of 106/106
JAEA-Evaluation JAEA-Evaluation 2011-002 外部専門家による平成 22 年度炉心確認試験に関する評価 (もんじゅ研究利用専門委員会) External Evaluation on Monju Core Confirmation Test in FY 2010 (the Technical Committee on Monju Research Utilization) 日本原子力研究開発機構 June 2011 Japan Atomic Energy Agency FBR プラント工学研究センター 敦賀本部高速増殖炉研究開発センター FBR Plant Engineering Center Fast Breeder Reactor Research and Development Center, Tsuruga Head Office

JAEA-Evaluation 2011-002jolissrch-inter.tokai-sc.jaea.go.jp/pdfdata/JAEA...JAEA-Evaluation JAEA-Evaluation 2011-002 外部専門家による平成22年度炉心確認試験に関する評価

  • View
    0

  • Download
    0

Embed Size (px)

Text of JAEA-Evaluation 2011-002jolissrch-inter.tokai-sc.jaea.go.jp/pdfdata/JAEA...JAEA-Evaluation...

  • JAEA

    -EvaluationJAEA-Evaluation

    2011-002

    外部専門家による平成22年度炉心確認試験に関する評価(もんじゅ研究利用専門委員会)

    External Evaluation on Monju Core Confirmation Test in FY 2010(the Technical Committee on Monju Research Utilization)

    日本原子力研究開発機構

    June 2011

    Japan Atomic Energy Agency

    FBRプラント工学研究センター 敦賀本部高速増殖炉研究開発センター

    FBR Plant Engineering Center

    Fast Breeder Reactor Research and Development Center,

    Tsuruga Head Office

  • 1.5% Am-241

    Am-241 Pu-239

    JENDL4.0

    JAEA-Evaluation 2011-002

    i

  • External Evaluation on Monju Core Confirmation Test in FY 2010

    (the Technical Committee on Monju Research Utilization)

    FBR Plant Engineering Center and

    (Received March 28, 2011)

    This report describes the review made by the “Technical Committee on Monju

    Research Utilization” on the results of Core Confirmation Test conducted from May to July in 2010. The committee consists of technical specialists in the relevant engineering domains from various Japanese industries and universities.

    The Committee was convened twice in 2010, in August and December, where the each item of the Core Confirmation Test was explained by individual personnel in charge, and the outline and the detailed analysis were discussed, respectively. Evaluations were made by the Committee after the questions and answers.

    Main points of the evaluations are listed below: - After the 14 year stand-by, the Core Confirmation Test has been successfully

    completed within a brief duration of 3 months, with provision of precious technical data for future development and commercialization of FBRs

    - Safety has been confirmed and valuable data for analysis code validation have been acquired on an FBR core containing 1.5%wt of Am-241.

    - It is significant that the newly released nuclear data library, JENDL-4.0 has been validated based on studies of capture cross section of Am-241 and of fission cross section of Pu-239.

    Finally, the chief examiner of the Committee stated his expectation for advancement of Japanese FBR technologies with the JAEA’s leadership based of achievements on Monju, to be reflected on subsequent FBR developments. Keywords: Fast Breeder Reactor, Monju, Core Confirmation Test, External Evaluation

    JAEA-Evaluation 2011-002

    Fast Breeder Reactor Research and Development Center, Tsuruga Head Office Japan Atomic Energy Agency, Tsuruga-shi, Fukui-ken

    ii

  • ---------------------------------------------------------------------- 1

    ------------------------------------------------------------ 2

    5

    ----------------------------------------------------------------------- 6

    ----------------------------------------------------------------------- 7

    ----------------------------------------------------------------------- 8

    1

    3

    6

    7

    8

    9

    iii

    JAEA-Evaluation 2011-002

  • Contents 1. Monju System Start-up Tests 2. The Technical Committee on Monju Research Utilization 3. The Report and Evaluation on the System Start-up Tests at the Committee Meetings in JFY2022

    noitaulavE llarevO .4 Acknowledgement Appendix

    Explanations and Question/Answers on the System Start-up Tests at the Committee Meetings

