Abstract
The paper presents the basic concepts of a system approach to thermal processes and heat-exchanging apparatuses. The principle of groups that is applied to the analysis of thermal systems and the search for systemic, integrative properties is considered. Integral and local thermal and “mechanical” resistances are one of the forms of the groups. Dimensionless complexes of similarity theory are shown to be one of the forms of the groups at whose critical values integrative properties are manifested.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
L. A. Kolesnikov, Foundations of the Theory of System Analysis [in Russian], Kiev (1988).
P. Glensdorf and I. Prigogine, Thermodynamic Theory of the Structure of Stability and Fluctuations [Russian translation], Moscow (1973).
S. S. Kutateladze, Heat Transfer and Hydrodynamic Resistance: Handbook [in Russian], Moscow (1990).
D. Anderson, J. Tunnehill, and R. Fletcher, Computational Hydromechanics and Heat Transfer [Russian translation], Moscow (1990).
A. A. Gukhman, Trudy Mosk. Inst. Inzh. Zhel.-Dor. Transp., Issue 139, Moscow 31–44 (1961).
A. A. Gukhman, Introduction to Similarity Theory [in Russian], Moscow (1973).
A. A. Gukhman, Application of Similarity Theory to Investigation of Heat Transfer Processes [in Russian], Moscow (1974).
S. S. Kutateladze, Analysis of Similarity in Thermal Physics [in Russian], Novosibirsk (1982).
I. I. Novikov and V. M. Borishanskii, Similarity Theory in Thermodynamics and Heat Transfer [in Russian], Moscow (1979).
J. Kuneš, Modelovani tepelných procesú, SNTL, Prague (1989).
A. V. Luikov, Tr., Mosk. Inst. Inzh. Zhel.-Dor. Transp.. Issue 139, Moscow, 10–19 (1961).
A. V. Gukhman and A. A. Zaitsev, Teplofiz. Vys. Temp.,8, No. 1, 136–146 (1970).
A. A. Gukhman and A. A. Zaitsev, Teplofiz. Vys. Temp.,8, No. 4, 847–855 (1970).
L. A. Kozdoba, Computational Thermal Physics [in Russian], Kiev (1992).
O. I. Bukovskaya, L. A. Kozdoba, M. V. Kudinova, and P. G. Nagolkin, Prom. Teplotekhn.,17, Nos. 1–3, 70–79 (1995).
L. A. Kozdoba, V. P. Nevmerzhitskii, and S. V. Filin, Prom. Teplotekhn.,17, No. 4, 6–14 (1995).
L. A. Kozdoba, M. V. Kudinova, and A. P. Nagolkin, Prom. Teplotekhn.,17, No. 5, 35–41 (1995).
L. A. Kozdoba and M. V. Kudinova, in: Heat and Mass Transfer-MIF-96 [in Russian], Vol. 9, Pt. 4, Minsk (1996), pp. 106–111.
S. Satankar, Numerical Methods for Solving Problems of Heat Transfer and Fluid Dynamics [Russian translation], Moscow (1984).
A. P. Vanichev, Izv. Akad. Nauk SSSR, Otd. Tekh. Nauk, No. 12, 1767–1774 (1946).
L. A. Kozdoba, Electrical Simulation of Temperature Fields in Parts of Ship Power Plants [in Russian], Leningrad (1964).
L. A. Kozdoba, Electrical Simulation of Heat and Mass Transfer Phenomena [in Russian], Moscow (1972).
B. S. Petukhov, Heat Transfer in Moving Single-Phase Medium. Laminar Boundary Layer [in Russian], Moscow (1993).
P. Schneider, Engineering Problems of Heat Conduction [Russian translation], Moscow (1960).
A. V. Luikov, Heat and Mass Transfer. Handbook [in Russian], Moscow (1972).
A. G. Shashkov, System-Structural Analysis of Heat Transfer Processes and Its Applications [in Russian], Moscow (1983).
Additional information
Institute of Technical Thermal Physics, National Academy of Sciences of Ukraine, Kiev. Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 69, No. 6, pp. 1026–1034, November–December, 1992.
Rights and permissions
About this article
Cite this article
Kozdoba, L.A. Simulation of heat and mass transfer processes and a system approach. J Eng Phys Thermophys 69, 797–806 (1996). https://doi.org/10.1007/BF02606119
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF02606119