Advertisement

Heatmetry pp 175-209 | Cite as

Industrial Experiments

  • Sergey Z. SapozhnikovEmail author
  • Vladimir Yu. Mityakov
  • Andrey V. Mityakov
Chapter
  • 27 Downloads
Part of the Heat and Mass Transfer book series (HMT)

Abstract

According to common view, the processes occurring in the cylinder of an internal combustion engine (ICE) are an example of complex and unsteady heat transfer. Meticulous investigations [1] based on experiment data and numerical simulation do not fully describe these phenomena, do not allow modulating them, and, what is more important in practical terms, to control the engine parameters associated with the processes inside the cylinder.

References

  1. 1.
    Kavtaradze, R. Z. (2007). Lokal’nyy teploobmen v porshnevykh dvigatelyakh (Local heat transfer in piston engines: Textbook for universities). Moscow: MGTU imeni N.E. Baumana.Google Scholar
  2. 2.
    Petrichenko, R. M. (1983). Fizicheskiye osnovy vnutritsilindrovykh protsessov v dvigatelyakh vnutrennego sgoraniya (The physical foundations of in-cylinder processes in internal combustion engines: Textbook for universities). Leningrad.Google Scholar
  3. 3.
    Isii, A., Nagano, K., Adachi, K., et al. (2000). Measurement of instantaneous heat flux flowing into metallic and ceramic combustion chamber walls. SAE Technical Papers, 01–1815, 1–24.Google Scholar
  4. 4.
    Rozenblit, G. B. (1977). Teploperedacha v dizelyakh (Heat transfer in diesel engines). Moscow: Mashinostroyeniye.Google Scholar
  5. 5.
    (1981). Toplivoraspredelitel’nyy nasos tipa VE: Tekhnicheskoye opisaniye (VE type fuel injection pump: Technical description). BOSCH GmbH.Google Scholar
  6. 6.
    Kostin, A. K., Pugachev, B. P., & Kochinev, Y. U. Y. U. (1989). Rabota dizeley v usloviyakh ekspluatatsii (The operation of diesel engines in operating conditions: Reference). Leningrad: Mashinostroyeniye.Google Scholar
  7. 7.
    Semenov, B. N., Pavlov, Ye. P., & Koptsev, V. P. (1990). Rabochiy protsess vysokooborotnykh dizeley maloy moshchnosti (The workflow of high-speed diesel engines of low power). Leningrad: Mashinostroyeniye.Google Scholar
  8. 8.
    Vintsarevich, A. V., Sapozhnikov, S. Z., Pavlov, A. V., et al. (2017). Gradient heat flux measurement as monitoring method for the diesel engine. In International Conference on Problems of Thermal Physics and Power Engineering 2017, PTPPE 2017, National Research University Moscow Power Engineering Institute (NRU MPEI) Moscow, Russian Federation, 9–11 October 2017.Google Scholar
  9. 9.
    Vintsarevich, A. V., Mityacov, A. V., Gerasimov, D., et al. (2018). Gradient heat flux measurement as monitoring tool for the diesel engine. In International Scientific Conference on Energy, Environmental and Construction Engineering, EECE 2018, Congress Center of Peter the Great St. Petersburg Polytechnic University, 19–20 November 2018.Google Scholar
  10. 10.
    Howey, D. A., Childs, P. R. N., & Holmes, A. S. (2012). Air-gap convection in rotating electrical machines. IEEE Transactions on Industrial Electronics, 59(3), 1367–1375.CrossRefGoogle Scholar
  11. 11.
    Jussila, H. (2009). Concentrated winding multiphase permanent magnetmachine design and electromagnetic properties-Case axial flux machine. Ph.D. dissertation, Acta Universitatis Lappeenrantaensis 374, Lappeenranta Univ. Technol., Lappeenranta, Finland.Google Scholar
  12. 12.
    Howey, D. A., Holmes, A. S., & Pullen, K. R. (2009). Measurement of stator heat transfer in air-cooled axial flux permanent magnet machines. In Proceedings of the IEEE Annual Conference on 35th Industrial Electronics, Porto, Portugal, 3–5 November 2009 (pp. 1197–1202).Google Scholar
  13. 13.
    Harmand, S., Watel, B., & Desmet, B. (2000). Local convective heat exchanges from a rotor facing a stator. International Journal of Thermal Sciences, 39(3), 404–413.CrossRefGoogle Scholar
  14. 14.
    Lykov, A. V. (1967). Teoriya teploprovodnostim (Theory of thermal conductivity). Moscow: Vysshaya shkola.Google Scholar
  15. 15.
    Blokh, A. G., Zhuravlev, Y. A., & Ryzhkov, L. N. (1991). Teploobmen izlucheniyem (Radiation heat transfer: Reference book). Moscow: Energoatomizdat.Google Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  • Sergey Z. Sapozhnikov
    • 1
    Email author
  • Vladimir Yu. Mityakov
    • 2
  • Andrey V. Mityakov
    • 2
  1. 1.Science Education Centre “Energy Thermophysics” Institute of EnergyPeter the Great St. Petersburg Polytechnic UniversitySt. PetersburgRussia
  2. 2.Saint-PetersburgRussia

Personalised recommendations