    ---------------------------------------------------------------------- 1

    -------------------------- 2

    ---------------------------------------------------- 5

    ------------------------------------------------------------------------- 6

    ------------------------------------------------------------------------- 7

    ------------------------------------------------------------------------- 8

    1

    3

    6

    7

    8

    9

    iv

    JAEA-Evaluation 2011-002

  • List of Tables Table 1 List of Names of the Technical Committee on Monju Research Utilization Table 2 List of Proposed Test Items by the Committee

    ------------------------------------------ 3

    ------------------------ 4

    ---- 3

    --------------------------- 4

    4

    5

    4

    5

    v

    JAEA-Evaluation 2011-002

  • This is a blank page.

  • JAEA-Evaluation 2011-002

    -1-

  • JAEA-Evaluation 2011-002

    -2-

  • JAEA-Evaluation 2011-002

    -3-

  • JAEA-Evaluation 2011-002

    -4-

  • JAEA-Evaluation 2011-002

    -5-

  • JAEA-Evaluation 2011-002

    -6-

  • JAEA-Evaluation 2011-002

    -7-

  • JAEA-Evaluation 2011-002

    -8-

  • 2

    99

    1521263440485560

    676770

    74

    7878

    11

    18182430354349576469

    767679

    83

    8787

    JAEA-Evaluation 2011-002

    -9-

  • This is a blank page.

  • 40

    45 45

    40

    79

    75

    100100

    Am241 :1.5Wt%/HMAm241 :0.5Wt%/HM

    1

    JAEA-Evaluation 2011-002

    -11-

  • 2

    241Am wt241Am

    3

    JAEA-Evaluation 2011-002

    -12-

  • 6

    252Cf

    4

    R&

    D

    241Pu

    5

    JAEA-Evaluation 2011-002

    -13-

  • FBR

    6

    178

    241Am wt%

    7

    JAEA-Evaluation 2011-002

    -14-

  • 8

    9

    JAEA-Evaluation 2011-002

    -15-

  • 10

    •FBR

    • FBR

    •FBR

    11

    JAEA-Evaluation 2011-002

    -16-

  • 2

    78 6Am

    RID

    JAEA-Evaluation 2011-002

    -17-

  • (2)炉心特性関係

    ① 制御 確認 

                           矢吹 健太郎

    JAEA-Evaluation 2011-002

    -18-

  • (CCR) (FCR) (BCR)

    B C

    1000mm

    1100mm

    830mm CCR FCR

    CCR1 793mmCCR2 CCR10 795FCR1 FCR3 795

    930mm

    775mm

    830mm

    (S0/Sn)

    JAEA-Evaluation 2011-002

    -19-

  • JAEA-Evaluation 2011-002

    -20-

  • C2,3,4 0.15%

    C5,7,9 0.40%

    C6,8,10 0.35%

    F1,2,3 0.24%

    B1,2,3 0.17%

    B4,5,6 0.19%

    JAEA-Evaluation 2011-002

    -21-

  • JAEA-Evaluation 2011-002

    -22-

  • S

    FCRFCR

    CCR FCRFCR CCR FCR

    2

    1

    JAEA-Evaluation 2011-002

    -23-

  • ②炉

                         加藤 優子

    1

    JAEA-Evaluation 2011-002

    -24-

  • 2

    3

    JAEA-Evaluation 2011-002

    -25-

  • 4

    i

    t-ii

    t-CfCf

    iCf ens ensN(t)

    a. b.

    t-iii

    iens(t)S

    act-

    Cf NeNN(t) Cf

    5

    JAEA-Evaluation 2011-002

    -26-

  • act-

    Cf NeNN(t) Cf

    6

    t-iii

    iens(t)S

    7

    JAEA-Evaluation 2011-002

    -27-

  • i

    t-AcAc

    t-CfCf

    iCf ens ensN(t)

