802222 k HO a wa hm HO BEDERA m son 0K 37 Deyk 77 7 a s il
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40. SSIERRA2 DB EX EE O 5 1 0 HP 3 0 0 D 1 0 5 I 2 yt ty gt yt D Bq h cps
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46. SYSTEM bin WIND_R exe DFSN_R exe WIND_P exe DFSN P exe WIND GPY DFSN GPV DOSE P exe DOSE F exe doc include 08 12 2 1 12 SIERRA 2 8 TAJA
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50. 2 Y tk 5 2 4 1 7 7 EERI RORI 1 Fast ARE No 5 2 4 2 3 7 7 7 7
51. MILUCR MILUCR WIND2D for WIND2D IDPWIND for IDPWIND 00 00 01 gt DATNME 24 00 00 RELA T 2 1 18 DESN_P 2 1 11 GEI_ARGUMENT PASTRCAL INPUT IDE03 OURCE ATNML ERCEL RDDATA IDE NIL IVIDL RECDS STOUT JE CCNST INTVL ATCHK ETMSH EVEL1 RISE EINT EINT2 IFFU El sal E DATNML TCNVLN MSHCHK DATCHK
52. 4 2 2 1 2 1 3 DAT DAT 2 3 5 3 5 3
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54. WIND2D for WIND2D WINDNST PWIND GLOSE DATNML 00 00 01 24 00 00 B HHOKAN 3 IMESET1 for TIMCHK E v ja si N DFSN_R 2 1 9 REALCALC NPUT 1803 ALNPG ATNML ERCEL RDDATA ETCO NIL IVIDL lt lt lt S E E STOUT 2 1 15 CCNST 12 s ETMSH EVELI RISE EINT EINT2 ALNPG IFFU lt s ol 1 t 7
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57. 8 ARRE NMANT F EA OEE ELEL E VELISE Era DUEL CLERI E CERET EDREAL ELEL EJ CERE T Er OUE ELENI 3 77 732 lt LELIT EEN yyyyyyyyy AGASE DSINPT_P dat EXDSCLD dat EXDSCLD0 dat EXDSGRD dat EXDSGRD0 dat EXDSSBMLdat EXDSSBMO dat EXDSC amp G dat EXDSC amp G0 dat EXDSTOT dat EXDSTOT0 dat INDOSE dat INDOSE0 dat e C
58. 3 57 7 88 7 Meor apta MEIS RUE w e RER AE yaaa a P B JANIE 11 8800222298 200 007 00
59. WWD Ut 0 35 43 247 35 44 297 135 58 437 136 00 03 35 44 29 35 45 33 136 007 437 136 02 03 G m 3 G C 3 O A G 8 7 y hs MILUCR
60. 2 CA IE 7 RA 2 ADF SRE 2 AA X 6 2 4 3 ANF z YA z FER 10 po BD BB mF 1815 I 363 AE EHAA x REALO 2 Frk yy AH k lt lt gt RE TR
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64. Vs AXi AYi AZi AXi u At 24 KAD EE 0 5 0 5 AYi y At 24 KA t 0 5 0 5 AZi w Vs At 2KOAt K1At 11 K1At KDE i No No At 2 X Y Z 1 zg Ba m mm h Gwe 019 1 At 2 a y X expl 1 2 9 Y 9 1 RAP PFDEPO 1 27 gy Xexp 1 20 1 AO f Q 64 x y EQiOxi 1 EXP At AZ YAZ Ve 9199 MF 1 901 di A Qi x 9 Bq m 2 2 XiG y2 38BEF 1 m 2z YYoyYoz 1 20 y x X y Y 1 1 2022 2 2 1 2 o z z 2 2zg 2 1 Da f140iO xd 19 Eef9 Eav P
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68. D 57 To 2 E 3 7 Fea PO0O po apm ap BP 07 REALD OK O 5 OK lt lt gt
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71. C m s 5 40 20 71 75 No 76 80 No 65 70 Bq h 1 0 2 3 9 BRR
72. JNC TJ4410 2000 001 2000 3 2 Diehl 8 et al Random Walk Simulation of Gradient Transfer Process Applied to Dispersion of Stack Emission from Coal Fired Power Plant J Appl Meteor 21 69 1982 7 A lt E gt 1 2 2 1 2 2 2 2 1 2 2 2 E 2 3 2 4 2 5 5 1 5 2 5 3 KDE 2 6 3 4 EE 4 1 4 2 4 3 O 4 3 1 PC 4 3 EREIN D 5 5 1 5 2 1 2 3 4 5 6 2 7 2 8 5 3 6 6 1 U FISA 6 2 6 3 GPY 6 4 6 5 7 8
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75. 2 1 0 1 0 1 0 0 30 4 ANFAS REMS 37 mms BU 213 gt ARNAT JJK 6 4 5 5
76. ERY 1 7 Sv Bq ERY 1 7 7d ICRP1990 5000 10000 5 120 30 1 5 0 0 2 3 8 2 3 3 G P V OR 27 gt 1 a
77. 5 cps Bq h cps Ba h 2 6 1 5 6 1 14 13 5 x 0 RY k
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79. 6 SIERRA 2 MILUCR 3 2 1 SIERRA 2 2 3 9 O KDE Kernel Density Estimator KDE O
