Перегляд за автором "Momot, V.A."

Сортувати за: Порядок: Результатів:

  • Control system by the technological electron linac KUT-20 
    Akchurin, Yu.I.; Boriskin, V.N.; Borgkovsky, Yu.V.; Gurin, V.A.; Demidov, N.V.; Ivahnenko, M.V.; Savchenko, A.N.; Levandovsky, S.P.; Orlova, E.I.; Popenko, V.A.; Momot, V.A.; Tatanov, V.I.; Tsebenko, G.M. (Вопросы атомной науки и техники, 2001)
    The high-power technological electron linac KUT-20 was developed at the Science Research Complex “Accelerator” of NSC KIPT. The linac consists of two 1.2 m length accelerating structures with a variable geometry and an ...
  • Control system in the technological electron linacs 
    Boriskin, V.N.; Akchurin, Yu.I.; Bahmetev, N.N.; Borgkovsky, Yu.I.; Gurin, V.A.; Demidov, N.V.; Ivahnenko, M.V.; Savchenko, A.N.; Levandovsky, S.P.; Orlova, E.I.; Popenko, V.A.; Momot, V.A.; Tatanov, V.I.; Tsebenko, G.M. (Вопросы атомной науки и техники, 1999)
    In recent years in the Science Research Complex "Accelerator" in NSC KIPT the power current technological electron linacs are developed and put into operation. Their energy varies from 8 MeV to 30 MeV, the pulse current ...
  • Control system of storage ring NESTOR linac 
    Akchurin, Y.I.; Boriskin, V.N.; Momot, V.A.; Ivahnenko, A.V.; Ivahnenko, M.V.; Nescheret, S.F.; Romanovsky, S.K.; Savchenko, A.N.; Sarvilov, A.A.; Shelepko, S.V.; Tatanov, V.I.; Tsebenko, G.N.; Yeran, L.V. (Вопросы атомной науки и техники, 2007)
    NESTOR (New-generation Electron STOrage Ring) consisting of electron storage ring, injector and linac with beam energy 60-100 MeV was developed for X-rays source creating based on the use Compton laser radiation scattering ...
  • Development of new elements of automated control systems linear accelerator 
    Boriskin, V.N.; Ljahovec, V.A.; Sarvilov, A.A.; Momot, V.A.; Savchenko, A.N.; Cebenko, G.N.; Vereshchaka, V.V. (Вопросы атомной науки и техники, 2013)
    For monitoring systems and control of linear electron accelerators have been designed, manufactured and introduced new elements instead of physically and morally outdated. This family of analog-to-digital converters ADC ...
  • Dispenser for water sampling from supercritical convection loop 
    Boriskin, V.N.; Gorenko, Yu.V.; Kovalev, G.G.; Momot, V.A.; Savchenko, A.N.; Solodovnikov, V.I.; Shelepko, S.V.; Tsebenko, G.N. (Вопросы атомной науки и техники, 2014)
    Since 2009, the Kharkov Institute of Physics and Technology is working towards the development of equipment and methods for testing the materials for reactors SCWR (STCU project P4841). Supercritical water convection ...
  • Electron irradiation of the material samples of new generation nuclear reactors in the supercritical water convection loop 
    Bakai, A.S.; Boriskin, V.N.; Bratchenko, M.I.; Biller, E.Z.; Bytenko, P.A.; Bocharov, V.A.; Vereshchaka, V.N.; Dovbnya, A.N.; Duldya, S.V.; Gorenko, Yu.V.; Kovalev, G.G.; Momot, V.A.; Repihov, O.A.; Romanovsky, S.K.; Savchenko, A.N.; Seleznev, V.V.; Solodovnikov, V.I.; Titov, V.I.; Torgovkin, A.V.; Handak, V.V.; Shelepko, S.V.; Tcebenko, G.N. (Вопросы атомной науки и техники, 2013)
    The design of the Supercritical Water Convection Loop with an irradiation chamber is described [1]. The plant makes possible to carry out simulation corrosion tests of potential structural materials for Generation IV ...
  • LU-10M LINAC synchronization system 
    Boriskin, V.N.; Momot, V.A.; Churikov, V.V.; Solodovnikov, V.I.; Zaitsev, E.I. (Вопросы атомной науки и техники, 2022)
    The synchronization system is based on STM32F407VG and DP83848. The system generates pulses with a fre-quency of 1 to 600 Hz, a length of up to 2500 ns to synchronize the operation of the klystron modulator, master oscillator, ...
