Plasma-chemical facility for study of radioactive wastes treatment process

被引:0
|
作者
Belov, VP [1 ]
Brykov, SY [1 ]
Vasil'ev, VG [1 ]
Manasevitch, PK [1 ]
Morenets, VA [1 ]
Nesterov, YI [1 ]
Portniaguin, VI [1 ]
Saprykine, VP [1 ]
Starchenko, VA [1 ]
Frumkin, GA [1 ]
Eilenkrieg, GS [1 ]
机构
[1] VP Vologdine VNIITVCH Inst, St Petersburg 194902, Russia
来源
PROGRESS IN PLASMA PROCESSING OF MATERIALS 1999 | 1999年
关键词
plasmochemistry; gaspurification; oscillator; oxide; analysis;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A plasma-chemical facility for liquid HL wastes calcination process study has been designed, manufactured and mounted by RPA "Radium Institute" (RPA RI) together with the Institute VNIITVCH in a "hot" cell of the Research-Experimental Complex of RPA RI. The plasma-chemical facility includes a high-frequency equipment, a plasma-chemical reactor, an equipment for plasma-chemical oxides powders separation, an equipment for gas purification and control measuring devices.
引用
收藏
页码:809 / 814
页数:6
相关论文
共 50 条
  • [31] Pulping of flax raw materials using plasma-chemical treatment
    V. A. Titov
    V. G. Stokozenko
    Yu. V. Titov
    A. P. Moryganov
    High Energy Chemistry, 2015, 49 : 459 - 464
  • [32] Mathematical Modeling of Quartz Particle Melting Process in Plasma-Chemical Reactor
    Volokitin, Oleg
    Vlasov, Viktor
    Volokitin, Gennady
    Skripnikova, Nelli
    Shekhovtsov, Valentin
    ADVANCED MATERIALS IN TECHNOLOGY AND CONSTRUCTION (AMTC-2015), 2016, 1698
  • [33] Particle size control of alumina nanopowders in microwave plasma-chemical process
    Berestenko, V. I.
    Torbov, V. I.
    Kurkin, E. N.
    Balikhin, I. L.
    Torbova, O. D.
    Domashnev, I. A.
    Troitskii, V. N.
    Gurov, S. T.
    HIGH ENERGY CHEMISTRY, 2011, 45 (05) : 439 - 443
  • [34] Particle size control of alumina nanopowders in microwave plasma-chemical process
    V. I. Berestenko
    V. I. Torbov
    E. N. Kurkin
    I. L. Balikhin
    O. D. Torbova
    I. A. Domashnev
    V. N. Troitskii
    S. T. Gurov
    High Energy Chemistry, 2011, 45 : 439 - 443
  • [35] Transformer plasma generator as plasma-chemical reactor
    Ulanov, I. M.
    Isupov, M. V.
    Litvintsev, A. Yu.
    Mishchenko, P. A.
    HIGH TEMPERATURE, 2010, 48 (02) : 157 - 162
  • [36] Transformer plasma generator as plasma-chemical reactor
    I. M. Ulanov
    M. V. Isupov
    A. Yu. Litvintsev
    P. A. Mishchenko
    High Temperature, 2010, 48 : 157 - 162
  • [37] Effect of the plasma-chemical treatment of ZnO and NiO on their activity in the dehydrogenation of isopropanol
    M. N. Danilova
    A. I. Pylinina
    E. A. Platonov
    V. D. Yagodovskii
    Russian Journal of Physical Chemistry A, 2015, 89 : 1339 - 1342
  • [38] Strategic Study of Thermal Treatment of European Radioactive Wastes
    Doudou, S.
    Swain-Phipps, E. K.
    Fuller, A. J.
    Wickham, S. M.
    Daniels, N.
    Fourcy, E.
    Fournier, M.
    Frasca, B.
    Meert, K.
    Mikusova, A.
    Olin, M.
    Poskas, R.
    Scales, C.
    THERAMIN 2020 CONFERENCE: THERMAL TREATMENT OF RADIOACTIVE WASTE, 2020, 818
  • [39] Experimental study on simulated radioactive wastes vitrification with arc plasma
    Xu, Wenbing
    Lyu, Yonghong
    Chen, Mingzhou
    Huang, Wenyou
    Li, Qing
    Hedongli Gongcheng/Nuclear Power Engineering, 2015, 36 (06): : 175 - 179
  • [40] STUDY OF LIQUID SPRAYING INTO THE QUENCHING ZONE OF A PLASMA-CHEMICAL REACTOR
    PARKHOMENKO, VD
    SUKHOI, MP
    MELNIKOV, BI
    JOURNAL OF APPLIED CHEMISTRY OF THE USSR, 1980, 53 (05): : 856 - 859
12345