80. ELUX2 MILUCR CR1 MILUCR INDAD Xu ATARA ND2D WINDNSTor WINDNST PWIND for CLOSE_G forlFCLOSEG j 00 00 01 ON 24 00 00 ATCHKfor IDATCHK HOKAN for gt HOKAN for WWIND for_ IPWWIND TRCNV for_ STRCNV TIMESET1 for TIMESETI ITIMESET2 for i IWRBLK WINDO1NRfor IWGPV1 for WINDNLfor WEIT3DTor WBOUND for WNST1 for ELUX2 for CR1 for WINDAD for WIND2D for 2 S J D lil hy x 8 DFSN_G GET_ARGUMENT GPVPRCAL TCNVLN MSHCHK RECDS DATNML DATCHK RSTOUT 2 1 13 GPV 2 1 23 2 1 9 GPV FSN_Gfor IDFSNG IDFSN_G
81. 5000 10000 s 120 30 1 5 0 0 0 2 3 12 2 3 4 OR 2 D a O 10 10 d
82. 18 1 5 3 11 9 i marn AFMR pu FA OCA A 7739 BRERA hon s DARME OONA AUGS T TARIMA DONIN RABE TIARAS O ESY OKE 57 1 m xxx Bn m 1
83. 22 6 29 GPV 2 4 100 X 2 2 BIR L GPV 2 1 2 X GPV 2 1 ME 2 1
84. yt t ria 2 7 7 12 7 3 7 0
85. 2 5 3 4 5 1 100 10 A 5 3 12 Bq h cps cps 2 1 A 6 1 13 14
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87. YYYYMMDDhh00 77 7 1 EXN out EI 2 CONC dat EOS CONCO dat DEPO dat DEPO0 dat ADSCLD dat 2 gt gt ADSGLD0 dat 2 ADSTOT dat ADSTOTO dat RATIONIdat RATIONIO dat RNUCINF dat PTCUNF dat YYYYMMDDhh00 saaaa aaaaa ACASE amp 1 2 1 12 SIERRA 2
88. 7 AF 3 and 7 7 W 7 r 7 7 7 7 2 77 9 9 6 ADSMT dat 2 9 1 4 4 7
89. lieWgpoMWDMW v v 9 DOS VY 2 WindowsNTMicrosoftOffice2000 wh SVisualStudio6 0Enterprise CT VB 24 ELORA270SX CPU Pentium 366MHz 3 7 128MB 1 Microsoft Word 2000 Sua Visual 6 0Foriran Fortram 3 HDD 4 8GB 14 ITFT 1024X768 2 Microsoft Excel 2000 NS 0ffice2000 AMeDAS GPV BE 2 1 2 2 1 7 GUI
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91. bd F BAP Ok veh 6 2 2 1 SSO AJ798858 1Z ______ F 3 27 JF J JF 2 2 2
92. 1 gt ei 2 LE 1 Mp 223E 02 120 MMS A OO ETSE MP 1 6 MP 2 108 MS 1 r a BU 21k 2 1 2 REK
93. ARRA 7 50 son 2 0K gt 56 37 F i ET GP YY 3 OK Ove 8 gt GEE C Y Mev photon 68729601 Mev dis ms gt BOOEO5 y Gilma E gt 7788 gt
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95. RNUCINF dat 77 3 DNUCINP dat 3 2 5 7 0V 927 7 5 7 4 ntX 77 7 tX
96. 6 97 797 gt SIERRA2 SIERRA2 ELET 5 5 1 1 1 xil ae o u 0 Windows Windows 1 0 gt DDIR 5 Y 1
97. YR 5 gt 7 LENA 5 3 2 1 1 5 0
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102. _ 29 30 3 32 33 35 37 38 39 40 41 1 2 2 1 2 1 1 2 1 1 2 1
103. EANN COKER FEKA KDEWfor KDEW KDEM for x 8 KDEN for KDEN COKDESSIS5S RAR SRL gt 2 REG P for ECDS_P for GCNVY for GCNVY 0 1 WIND_G GET_ARGUMENT WINDO1WR WGPV1 WINDNI WINDO1MRT WNST1 wiNDO1NRT WNST1 WINDAD WIND2D DPWIND 2 1 12 GPV 2 1 21 2 1 8 G P WIND_G for GPV
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105. cps Bq h 2 cps Bq h 6 2 16 14 I MWD Ut OK b OK 77
106. Hx 5 TA 27y CE 252 0079720 9 SSIERRA2EFUQENVREALO ERRE SIERRA2 MONJU REALO 1200003211200 200003211200 j 200003211300 W 200003211300 M INPTO001 INP T0001 BR z Hik STA i HEIE r NAT YSIERPAPXF GEMERESLO FSIERRSPSyMONJUEREA LO 200005211220 211510 24 00 24 00 YYYMMDDhh00 INPTnnnn DAT 0N DAT 2 y
107. 0K yy 2 0 1 2 3 4 0 20 0S 8 Windows
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109. 1 77 JOL AEE 2 gt 7 2 9 20 9 20 2 3 7 10 10 10
110. GEHRY p 424 2MeV ICRP Pub 51 7 0X103 Sv R Ka 0 8 Sv Gy K 4 K 0 8 Sv Gy f 7 0X103 Sv R 51 9 28 3 27 9 p 357 1998 amp 5 2 5 4 1 R Kocher D C Dose Rate Conversion Factors for External Exposure to Photons and Electrons Health Physics 45 665 686 2 4 SIERRA 2 Dag Deng K 106 Dae 7 nGy h 7 mSv h K A 4 Sv G