    9-SRM

    9-SRM

    -9SRM

    -9SRM

    10×4.1:,10×4.5:

    10×1.1:,10×7.4:

    8

    9

    JAEA-Evaluation 2011-002

    -28-

  • effAc

    effCf K-1

    1×S×+K-11×S×=N

    10-SRM

    10-SRM

    -10SRM

    -10SRM

    10×2.2:,10×5.8:

    10×7.1:,10×3.7:

    10

    11

    JAEA-Evaluation 2011-002

    -29-

  •                      高野 和也

    R&D

    14 [MW]

    1

    JAEA-Evaluation 2011-002

    -30-

  • WRM

    WRMSRM

    WRM

    WRM

    2

    WRM

    2%

    SRM

    WRM

    PRM

    235U HV

    235U

    40 [cps/nv]

    0.3 [cps/nv]

    100 [cps]1.2 10-8 [%]

    100 [cps]

    /105 [cps]

    DC

    105 [cps]1.2 10-3 [%]

    109 [cps]

    120%

    3

    JAEA-Evaluation 2011-002

    -31-

  • 1.E+02

    1.E+03

    1.E+04

    1.E+05

    1.E+06

    0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 [V]

    [cps

    ]

    WRM ch1WRM ch2WRM ch3

    1log(N|V=Vn N|V=3) 1.0 N

    Vn 3 [V]

    WRM ch1 WRM ch2 WRM ch3

    Vn 3 [V] 0.57 0.36 0.53

    [V]6 1.0 (1.6) 1.2 (1.9) 1.1 (1.7)

    WRM

    Vn

    4

    1.E+03

    1.E+04

    0 200 400 600 800 [V]

    [cps

    ]

    WRM ch1WRM ch2WRM ch3

    WRM

    100 [V]

    0.1 [%/V]

    WRM ch1 WRM ch2 WRM ch3

    [V] 650 700 650

    [%/V] 0.009 0.020 0.012

    [V] 400 400 400

    400 [V]

    5

    JAEA-Evaluation 2011-002

    -32-

  • 2.6

    6 2.56

    239 1 105 [cps]

    SRM WRM

    239 [cps]

    WRM ch1

    WRM ch2

    WRM ch3

    SRM ch1

    SRM ch2

    log10(105/239)2.6

    1.5 [cps]

    1

    [cps]

    [cps]

    [cps]

    [cps]

    [cps]

    WRM [cps]SRM [cps]

    SRM WRM

    1

    10

    100

    100 1000 10000SRM ch1 [cps]

    WR

    M [c

    ps]

    WRM ch1WRM ch2WRM ch3

    SRM

    WR

    M

    6

    (1/2)

    WRM

    6 SRM6

    SWP

    P SRM WRM

    P [MW]W WRM [cps]S SRM [cps]

    WRM [MW/cps]WRM SRM [-]

    22226006 HHHH

    22

    060622

    H

    HHH

    H06 6 H22

    7

    JAEA-Evaluation 2011-002

    -33-

  • 1

    10

    100

    100 1000 10000SRM ch1 [cps]

    WR

    M [c

    ps]

    WRM ch1WRM ch2WRM ch3

    1

    10

    100

    100 1000 10000SRM ch2 [cps]

    WR

    M [c

    ps]

    WRM ch1WRM ch2WRM ch3

    (2/2)

    SRM ch1 WRM SRM ch2 WRM

    6H06 12.39 10-6 [MW/cps]

    SRM WRM

    H22 10.23 10-6 11.23 10-6 [MW/cps]

    – WRM

    22

    060622

    H

    HHH

    14 [MW]1.06 106 [cps]

    8

    ••• SRM WRM• WRM

    ••

    ( 14 [MW] ( ): 5.1 [MW])