  • Monitoring the flow rate of water in the supercritical convection loop 
    Bakai, A.S.; Biller, E.Z.; Bovda, A.M.; Boriskin, V.N.; Gorenko, Yu.V.; Momot, V.A.; Onischenko, L.V.; Solodovnikov, V.I.; Shelepko, S.V. (Вопросы атомной науки и техники, 2016)
    The Supercritical Water Convection Loop with an irradiation chamber is created in KIPT. The Loop is made from stainless steel. It measures 1.2 by 1.5 m. The plant makes possible to carry out simulation corrosion tests ...
  • Optical monitoring the temperature of objects irradiated at an electron accelerator 
    Boriskin, V.N.; Romanovsky, S.K.; Momot, V.A.; Titarenko, Yu.A.; Titov, D.V.; Uvarov, V.L.; Shevchenko, V.A.; Shelepko, S.V. (Вопросы атомной науки и техники, 2015)
    A method of remote on-line control of the temperature of objects heated by an electron beam has been developed and researched. The method is based on analysis of object radiation in optical and infrared ranges and determination ...
  • Regimes of irradiation by electrons of samples of materials in supercritical water convection loop 
    Bakai, A.S.; Boriskin, V.N.; Bratchenko, M.I.; Dovbnya, A.N.; Dyuldya, S.V.; Gorenko, Yu.V.; Momot, V.A.; Romanovsky, S.K.; Savchenko, A.N.; Solodovnikov, V.I.; Titov, V.Yu.; Shelepko, S.V.; Tcebenko, G.N. (Вопросы атомной науки и техники, 2017)
    The specially designed in the NSC KIPT Supercritical Water Convection Loop (SCWCL) with an irradiation chamber coupled to an electron accelerator LPE-10 gives an opportunity for corrosion and mechanical tests of materials ...
  • Research of the state of internal surfaces of a supercritical water loop after a session of irradiation 
    Azarov, A.I.; Bakai, A.S.; Boriskin, V.N.; Bocharov, V.A.; Gorenko, Yu.V.; Dolzhek, M.A.; Zaitsev, E.I.; Momot, V.A.; Solodovnikov, V.I.; Tytov, V.Yu.; Shelepko, S.V. (Вопросы атомной науки и техники, 2020)
    Made of austenitic steel at the NSC KIPT, the supercritical water convection loop Loop-1a was running for more than 500 hours in the first experimental session (in 2011). The materials tested in the loop were placed into ...
  • S-band electron linac with beam energy of 30…100 MeV 
    Antipov, K.I.; Ayzatsky, M.I.; Akchurin, Yu.I.; Gurin, V.A.; Boriskin, V.N.; Beloglasov, V.I.; Biller, E.Z.; Demidov, N.V.; Dovbnya, A.N.; Dronov, R.N.; Khodak, I.V.; Kosoy, A.I.; Kushnir, V.A.; Momot, V.A.; Myakushko, L.K.; Mytrochenko, V.V.; Nikitina, T.F.; Opanasenko, A.N.; Perezhogin, S.A.; Pugachev, G.D.; Repikhov, O.A.; Reprintzev, L.V.; Shendrik, V.A.; Stepin, D.L.; Tarasov, G.E.; Tur, Yu.D.; Zhiglo, V.F. (Вопросы атомной науки и техники, 2004)
    The S-band electron linac has been designed at NSC KIPT to cover an energy range from 30 to 100 MeV. The linac consists of the injector based on evanescent oscillations and the two four-meter long piecewise homogeneous ...
  • Some results of research of chemical processes in a supercritic convectional water loop under electron exposure 
    Azarov, A.I.; Bakai, A.S.; Boriskin, V.N.; Bocharov, V.A.; Gorenko, Yu.V.; Dolzhek, M.A.; Momot, V.A.; Solodovnikov, V.I.; Titov, V.Yu.; Zebenko, G.N.; Churikov, V.V.; Shelepko, S.V. (Вопросы атомной науки и техники, 2022)
    The specific heat of water at the critical point increases abruptly and therefore supercritical water (SCW) can effectively cool a nuclear reactor, it would be promising to use SCW in nuclear energy. However, at high ...
  • Supercritical water convection loop control system 
    Boriskin, V.N.; Momot, V.A.; Romanovsky, S.K.; Savchenko, A.N.; Solodovnikov, V.I.; Shelepko, S.V. (Вопросы атомной науки и техники, 2014)
    The Convection Loop control system for research of water parameters in supercritical and "nearby" critical state is considered. Results of experiments are presented.
  • Temperature control system of two section electron LINAC-40 
    Boriskin, V.N.; Demidov, N.V.; Ivahnenko, A.V.; Levandovsky, S.P.; Momot, V.A.; Tarasov, G.E.; Shelepko, S.V. (Вопросы атомной науки и техники, 2006)
    The temperature control system of the accelerator provides thermal stabilization of the two accelerating sections and the injector. The system consists of 7 temperature-sensitive elements, up to 8 transducers of water ...