111. PC Windows SIBRRA2 4 4 1 1 4 2 gt 27A 2 R ux pa ne 1
112. Sv Gy 7 Sv y Bo cm2 Sy Bq c Sv Bq Sv Bq ET Airways ERA 9 AZE 7 1 ICRP1990
113. JF JAER 5 2 1 2 5 2 2 2 2000702 24 11 26 14 TEJ A SLE 2000 02 24 11 26 14 lt BA AABE 3 4 D FUGEN RECALO CASE9 2090 02 24 11 26 14 38527 3 y FUQENWRECALCWCASE8 2000 02 24 11 26 14 BETEREN 31 M FUGEN RECALC CASE7 2000 02 24 11 26 14 3 5 FUGENWRECALCYCASEG 2000 02 24 11 26 14 FUQENWRECALCWCASES 2000 02 24 11 26 14 25 382 FUQEN RECALO CASE4 2000 02 24 11 25 14 x 3 p FUGEN RECALC CASE3 2000 02 24 11
114. 1 7 7 0 1 5 0 6 WindowsNT0S 5 5 9 9 1 9 1 6 6 9 1 1 4 1
115. 7 7 9 5 _ us memar sans Q enara gt 2 RRF 3 27 3 y 5 JEDY 6 2 7 6 e 95 44 29 35 45 33 36 mh p 136 00 49 136 02 03 tm 50 RITE 50 AR y
116. 7 km 6 5 km 9 EARNE RONY A ERARA 08 EGES E G OK MM J or Jor 7 a BRE 2 OMBRERRTEE p 998 7 1 05 4
117. 2 4 0 2 2 1 2 1 2 13 2 2 1 0 2 2 1 3 or C m s 5 40 20 Bq cm cps m h
118. HAPE 55 P sp mp ga mwera Paf a en ea T D RPR ODHED 2 Water prasta O wa Fo Jet mj ayj o 4 Dti 12 neng FEJ BB r NAAT BAFZESS G 5 ESNEOIHRHHR gam C EE ER Mit c ARTON 5 CO ek j aj 5 CAD ADE E 7 F THLE IGE THER TIPALA Dive eat 0 spano RE 15 10 11 ADELAAR OSOE r AYAKA by 1 _ RE Ae TRE PTET AMAR Gente SV Dnd RHR RAT gt P OMAA MIKA 0 BAANG Ok x j EIM
119. RDDATA Pfor E a IPRISEfor PRISE 2 1 INIL for INIL TRANP for TRANP IFFU for IVIDLfor GREF for
120. KERTEM NEREK SIBRRA 2 Simulation system for Emergency Release of Radio Active substance 2 SIERRA 2 1 1CRP1990 2 2 0 5 5 1 100 3
121. Meas jamia O O Mewdis ESRR 7 maae Meas BAR C 5 1i 5 jma j 1 5 EEEE abk o ms 9 005 O EEA Rae m s TO o 1 s a 8 0B 5 D 0 6 a 0 0 bz0 0 em m s m s kg m kg m kg m kg m kg m 30 5 R 4 mm gm ms ms kgm kgm kgm kam kam A O F B O J EE C o D ZEEE o F E G o J EA m _ 3 j ri O ss O d yr2 ss 2 _ 2 O 07 1 P A
122. xx 00 i GPV GPV GPV or Ram AME 130m AIME 152 8 or
123. 7 y 7 7 7 7 7 7 HH ET Airways CAR CONTOUR EI 2 2 6 2 3 2 3 1 0
124. SIERRA 2 k 2 1 2 1 SI ERRA 2 2 2 5 a 10 mSvy h nGy h Bq m3 b 1
125. D 5 Di Hroma 89 6 2 10 9 Q 0100 2 236 230 aol 1 000 4 600 4 600 4 600 850 000 850 000 850 000 OSO s zm 0250 0 5 0 050 L RHEE oE Ioe 10E7 BRaT 200 25 20 1 OK yy E P ss 0 gt 0 57 51 7 2
126. D A a A A gt gt gt TEREN AEE A A E LVA NEO 7 REN s 7 9 gt gt gt SS 7 u Gss T E C CTC C GS i D a7 7 1 zar F 5 gt JF JAER F SURE FERTA FREER yE JEER OO 78 2 9 RMF 1 5 e AAt
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129. 3 EVEL1 DiE 2 TRANP for RANP 1 DIFFU for DIFFU DIVIDLfor DIVIDL GREF for GREF KDEW for 7 KDE CIDE03 2 6 8 ajg T 9 NOCNST gt DATCHK for 8 615 amp EE 20 gt MSHCHK for BL for EVEL1 for RISE for CIDE for EINT for F m 3 8 i C
130. AG 8 7 2 n hs MILUCR A G 2 3 6 O 2 4 7 abb D 1 7 Mew dis 2 7 GUAE 3 MEER G 4M 4 E 74 7 74 1 Tah 0 003 0 1 3 s ADRAR x mm h 7 Z 74 GTa ab t O
131. 1 10 10 300 10 m3 h Bq cm3 cps Bqh 1 10 F 2 3 5 a 35 43 247 35 44 297 135 58 437 136 00 03 35 44 297 35 45 33 136 00 437 136 02 037 m m 3 C 3
132. O F 11 FERTH yaaa 1300222238 l 200 ap KPAG m NO SEDANE m Oe trt KIR gt Q ERAT 18 6 2 13
133. a Gik m m p 3 M C O 3 AG a 2 ht O MLUCR A G 9 C s 5 40 20 No 717 15 No