    9

    40%

    WRM PRM• DC WRM• PRM•

    JAEA-Evaluation 2011-002

    -34-

  •                       毛利 哲也

    JAEA-Evaluation 2011-002

    -35-

  • JAEA-Evaluation 2011-002

    -36-

  • 1

    2

    JAEA-Evaluation 2011-002

    -37-

  • JAEA-Evaluation 2011-002

    -38-

  • JAEA-Evaluation 2011-002

    -39-

  • T ed kT

    TTT

    kT

    0

    0lnTk

    T

    TTk ed

    0

    0ln

    ed kXkY

    1/T

    ed kT

    TTT

    kT

    0

    0ln

    X

    Y

    JAEA-Evaluation 2011-002

    -40-

  • 40

    6

    JAEA-Evaluation 2011-002

    -41-

  • FCA 10%

    20% 25% FCA

    JAEA-Evaluation 2011-002

    -42-

  •                      諸橋 裕子

    1

    JAEA-Evaluation 2011-002

    -43-

  • 2

    3

    JAEA-Evaluation 2011-002

    -44-

  • (IHX)1

    2

    AC)

    (EV)

    (SH)

    4

    5

    JAEA-Evaluation 2011-002

    -45-

  • 6

    7

    JAEA-Evaluation 2011-002

    -46-

  • 8

    9

    JAEA-Evaluation 2011-002

    -47-

  • 200 300

    100

    2.5mm

    JAEA-Evaluation 2011-002

    -48-

  • 1

    JAEA-Evaluation 2011-002

    -49-

  • AC

    2

    3ch

    3

    JAEA-Evaluation 2011-002

    -50-

  • 4

    1 5

    JAEA-Evaluation 2011-002

    -51-

  • 2 6

    3

    SH

    EVIHXR/V TbAC

    7

    JAEA-Evaluation 2011-002

    -52-

  • 2%

    6

    8

    4

    C2C3

    C4

    C5

    C6

    C7

    C8

    C9

    C10

    F1

    F2

    F3

    B1

    B2

    B3 B4

    B5

    B6

    C2C3

    C4

    C5

    C6

    C7

    C8

    C9

    C10

    F1

    F2

    F3

    B1

    B2

    B3 B4

    B5

    B6

    C2C3

    C4

    C5

    C6

    C7

    C8

    C9

    C10

    F1

    F2

    F3

    B1

    B2

    B3 B4

    B5

    B6

    C2C3

    C4

    C5

    C6

    C7

    C8

    C9

    C10

    F1

    F2

    F3

    B1

    B2

    B3 B4

    B5

    B6

    C2C3

    C4

    C5

    C6

    C7

    C8

    C9

    C10

    F1

    F2

    F3

    B1

    B2

    B3 B4

    B5

    B6

    C2C3

    C4

    C5

    C6

    C7

    C8

    C9

    C10

    F1

    F2

    F3

    B1

    B2

    B3 B4

    B5

    B6

    6

    9

    JAEA-Evaluation 2011-002

    -53-

  • Core ConfirmationTest (CCT)

    40%-power Confirmation Test (40%CT)

    Power RisingTest (PRT)

    RefuelingRefuelingReactor output (RO)Electricity output (EO)

    EO:40%RO:45% 45

    40%

    7975%

    100

    RO: 0%

    100RO

    EO

    T

    T

    10

    11

    JAEA-Evaluation 2011-002

    -54-

  • 1

    JAEA-Evaluation 2011-002

    -55-

  • Na 0.5

    2 ACS

    JAEA-Evaluation 2011-002

    -56-

  •                      北野 彰洋

       ⑦未

    CEA

    1

    JAEA-Evaluation 2011-002

    -57-

  • -2 100

    -2 -310 140

    *1

    Feynman-Rossi-

    -203

    *1

    Feynman- GateTime

    Rossi- 2 t dt

    2

    StCtNdk

    kkd

    1)(

    1)(

    6

    1

    d

    )(tN)(tCk

    )()()(

    tCtNdt

    tdCkk

    k

    k Ck( )

