Radiochemical monitoring of water and air media in nuclear power industry

被引:2
|
作者
Moskvin L.N. [1 ]
Epimakhov V.N. [2 ]
Chetverikov V.V. [2 ]
机构
[1] Chemical Faculty, St. Petersburg State University, St. Petersburg
[2] Alexandrov Research Institute of Technology, Federal State Unitary Enterprise, Sosnovy Bor
来源
Radiochemistry | 2011年 / 53卷 / 1期
关键词
air media; nuclear power industry; radiochemical monitoring; water media;
D O I
10.1134/S1066362211010012
中图分类号
学科分类号
摘要
General approaches to organization of radiochemical monitoring in nuclear power industry and the existing methods and technical means for performing it are discussed. Principles of rapid radiochemical analysis are presented, and its advantages over other methods of radiochemical analysis are substantiated. Schemes of instruments for radiochemical monitoring, based on principles of rapid radiochemical analysis, are described. The results of their testing at operating nuclear power plants are reported. © 2011 Pleiades Publishing, Ltd.
引用
收藏
页码:1 / 12
页数:11
相关论文
共 50 条
  • [1] The System of Automatic Monitoring of Social Media for the Nuclear Industry
    Kireev, Vasiliy S.
    Posmakov, Nikolay P.
    Emelianenko, Andrey S.
    Kisselev, Yuriy V.
    PROCEEDINGS OF THE 2019 IEEE CONFERENCE OF RUSSIAN YOUNG RESEARCHERS IN ELECTRICAL AND ELECTRONIC ENGINEERING (EICONRUS), 2019, : 254 - 257
  • [2] RADIOCHEMICAL MONITORING AND EVALUATION OF OPERATING CORES UNDER ARMY NUCLEAR-POWER PROGRAM
    ABRISS, A
    TUROVLIN, B
    TRANSACTIONS OF THE AMERICAN NUCLEAR SOCIETY, 1971, 14 (NAUG): : 8 - &
  • [3] Needs and performance requirements for neutron monitoring in the nuclear power industry
    Hirning, CR
    Waker, AJ
    RADIATION PROTECTION DOSIMETRY, 1997, 70 (1-4) : 67 - 72
  • [4] Ionic Liquids for the Nuclear Industry: A Radiochemical, Structural, and Electrochemical Investigation
    Baston, G.M.N.
    Bradley, A.E.
    Gorman, T.
    Hamblett, I.
    Hardacre, C.
    Hatter, J.E.
    Healy, M.J.F.
    Hodgson, B.
    Lewin, R.
    Lovell, K.V.
    Newton, G.W.A.
    Nieuwenhuyzen, M.
    Pitner, W.R.
    Rooney, D.W.
    Sanders, D.
    Seddon, K.R.
    Simms, H.E.
    Thied, R.C.
    ACS Symposium Series, 2002, 818 : 162 - 177
  • [5] Ionic liquids for the nuclear industry: A radiochemical, structural, and electrochemical investigation
    Baston, GMN
    Bradley, AE
    Gorman, T
    Hamblett, I
    Hardacre, C
    Hatter, JE
    Healy, MJF
    Hodgson, B
    Lewin, R
    Lovell, KV
    Newton, GWA
    Nieuwenhuyzen, M
    Pitner, WR
    Rooney, AW
    Sanders, D
    Seddon, KR
    Simms, HE
    Thied, RC
    IONIC LIQUIDS: INDUSTRIAL APPLICATIONS FOR GREEN CHEMISTRY, 2002, 818 : 162 - 177
  • [6] Further development of express chromatographic radiochemical analysis as applied to process and radioecological monitoring in nuclear power engineering
    Epimakhov V.N.
    Moskvin L.N.
    Radiochemistry, 2007, 49 (2) : 210 - 214
  • [7] The activities of the Alexandrov Institute of Research and Technology in developing methods for chemical and radiochemical monitoring in nuclear power engineering
    Moskvin, L.N.
    Efimov, A.A.
    Thermal Engineering, 1999, 46 (03): : 216 - 219
  • [8] Thermal Degradation and Condition Monitoring of Low Voltage Power Cables in Nuclear Power Industry
    Mustafa, Ehtasham
    Adam, Tamus Zoltan
    Afia, Ramy S. A.
    Asipuela, Angel
    TECHNOLOGICAL INNOVATION FOR INDUSTRY AND SERVICE SYSTEMS, DOCEIS 2019, 2019, 553 : 405 - 413
  • [9] REVIEW OF PLANT CONDITION MONITORING IN THE NUCLEAR-POWER GENERATING INDUSTRY
    NICHOLS, RW
    NUCLEAR ENERGY-JOURNAL OF THE BRITISH NUCLEAR ENERGY SOCIETY, 1979, 18 (06): : 383 - 387
  • [10] Advances in high-purity water monitoring in the power industry
    Usher, J
    CORROSION PREVENTION & CONTROL, 1996, 43 (01): : 3 - 6
12345