134. cm3 m3 Pre RTRATE_N NC NT RTRATE_S NC NT RTRATE SC NT 10 2 0 RTRATE_N NC NT NT NC Bq h NT 52 1 E TESGISEESTEY SAGL AGTA s 50 2 P 2 J 2 j 2 km 80 TL 5 1500 1500 1 iooo tooo 4 xXyXz 40x40x15 50x80x20 40x40x20 40x40x20 5 65X65X16 81x81x21 41x41x21 41X41X2 eja 1250 1250 250 50 5 Mss 1250 1 0 0 al atwa 100 50 5 gt so sr s se ser ser ao zar so 3s 47 aa ss 44 297 5 45 33 7 1 15 1 L ji PI ge 135 32 67 135 32 57 135 32 577 135 32 57 19 35 22 35 22 ENED 25 125 32 3865 4165 31 km 5 125 255 3815 4045 22 85 55 22 j
135. 2 3 13 2 3 5 OR gt 0 a b 10 GPV d GPV GPV
136. 2 1 DFSN P DFSN_ P GET_ARGUMEN ASTRCAL for 51 7 9 88 2 PASTRCAL 8 INPUT GRAND DPMAP pa RER Y KDE 9 a 59 Z T 6 m Z gt jS gt jz TS S SOURCE for SOURCE 625 7 for NPG
137. 3 2 2 SIERRA 2 1 1 CRP1990 A 2 5 4 6 2 5 4 2 2
138. MILUCR A G 4 2 2 1 5 5 Sv Gy 7 SR Sv y 8q cm2 Sv Bq Sv Ba 13 0 6 5000 10000 5 120 30 7 5 m 0 m 0 2 2 3 2 2 1 5 2 4 FAR B Q 1 Mev photon 1 8
139. s MSHCHK DATCHK 2 1 5 FSN_R EALCALC FSN Rfor EALCALC for RAND for lol laje 2 21 5 gt gt S 8 9 DPMAP 285 22 TR SE 3 2 oana ETUSEOEESTESRTSES EISESEFSETSNPOET ATNML ATCHK ERCEL RDDATA METCO METMSH MSHCHK L
140. 0Y 927 30 3 0 5 2 4 4 5 2 5 7 BJ 5 2 6 I 7 AZ SIERRA Ver2 00 for indows95 NT4 0 000 Hitachi Engineering Co Ltd 11 Rights 2 ELIPSI p OK 2 AZ TSIERRAS2 SIERRA 2 Version2 0 0 February 18 2002 m 5 2 1
141. ADSCLD dst _ ADSGCLD0dat ADSTOT dat ADSTOTO dat 7 80 RATIONLdat RATIONIO dat RNUCINF dat PTCLINF dat YYYYMMDDhhmn 66 12 2 1 12 SIERRA 2 7112 8 r GPVCAL yyyyyyyyy ACASE
142. GPV GP V GPV FBR KDE KDE KDE G P V SER 4 JU FD BUOSEFN BTS EER 7 J 7 J ORR NCCREAT dat KDE
143. SWR 22 WIE 2 40 lyyyy hh dd hh m 277 41 yyyy hh dd hh 00 7 AF 42 7 44 7 B 7 7 AF 7 74M RAF 7 45
144. js ooo o o C _ 50 GPY zer D h 0 08 E oo l 2 3 O pu C L ARER 2 FREE j Sv y Bg cm7 4 S a swBq 2 2 35 2 2 2 J0 PRE RA mya o ma JO AU bo mame s A 1 5 ju a 136 or 2 4 2 ia e 135 4 44 5 5 2 d AEX ERODE 7 Sv Gy 1CRP1990 ISv Bq cm7 CRP1990
145. 1 0 Delete 1 2 1 2 2 0 anen 4 gt Y N 4 gt Hross KA NN wees ATGE G 9081900 m 432 m s 865 m s NNE E 038 km w a s S gt gt diarena wanna AN 4 NN w
146. HEME EAR OSONT IDNR AEE ERE OLY Gy Bq cm27 2 L S L W42E7 amp A Sv y Bg cm3 1 K 236603 115E 04 5 0137 RA239 460E 09 58OENW5 a E sess AAE 1 Be OOE BO Sv Ba 46E 08 130 03 320E 08 130E 03 OKIE TEn an E s Sua s 7 s TSAR 7
147. ee UDE EEE 102 03 osf 1 02 03 TE WE 2 50 01 T 602 01 2 20 07 4 506 01 1 108 07 3 30 07 2 202204 20E3 80E 08 4292 09 ETOO E08 1 255081 EOT EAEE H 1 8980 kekeeke m A 0 51 3 55E 04 9 mms s 16 09 E 0 001 Gal 1 00 8800 _ 8 6 23 64 SE10 I 1 162 01 1 15 04 5 00 05 5 00 05 J U29041 sJ jeool 0 5 8SE 0S 1 S95 il 119 1 ___1 502 01 E ass 0 06Efo 0 092100 0 002100 03 36E 1 2 6 1 2km 20km 80km 50km 3 1500m 1000m
148. 7 J e E O 15 oss 8 ADF ERE GiQ 00 m 2900 2300 100 0200 n2mi En EE a Over J xl SE MLUCR WEEE PEREN SDJEM OK WI 2
149. FE 9 1 3 3 7 38 10 E Y XL 10 1 5 999 Delete 39 Y
150. or GPY EROA xx 00 ON YB BET 10 1 x xx xx 00 KROA
151. De AREER p ps CE ses BEF zt ORIRE ICHU k 32 BAR 10 BRIERET TOSINA TCR TTA T Em BE E Imm h eap 1 z 10 el _ Oj py z Z wh ERREF A 1 ey aa a Qu d cps 6 1 13 2 OK gt ss s uN SRB SIERRA2 DBEX
152. Diristexe AT GPV U EE 2 22 S EE Ef 2 22 EE 2 C tx x S s lt S 7 7717 GP V RealOjni SIERRA2 ini GUI Socketimi DB CaseDB f dat CaseDB_m dat CoreDB dat Default fdat Default OutputDB dat 175880277 SESE F OutputDB dat
153. KAPRE 7 7 PRR RANET EMRE ET Airways CAR KESSON DPWIND 2 1 8 2 1 13 32 1 4 RERE 5 INPUTor INPUT 1
154. Ve x 52 5 65 so 43 75 40 75 38 75 2 3 km 41 75 9 S F 10 4 1 2 3 4 5 ICRP1990 2 0 5 5 1 100