    1Sk

    d

    0S

    [cps

    ]

    StCtNdk

    kkd

    1)(

    1)(

    6

    1

    6

    1

    )(k

    kk tC

    3

    JAEA-Evaluation 2011-002

    -58-

  • 2 3sec

    100nsec

    4

    SRM-ch2WRM-ch3

    SRM-ch1WRM-ch1

    WRM-ch2

    SRM-ch2WRM-ch3

    SRM-ch1WRM-ch1

    WRM-ch2

    (B-10 ) 2SRM (BF3 ) 2WRM ( ) 3

    5

    JAEA-Evaluation 2011-002

    -59-

  • 1

    (-2 -20 -5 )

    -100 ,-10 )

    ( )

    10

    6

    C1 SRM Ch1

    C6 SRM Ch1

    2-2

    7

    JAEA-Evaluation 2011-002

    -60-

  • SRM

    8

    SRM Ch1C1 Full-drop

    SRM Ch1C1 Part-drop

    1

    SRM#1C1 -10[ ]

    GateTime [sec]

    Y[-]

    GateTime [sec]

    Y[-]

    E-NIS#1C1 -10[ ]

    GateTime [sec]

    Y[-]

    E-NIS#1C1 -2[ ]

    SRM#1C1 -2[ ]

    Feynman-Feynman-

    -1

    GateTime [sec]

    -1

    GateTime [sec]

    9

    JAEA-Evaluation 2011-002

    -61-

  • E-NIS#1C1 -2[ ]

    2

    Rossi-Rossi-

    E-NIS#1CR1 -10[ ]

    SRM#1C1 -2[ ]

    SRM#1C1 -10[ ]

    10

    -20

    C1

    Ch

    11

    JAEA-Evaluation 2011-002

    -62-

  • SRM (

    NIS) SRM

    JAEA-Evaluation 2011-002

    -63-

  • ⑧崩

                           大川内 靖

    1

    JAEA-Evaluation 2011-002

    -64-

  • 2

    , , kJ/

    •1

    1

    • R&D Na

    Na 397 [ ] Na 17.36 [kg/s] Na 2384 [h]300 4%

    6

    3

    JAEA-Evaluation 2011-002

    -65-

  • MM: 1 MM: 1

    1 49200

    4

    241Pu

    5

    • 241Pu• 40% 100%

    • = + 241Pu

    daykkkPu '/241 k/k day

    JAEA-Evaluation 2011-002

    -66-

  • 6

    JAEA-Evaluation 2011-002

    -67-

  • JAEA-Evaluation 2011-002

    -68-

  • ⑨解

                   羽様 平

    ––

    ––––

    1

    JAEA-Evaluation 2011-002

    -69-

  • 70g

    (TriZ)

    ( )

    JENDL-3.3

    2

    Pu241

    (2

    Pu241(Am241

    3

    JAEA-Evaluation 2011-002

    -70-

  • ---

    ---

    ::

    4

    JENDL-3.3(2002), JENDL-4.0(2010), ENDF/B-VII.0(2006)(1994/9) (2010/5)

    0.990

    0.992

    0.994

    0.996

    0.998

    1.000

    1.002

    1.004

    1.006

    JENDL-3.3 JENDL-4.0 ENDF/B-VII.0Nuclear data

    keff

    Previous (1994/9)

    Present (2010/5)

    (1 )

    JENDL-3.3 keff

    5

    JAEA-Evaluation 2011-002

    -71-

  • 241Am 241Pu

    ( )

    JENDL-3.3 -> JENDL-4.0 or ENDF/B-VII.0

    241Am , 241Pu

    Keff ( )

