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- Material Type
- 規格・テクニカルリポート類
- Author/Editor
- 山本 寿関口 善之石井 愛典鈴木 惣十川島 正俊斉藤 宜弘大西 恒二
- Publication Date
- 1979-07
- Publication Date (W3CDTF)
- 1979
- Alternative Title
- Start-up test of experimental fast reactor "JOYO"; Nuclear power calibration and power distribution (Part 1), NT-41 : Nuclear power calibraion, NT-42-1 : Power distribution (Part-1)
- Periodical title
- PNC TN941 79-112
- Target Audience
- 一般
- Note (General)
- 出版タイプ: NA高速実験炉「常陽」の低出力性能試験のうち核出力較正試験と小型核分裂計数管による炉心中心軸上の出力分布試験の結果について述べる。▲原子炉出力は,予め較正されたPu239の小型核分裂計数偶を炉内に挿入し,得られた計数率と,計算によって得られた反応率との対応から求められた。起動系については,計数率と炉出力の関係を求め,中間系は指示計の値と原子炉出力が一致するように調整された。▲本試験の主な結果は次の通りである。▲1)起動系ch1,ch2の計数率と原子炉出力の関係は,0.1kWから10kWの範囲で直線的であることが確認された。▲2)中間系と起動系は,炉出力1kWから10kWの範囲でオーバーラップしており,この区間では中間系の指示値と炉出力の関係は直線的である。▲3)中心軸上の反応率は,Pu239Pu240,U235,U238,Th232の(n,f)反応が小型核分裂計数管によって測定された。軸方向分布の測定値から得られた軸方向ピーキング係数は1.19であり,設計値と一致した。▲4)―次冷却材の温度変化による起動系の計数率は,一次冷却材の温度が100$^{\circ}C$上昇すると,約8\%増加する。▲5)燃料貯蔵ラック内の燃料は,起動系の計数率に影響を与える。起動系と炉中心を結ぶ線上のラック内に炉心燃料が一本装荷されると,計数率は約25\%増加する。▲その他の核特性として,6)等温係数は一3.65$\times$10$\times$-3\%$\Delta$K/K/$^{\circ}C$(190$^{\circ}C$$\sim$250$^{\circ}C$)であった。▲7)炉中心において,燃料と試験用特殊燃料集合体の置換反応度は一0.085\%$\Delta$K/Kであった。▲This report describes the results of the Nuclear Power Calibration test and the Power Distribution measurements made on the core center axis by micro fission chambers. The nuclear power leve1 was determined from the relationship between the calculated reaction rates and the count rates obtained by the Pu239 micro fission chambers which were inserted in the Joyo core. The Pu239 chambers used in this test were previously calibrated in the known neutron field of a thermal reactor. The principal results of this test are as follows: (1)It was confirmed that the relationship between the SRMS count rates and nuclcar power level is linear in the range of 0.1KW $\sim$ 10 KW. (2)The SRMS and IRMS indicators overlap in the range of 1KW $\sim$ 10 KW. The IRMS indicators show, linearity with the power level a above 1 KW. (3)Five fission reaction rates, Pu239, Pu240, U235, U238 and Th232, were measured along the center axis of the core using micro fission chambers. The axial power peaking factor was 1.19. The measured value of axial peaking factor agreed with the one predicted by design. (4)The SRMS count rates increase about 8\% when temperature of primary sodium increases by 100$^{\circ}$C. (5)The core fuel assemblies stored in the in-vessel fuel rack affect the count rates of the neutron monitoring system. When one core fuel assembly is loaded in a fuel rack position on a line connecting the core center and SRMS counters, the count rates increase about 25\%. The additional nuclear characteristics determined in this teat are: (6)Isothermal temperature coefficient was -3.65 $\times$ 10$^{-3}$ \% $\Delta$$^{k}$/$_{k}$/$^{\circ}$C (190$^{\circ}$C $\sim$ 250$^{\circ}$C) (7)The reactivity change due to the replacement of a normal core assembly at the core center with a special subassembly for this test was -0.085\% $\Delta$$^{k}$/k.
- Source
- /PNC-TN941-79-112.pdf (fulltext)