155. l lQ NDSIODdt DNUCINFdat IN ll 5 FDSCAL e yyy yyyyy ACASE CAUNFdat EXDSCLD dat EXDSCLD0 dat EXDSGRD dat EXDSGRD0 dat EXDSSBM dat EXDSSBM0 dat EXDSC amp G dat EXDSC amp GO dat EXDSTOT dat EXDSTOT0 dat INDOSE_dat INDOSEQ dat D EA OUEL ELETA EF FELTA lt lt S 54235 E 979 732 1 83 F EIA OUEL ERELTI E 2 gt 2 amp ETETEA OEE EEEL ET 259 F T EEE r 8 ETA OUEL ELETE E 2 amp 1 7 7 ax 1 2 FE A lt n A HAE ARRS AI HERNEN 8 2 2 GPY 2
156. 1 s 4 m s ABRAR AN F TAN F TA 7 0 003 jt W 9 F bhin 1 s a mh BEER F 74 a b b 0 0 a 8 0B 5 7 7400850 b 0 6 ADIAR 5 BEERS 1 D D ADRAR Gar 7 1 1 D Gak F 744b 100 0 100 100 umh Fam F 0 AJG832 74 Fa F 1 0 1 0 1 8 Gv Gy 4 0 8 gt Sv y Bq cm
157. 10 10 1 RESET 1 RESET 2 RESET RESET
158. 00 OK 27 27 Desh 57 BEIT 6 3 13 12 e C Sait Dt ok D 57 OKR 3 X IN 2
159. 7 gt Sv y Bq cm ICRP1990 j i _ ICRP1990 hya ICRP1990 Sv Bq RA Sv Bq ICRP1990 swBq ICRP1990 SwBq CRP1990 T sy Bg ICRP1990 ICRP1990 CRP1990 ICRP1 990 Sv Bq QCRP1990 CAR Sv Bq QCRP1990 sv Bq CRP1990 FRE 1 GPY 7 2 2 4 3 2 4 2 7 7 Mev photon 1 2 2 24E 03 3 1i 57E 01 1 65B 01 7 92E
160. C mms 1300 m 0 16 10016 mSv E 966E 15 100E 16 5006 17 m8v SE BE 009 m am 1 SSE 28 00OEOO le b e ee 8008000 2 FII k 27 gt 1 7 gt y 2bu JW
161. gt AFOS 32 senma e a bz ktam IDET 4 al af E OSETE UNAEELT FA 7 ESRA eee c Bq N aaea u 9 mw EEA eee Qu 0 TEREI cps 6 2 15 0K 5 K s ERELT rn 1 0
162. umh 0 gt Ikg m8 ee gt ka m8 gt OK Oves 7 aS S 77 3 7 2 lt 5 2 TB E L 35 9
163. 15 10 or AME 130m 152 8m C m s 5 40 20 4 71 75 No 76 80 No 65 70 Bi cps F AME F 748 Bq cWP cps 0 00962 0 0121 h 540000 707000 C
164. 2 7 7 SIERRA2 exe SIERRA2 ini SIERRA2 exe 7 SIERRA2 ini 3 X DB X 9 2 keras 7 ff 7 X 4 SIBRRA2 ini TCP Timeout SIERRA2 exe 9 5 6
165. INT TBL 2 1 2 e lump_2 for DUMP_2_MAIN 2 1 28 6 1 6 2 1 12 SIERRA 2 8 __ lt AT GP V GPV Amedas bat CheckTime bat CheckTime exe
166. Windows Windows Windows 4 3 2 FP C 4 3 1 PC E P C PC PC PC PC PC 37 27 770 149 PC PC ON PC ON 192 PC PC Windows OFF 1 4
167. 1 SS D IREA OREH h 1 2 3 5 oen AR EM _ WA ARBO LHE LU Car 50 Oe D 2 OKR toy 57 D K 3 x Dever 6 1 6 6 SANIT m s bk b 49 Hi
168. 8 0 5 7 7335 D b 0 6 ah 5 Car yk D 1 C ED 2 2 D D AJG 32 G7 100 100 100 100 BEERS O Fk t 0 O ARAR LD 10 Cak F740 F PJ 1 9 F 1 3 4 Sv Gy F RIMES 0 8 7 Sv y Bq cm Sv Bq
169. Sv y Sv Bq FERD ORAR ERREZE ESY V T Sv Bq ERY I T PRE ICRP1990 2 3 14 2 4 SIERRA 2 2 4 1 2 4 2 2 4 1 2 4 1 _ 36 Or 0 Dki Pe 50 HNC 2 m o x 185 5
170. mmh 10 1 10 10 7 D 1 10 10 300 cps 10 Gn3h Bo cm8 cps Bqh NNE NQ6 10 G 7406 N wsec 10 mmh 10 10 10 7 D 1 10 F 2 2 3 2 No Q 7 Mev dis 2 Mew photon Cnm FD 3
171. PFCONC dat PFDOSEN dat DEFAULT REALO 18 173 2 1 12 SIERRA 2 5 SIERRA RECALC FPWDWEIT P dat PMDWEIT P dat PNMWEIT P dat PNFWEIT P dat WWDWEIT_P dat JV WMDWEIT WNMWEIT P dat WNFWEIT P dat dat E J WTINPT Rdat
172. Wiwa JNC TJ4440 2002 001 7 AO 2002 3 319 1194 4 4 9 Inquires about copyright and reproduction should be addressed to Technical Cooperation Section Technology Management Division Japan Nuclear Cycle Development Institute 4 49 Muramatu Naka gun Ibaraki 319 1194 Japan Japan Nuclear Cycle Development Institute 2002 JNC TJ4440 2002 001 2002 3 MaA SIERRA 2 1
173. p 2 2000 03 21 1320 KTE ERRUER OE y R nwa x ARRU AIR x 1039Er09 Bq Wisa RRE nGy h 464E 1 SE FE Af 009 km 0 00E 00 10 15 ERRIRE OS y 8 1050235 iO GERED gt ENE 098 000E00 2 BIR SSE Km 1 0 5 2 1 2
