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Similarity method for studying and calculating convective heat exchange in piston machines

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Abstract

A mathematical model of convective heat exchange in the operating chamber of a piston compressor (PC) has been studied applying similarity theory. Experimental data based on analysis of the heat exchange process in various areas of the operating PC cylinder are reported. Experimental relationships proposed by other authors are compared, empirical coefficients have been refined by “machine” calculation, and the most rational equations have been derived.

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References

  1. G. Woschni, “Beitrag zum Problem des Wärmeüberganges im Verbrennungsmotor,” MTZ, No. 4, 128–133 (1965).

  2. Ch. Vogel, Einflüss von Wandablagenmgen auf den Wärmeübergang im Verbrennungsmotor, Dissertation, TU Munchen (1995), p. 119.

  3. P. I. Plastinin, “Calculation and study of piston compressors using computer,” Itogi Nauki Texh., Ser. Nasosostr. Kompreccorostr., vol. 2, Moscow (1981), p. 168.

    Google Scholar 

  4. V. S. Kalenin, Working Processes of General-Purpose Industrial Piston Compressors, Author’s abstract of Candidate’s dissertation, Leningrad (1978), p. 16.

  5. V. S. Kalenin, I. K. Prilutskii, and B. S. Fotin, “Calculation of multistage piston compressors by mathematical modeling,” Khlodil’n. Kompressor. Mash., 115–121 (1978).

  6. A. I. Naumenko, Heat Exchange in Piston Compressors, Author’s abstract of Candidate’s dissertation, Leningrad (1974), p. 16.

  7. I. K. Prilutskii, Development, Investigation, and Construction of Compressors and Expanders for Cryogenic Engineering, Author’s abstract of Doctor’s dissertation, Leningrad (1991), p. 32.

  8. R. M. Petrichenko and M. R. Petrichenko, Convective Heat Exchange in Piston Machines, Mashinostr., Leningrad (1979).

    Google Scholar 

  9. V. S. Kalenin, A. D. Vanyashov, and V. A. Plotnikov, “Designing of multistage compressor machines and expander-compressor units by mathematical modeling,” Vest. Kuzbas. Gos. Tekh. Univ., No. 5, 10–13 (1999).

  10. I. K. Prilutskii, N. I. Ostroukhova, and V. I. Chigrin, “Thermal state of cylinders of crossheadless piston compressors,” Konstr., Issled., Tekhnol., Org. Proizd. Kmopressor. Mash., Trudy VNIIkompressormash, 23–28, Sumy (1977).

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Authors and Affiliations

  1. Omsk State Engineering University, Omsk

    V. S. Kalekin & D. V. Kalekin

Authors
  1. V. S. Kalekin
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  2. D. V. Kalekin
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Translated from Khimicheskoe i Neftegazovoe Mashinostroenie, No. 6, pp. 34–38, June, 2007.

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Kalekin, V.S., Kalekin, D.V. Similarity method for studying and calculating convective heat exchange in piston machines. Chem Petrol Eng 43, 343–350 (2007). https://doi.org/10.1007/s10556-007-0061-5

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  • DOI: https://doi.org/10.1007/s10556-007-0061-5

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