    6

    0.980

    0.985

    0.990

    0.995

    1.000

    1.005

    JENDL-3.3 JENDL-4.0 ENDF/B-VII.0Nuclear data

    keff

    -0.3

    -0.2

    -0.1

    0.0

    0.1

    0.2A

    ccur

    acy

    diff

    . (%

    k/kk

    ')

    Previous (1994/9)Present (2010/5)Present-Previous

    JENDL-3.3

    7

    JAEA-Evaluation 2011-002

    -72-

  • :JENDL-3.3

    -0.18% k/kk’

    8

    JENDL-3.3

    JENDL-3.3 :241Am capture, 239Pu fission, 241Pu fission

    JENDL-4.0 ENDF/B-VII.0 239Pu fissionJENDL-4.0 241Am capture 241Pu fission

    9

    JAEA-Evaluation 2011-002

    -73-

  • ------

    241Am 241Pu241Am capture 241Pu fission

    JENDL-3.3 JENDL-4.0

    10

    JAEA-Evaluation 2011-002

    -74-

  • 2 ±0.3% k/k

    FaCT 2 ±0.6% k/k

    Pu-241

    Pu-241

    Am-241

    Am-241Am-241

    Am-241Am-241

    JENDL-4 Am-241 Pu-241

    Am-241

    JAEA-Evaluation 2011-002

    -75-

  •            川村  義明 中川 浩樹 井田 拓美

       (3) プラント特性関係(化学管理、放射線管理、機器設備)    ①

    122 17 16

    2

    3

    4

    JAEA-Evaluation 2011-002

    -76-

  • 122 18 13

    2

    3

    4

    1.6ppm 1.5ppm 1.5ppm10ppm

    2.3ppm3ppm

    38ppm7500ppm

    16ppm 5ppm 10ppm15000ppm

    JAEA-Evaluation 2011-002

    -77-

  • 130120

    EVST

    JAEA-Evaluation 2011-002

    -78-

  •            川村 義明 中川 浩樹 井田 拓美

    ② 、

            及び

    122 17 16

    2Na-22 Na-24

    3

    Na-22 Na-24

    4

    JAEA-Evaluation 2011-002

    -79-

  • 122

    2

    3

    4

    40

    4.4 10 Bq/ A1.0 10 Bq/

    JAEA-Evaluation 2011-002

    -80-

  • 122 11 21

    2

    3

    4

    A 0.00625 Sv/hB 0.01 Sv/h 0.0026 Sv/h

    JAEA-Evaluation 2011-002

    -81-

  • JAEA-Evaluation 2011-002

    -82-

  •                        久保 篤彦

                    

                                          1

    JAEA-Evaluation 2011-002

    -83-

  • M-G

    JAEA-Evaluation 2011-002

    -84-

  • M-G(Motor-Generator)

    WWW

    (

    (

    JAEA-Evaluation 2011-002

    -85-

  • JAEA-Evaluation 2011-002

    -86-

  • 1

    (4)

                    大草 享一

    2

    JAEA-Evaluation 2011-002

    -87-

  • 3

    4

    t

    t

    JAEA-Evaluation 2011-002

    -88-

  • 5

    C22B( 558.8mm)

    6

    1.5( )

    1.5

    ( )

    JAEA-Evaluation 2011-002

    -89-

  • 7t T

    8

    JAEA-Evaluation 2011-002

    -90-

  • 9

    10

    JAEA-Evaluation 2011-002

    -91-

  • 11

    W

    W

    W

    WA

    ))()()((1)( 21 tWtWtWntW nA

    12

    20

    JAEA-Evaluation 2011-002

    -92-

  • 13

    14

    2

    JAEA-Evaluation 2011-002

    -93-

  • JSFR

    JSFR

    R&D

    m sec

    94

    JAEA-Evaluation 2011-002

  • JST

    95

    JAEA-Evaluation 2011-002

  • 200 200

    40%

    JSFR JSFR

    FaCT

    96

    JAEA-Evaluation 2011-002

  • この印刷物は再生紙を使用しています