174. 12 gt EBREO ka EZE sa ok Orve OK gt 2 AN 2 6 2 14 13 CANTARE x Bq cm3 cps m3 540000 0 s STADT E UA Remen Bq P Boende APTF PORTR Bk nemen gt
175. P KRAT 1 C DeD BEE Hii C f icps AHRR 0 FAH IIRO 0 FHAN OK 57 REE 27 o Ps 2 7
176. 2 3 2 ii JIk 37 6 1 4 4 E AP p 95 144220 351459993 5 2 136F20022494b 136F2022203FpO SB TEELT Fat vw HURI BB m 50 1 4 16 135 42 55 SIAC SAU9 l OK OO yy OKR 37 Jo 57 URNS ATR FBR
177. ASYNC 4 3 1 4 3 2 4 _ 17757 5 SISI leo to 5 GPV ETH m Fai FARIATZ i DNS zl wanqa gt 0 gt a TESARI PT m 4217 59 09 1221 5 5 CE o HETO JNO TOPAY w 3 4 3 2
178. CETA CLEARfor CCLEAR WIND WG for PV s J D o u i 2 m zizo ne s G m G NPUT_Gfor INPUT G OPEN_Gfor IFOPEN_G PMAP_for PMAP ITOPO0 for PWET1 for IDPWET1 PGPV for PGPV GPV WIND01WR for WIND01WR WINDO1MR for WINDOINR IWGPV1 GPV WINDNI GPV WEIT3D WBOUND GPV
179. D 80kmX80km 1500 1 50kmX50km X1500m 2 1250mX1250mX100m 2 20kmX20kmX 1000m 250mX 250mX 50m 3 00 2kmX 2kmX 1000m 97218 50mX 50mX 50m 4 2kmX 2kmX 1000m 50mX 50mX 50 2 AHA Xe 133 Xe 131 Kr 85 1 3 1 5 OHTA 10 000 2 6 Rul03 EU 34 06 35 __ JRN106 Dy YA 36 IAglll 8 37 Cd115 JAF 39A mi 38 ISml28 39 11125 40 150125 PAE 4j NHSb127 42 ITel27m 0 43 ITel27 44 ITel29m 45 2 2 129 46 Te132 47 Cs136 48 Cs137 49 _ 140 A 50 Lal40 51 Cel4l 52 Pr143 71 53 144 54 Pri44 55 Nd147 56 Pml47 25 F P Rb86 h 51 151 FWA
180. 1 6 8 1 0 1 5 3 6 4 7 3 BEOR 0 sn Bq DORPE EDE 20022501 91581291955 20002 03 9219113150075 2000 03 21 18 20 PERENE _ u gt GPS S FEE 0 SE ENE SSE TESE 009 km FEBE 098 km BESI 218 km BRDBICESRQAW0E 18 58 ENE 1 SSE ET 009 km 098 km 218 km 5 7E 13 mSv 0 0E 00 mSv 2 l Ra i 802 1 37
181. 500km 41 S ee yy 0K 2 ATR FBR Ua pu sas r o eo ss 1 6 2 8 7 ARMA AREEN 1819 2 Bom j vl AREER s nn s C 60 O OK Ores tH 3 s saus
182. ER PTE P N gt 2 m Gaw rt gt T C UA iD gt 2 A ee 3 10 Pur aF Fn aE CHRI SIAME n mesai 30 gt 42480 3480 5 zj 6137 gt Pu239 zj FE lt lt i gt
183. 0 27 o y expl 1 2 c y 9 1 PFDEPO 1 27 Xexp 1 20 y 5 1 64 ZQi xi 1 EXP VeQA1 A2 AZ Qi 1 Ba 9019 d A Qi FEARR Ba m xPO 2 2 1 W xi xy z 1 m toytoz _ 1 HRANA 2 2 Xexp 1 2 4 y Y FIX exp 1 202 2 2 1 2 gz z 2 2zg 1 Da gt 1401 xd 109 Eef 9 Eav 9 PFDS xd 19 xi X y 27 4mrdx dy dz tu v w a u u ta v v ew V Y t dxdydz 3 min u u 19A79z 2e9 v w 2 A y e D w 2 A 2 el S ak BERF AZi w Vs At 2K0AH K1At 9 KIAL AEI A pre AO 7
184. 5 7336 G Tah 4 7 1 5 7 71 0 0 0 003 740 5 1 s a x mm h 91 74 a b lt KAZ 8 0E 5 7 8 9 74 729 7 0 2 0 0 F 0 10 kg m Fa REBER 1 0 lt 7 74 t 1 0 b 1 0 1 0 11 kg m ARA G 3 REBER F 1 3 1 3 F 1 3 1 3 2 2 4 2 2 1 6 0 XAH
185. 76 80 No 65 70 Bah cps FME F Bq cm cps 0 00962 0 0121 m h 540000 107000 C 1 0 1 0 2 3 1 Ba h 1 0 1 0 HAERE WD Ut HAREE MUD 10 300 2 Bah 10 NNE NQ6 10 N ysec 10
186. RIE 7 A in 600O mof 000 100O 100O 1 0 m i 0200 02 02 FEEBLE RA ht 1 I ER B aa 0200 e 0200 E 0250 s s 0500 0800 CARSEG ojo il MLUSR TEsRSPEjISo s O 20 C7n OK OW 27 RE 0 2 3 32 3 6 3 11 10 2 22222 TERASE EARRA Sv Bq 0137 PQRS9N ames sms f 40E 09 40 RA Sv Bq EDESA m3 d BA 22 h 872 86 OK J
187. 0 8 1 5 9 5 1 5 1 2 1 7 2 1 8 2 1 9 2 1 10 2 1 11 2 1 12 2 1 18 GP V 2 1 14 2 1 15 FORTR AN 2 1 4 2 1 5 2 1 6 2 1 7 2 1 8 2 1 9 GP V 2 1 10 2 1 11
