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10
Issue
vol 62 / November, 2019
Article

DOI 10.17586/0021-3454-2019-62-2-150-155

UDC 621.18; 621.18.08

THERMAL AND TECHNOLOGICAL PROBLEMS IN MARINE POWER PLANTS DESIGN AND OPERATION

V. P. Hodunkov
ITMO University, Department of Computer Thermal Physics and Energy-Physical Monitoring;


Abstract. Several aspects of design and operation of modern marine power plants – namely, operational reliability and economic efficiency of the plants - are considered. Application of thermal imaging measurements technology is proposed as a mean to solve the first problem, and the technology of fluidized bed is suggested to solve the second one. Examples are given, a justification is provided, and ways to solve the problems are described. It is shown that introduction of thermal measurements in on-board control system will best meet the modern requirements for the economy and safety of marine power plant operation.
Keywords: marine power plant, gas flue, thermal imager, fluidized bed

References:
  1. Vavilov V.P. Infrakrasnaya termografiya i teplovoy kontrol’ (Infrared Thermography and Thermal Control), Moscow, 2013, 544 р. (in Russ.)
  2. Khodunkov V.P. Termometriya i infrakrasnaya radiometriya mnogofaznykh i mnogoob”yektnykh sistem (Thermometry and Infrared Radiometry of Multiphase and Multi-object Systems), St. Petersburg, 2013, 259 р. (in Russ.)
  3. Copyright certificate of the USSR, no. 1537853, Dizel’nyy dvigatel’ s zamknutym gazovym traktom (Diesel Engine with a Closed Gas Circuit), V.V. Dybok et al., Published 1989. (in Russ.)
  4. Copyright certificate of the USSR, no. 1576700, Sposob raboty dvigatelya vnutrennego sgoraniya (Mode of Work of the Internal Combustion Engine), V.V. Dybok, P.V. Druzhinin, A.G. Tishkevich, Published 1990. (in Russ.)
  5. Todes O.M., Tsitovich O.B. Apparaty s kipyashchim zernistym sloyem (Devices with the Boiling Granular Layer), Leningrad, 1981, 296 р. (in Russ.)
  6. Gel’perin N.I., Aynshteyn V.G., Kvasha V.B. Osnovy tekhniki psevdoozhizheniya (Basic Techniques of Fluidization), Moscow, 1967. (in Russ.)
  7. Todes O.M., Tsitovich O.B., Khodunkov V.P., Pilipenko N.V., Klyuchev V.M. Journal of Engineering Physics, 1986, no. 3(50), pp. 445–451. (in Russ.)
  8. Dul’nev G.N., Pilipenko N.V., Khodunkov V.P. Journal of Instrument Engineering, 2010, no. 3(53), pp. 83–89. (in Russ.)
  9. Dement’yev K.S., Romanov V.A., Turlakov A.S., Volkov D.I. Proyektirovaniye sudovykh parogeneratorov (Design of Ship Steam Generators), Leningrad, 1986, 336 р. (in Russ.)
  10. Dybok V.V., Saydanov V.O Sbornik voyenno-nauchnykh statey Voyennoy akademii material’no-tekhnicheskogo obespecheniya, St. Petersburg, 2013, no. 58(70), pt. 2, рр. 57–62. (in Russ.)
  11. Dybok M.V. Kombinirovannaya sistema snizheniya vrednykh vybrosov dvigateley vnutrennego sgoraniya spetsial’noy tekhniki, primenyayemoy dlya raboty v usloviyakh ogranichennykh ob”yemov (Combined system of reduction of harmful emissions of internal combustion engines of special equipment used for work in conditions of limited volumes), Candidate’s thesis, St. Petersburg, 2006, 151 р. (in Russ.)