188. 24 X105 R Dima k 2 42 V T n 1 2 3 mSv h n O 52 5 8 1 24 X103 Svy d Sv 1 OFRE m3 d x Bq m f Kocher 1983 2 5 4 2 2 5 4 2 9 7 7676 m B ICRP 2 5 4 1 4 4 SIERRA 2 D ogn n 1 24 X103 Ra Domn n 1 2 3 mSv h 1 24 X10 mSv d Sy h FRS 00 7 n 534 9 Sv Ba 7 n m3 d x Bq m ET Airways
189. 3 2 2 1 2 2 1 1 1 3 GP V 2 10 3
190. 4 gt 2 6 m D m gt m gt CLEAR WP Pfor OPEN_Pfor FOPENP _ PMAP for 2189 en S 512 56 el el OP00 for U V GPV WIND01NRforIWINDO1NR GPV GPV CaPV
191. 9 cn cn cn cn cm PS eo Do 10 5 4 A 2 Nn OO po po Do po DD 4 nn cn cn cn 1 rs Co D 1 1 0 1 1 1 l l ko t to 1 1 1 1 A PP TTP PS Fs en 1 A 2 1 3 1 2 3 KOLT OPERE 7 70 7 5 7 8 G P V 9 07 kya
192. ck Y r DIAR ISv Gy yi BARE Sv y Bo cm2 C oe SEKENE IY Sv 4 Ba cn0 Ce GS8A Ca 236KG3 136E 68 PERAE E ER ISy Bqi J a 0137 9 BAA FRAZ 1 440E 09 600 LAR Bao B00EW sl a 7 AE m3 d BRA 222 i 286 ON OK 27 0K 3 27 TE
193. i6 1 0 l gt 2 5 gt F ARER EEF JF JEEE gt S oa z JF JAER 2 19 OK gg 2 2
194. n 5 m 1 2 3 4 1 0En 5 0E n 1 1 08 1 5 0E n 2 1 0E n 2 6 m 5 6 7 8 9 5 0En 1 0Bn 5 0E n 1 1 0B G 1 5 0E n 2 5 OutputDB dat OutputDB dat 1 0 OutputDB dat OutputDB dat VE EnS nm s s 5 5 3 12 188 2
195. 0 a c G P V GPYV ANEMOS d mSv MSY e mSv mnSv GP
196. 00 02 24 11 26 14 BEF tax 88 FUQENYREOALOYOASEB 2000 02 24 11 26 14 FUQENVRECALCYCASE7 2000 02 24 11 26 14 4 30018 FUQENwREOALOWOASEG 2000 02 24 11 26 14 3 3 FUQENVRECALCOVCASES 2000 02 24 11 26 14 lt FUGENWRECALCYGASE4 2000 02 24 11 26154 4 x FUGEN RECALO CASES 2000 02 24 11 26 14 MET 3838 it AAH FUQENYREOALCYCASE2 2000 02 24 11 26 14 FUGENWRECALCYOASE1 GUI 1 CASE10 BRES 50
197. 01 _6 8 6 74E 07 2 01E 02 3 12B 021 9 10 3 66E 06 416E 02 __5 568 02 4 32E 01 15 16 2 47E 02 3 81E 01 3 6iB 01 18 7 62B 01 19 20 21 22 23 0 0 0 9 26 0 28 29 2 08E 01 5 94E 01 33 2 08E 01 5 94E 0O1 2 68E 02 3 14E 01 3 55E 01 2 83E 01 36 6 85E 03 38 39 2 086 06 6 64E 01 5 59B 01l 40 7 36E 08 2 47B 02 4 87E 08 3 55E 01 1 6 61E 01 i 50 52 53 55 56 L58 59 601 61 62 2 5 2 5 1 2 5 4 1 2 5 1 2 u v i j gt u v k Wk Wk u v 1 j jj u y k k Wk Wk WH WY h WT hb h hb max
198. 2 2 1 3 2 1 2 9 1 2 1 3 2 1 4 GPYV 2 1 5 GPY 4 2 1 6
199. 23 km s 55 214 2 T 2 j 124 45 x 45 ANEMOS Mellor Yamada GPV 20km 2 5 I r REFE AMeDAS RERNA KDE HAEE ZARR GPY a MILUCR 1250m 2500F SP ICRP1990
200. 26 14 lt FUQEN RECALO CASE2 2000 02 24 11 26 14 lt 3 3 21 FUGEN RECALC CASE1 FUGEN REOALCYCASE1O GU 1
201. 3 00 2000 03 21 13 20 a a en 5 HU 212 gt 3y JY 2 GPY 1 2 3
202. 8 KEAT TEETE AERE Ba gt C EEE RE Hii cps BREOREE FHAN K onr 9 gt gt gt OK T i lt lt gt 5 2 2 E
203. 9 58 Eu155 HE D 59 Bul56 60 H3 61 Mn54 gt 30 1195 PRESS 62 Co60 IN 17 63 Pu239 64 C14 65 66 67 68 69 70 1 12 3 73 3 74 3 15 76 1 77 78 3 0 100V 10 60 1 Hz B 2 Hh D 2 1 0 3 5 0 40 E 2 0 8 0 1 0 9 0 2 7 10
204. 9 26 JNC m O JNC Bo e o 1 m 5000 79 2 m jo kasi mzee O ID j Aas mee Pp Aass meee ms 0 O O j o G2 O _ ____ mh 540000 707000 _ o S T toi Bh 1028 INNEN EDIN I I I q 1025151 Gaw PO Bes jami MwD Ut 000 o j y MWp ut __ Es 7 7 gt BHR Mev photon Mew photon Mev photon FAR T Mewphoton
205. ERAR REE OFRAR PRZ lt D IF 2 6 4 6 6 MARI Sv Gy PERENA KrB5m _ 08 L Kr87 OB8l 0 8 KO _ o OK 2 0K 37 6 4 7 7 o IO 57
206. ERS F 1 0 10 LO 1 0 G 72 F Fa F 1 3 1 3 1 3 2 3 11 9 Sv Gy 7 0 8 7 Sv y Ba cm9 Sv Bo Sv Bq m d ICRP1990
207. FOS diO KigaEavO xi w y 2 4mrdxdydz 2 5 4 2 5 1 2 5 4 2 5 4 1 1 97 2 5 4 1 1 4 SIERRA 2 7 Dr 201 yd i Bef Bav x 1 u aEav exp ur B E xda iO x xi 2 4 dx dy dz 7 7 PFDS D f D D nGy h f 8 7 nGy R D R h RE Da f 10 f f K 103 Den mSv h f Sv R f 8 7 nGy R K 234 9 Sv Gy 107 mSvy Sv u R nR D u R h
208. I EAN AIMEE MAEI I7 PAAR Rr Bafe wx _ 6 or fh 1 xl 286 5 gt gt gt Eh 5 gt gt gt CE 7 bN mamas sopa EEF AIF 1 lt PIATEK JF 2 s pe nr par s HDE k 2 1 BEJA
209. IDE XEINT INIL for INIL KDEM for KDEM 3i KDE KDEN for Ez CKNG A B Y 0 lt 1 gt WIND P ARGUMENT WINDOI MRH WNSTI WINDAD WIND2D DPWIND 2 1 10 2 1 17 2 1 6 P IWINDP NT T
210. JF y RT SE 0 AT a mis nae sai E X REALO 1 OK eg 97 t no 7 REALO 3 mM 9 1 memar emng nenge _ MF RRF JIR
211. WINDGNM dat or WINDGNF dat or WNSTM I WNSTNM or WNDTNF or EXWout EESHA EREN 71 JU GERO LI EXM out EP 3138253122 7 06 172 2 1 12 SIERRA 2 8 27458 SiERRA2 EXN out GONGC dat CONC0 dat DEPO dst DEPO0 dat ADSCLD dat ADSCLD0 dat 30 hay sU IK EE 2 gt gt F 89 ADSTOT dat 7 ED ADSTOT0 dat RATIONLdat RATIONiO dat FRNUCINF dat PTCUNF dat
212. f f rM Asaqa f 64 N 7 05 1 0 BRT OR gt 9 810 7 5 0 kmX 5 0 80 7 km 6 5 km EDERIM OERE OK HHA
213. n improved to have new features such as operation modes 1 Renewal of dose conversion coefficients Conversion coefficients for calculation of internal dose by inhalation were renewed base on the 1990 Recommendations of ICRP 2 Operation modes On the normai mode contour lines are drawn for values varying with the maximum value which change in time On the other hand on the training and emergency modes contour lines are drawn for fixed values 3 Modification of real time calculation input on the training mode In the real time calculation on the training mode we can set radioactivity release rates and meteorological data the direction and the velocity of the wind of the wind precipitation atmospheric stability at every 10 minutes The radioactivity release rates are displayed graphically as a function of time 4 Modification of past recalculation input In the past recalculation we can set radioactivity release rates at every 10 minutes The radioactivity release rates are displayed graphically as a function of time 5 Modification of the map In the map on which calculation results are displayed indistinct characters were erased and important place names were added This work performed by Hitachi Ltd under contract with Japan Nuclear Cycle Development Institute INC Liaison Tatsuo Nozaki Environmental Monitoring Section Planning Division Tsuruga Head Office Nuclear Systems Division Hitachi Lid
214. raumenter SELARGUMENT ain_P for I for GET_ ComSub for MESH READ_RESULT CA RE READ RESULT CA RHR 1 IINITTBL HHMMSS 2 1 1 1 2 2 1 26 DOSE F ARGUMENT READ DATA ICALINF_STS OUT CAL MESH READ RESULT CANF DATA ICALINF_STS_OUT INIT_TBL INIT_READ_TBL CTL OUT FDATE CTL CALC CALC DUMP_2 MAIN DATNML SEPARATE YMD SEPARATE HMS DET_START_TIME 2 1 15 2 1 27 2 1 11 eadLfor ComSub for READ_RESULT_CA 2 A s BATA
215. t Hitachi Engineering Co Ltd II 1 WS pipa kiq ww iwaw ew REE REE was w atipa Wie wwe 1 2 SIERRA 2 2 2 1 2 2 2 3 4 amp aka ROE ea paqya 11 5 12 6 13 7 A 2 1 mt 2 1 2 2 2 3 BJ 2 4 1 2 4 2 E 2 4 3 RI 2 4 4 SIERRA 2 2000 3
216. y 108 nSv mSv KK D f 1 8 766 X104 G mSv h f 7 8 52 9 Sv y Ba cm 1 8 766 X10 4 mSy m y Sv cm2 h G Bq m f F Kocher 1983 2 5 4 2 1983 2 5 4 1 3 4 SIERRA 2 D f 178 766 X10 D mSv h f 7 Y 2 Sy y Bq cm3 1 8 766 X10 6 mSv m y Sv cm3 h x Bq m Dima fed n 1

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