The main objective of the analysis presented in this chapter consists in finding solutions allowing calculating the factor of conjugation (FC), which definition is given by (2.13) [1–15].
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References
Zudin YB, Labuntsov DA (1978) Peculiarities of heat transfer at periodic asym-metrical regime. Works of Moscow Power Engineering Institute. Issue 377: 35-39 (in Russian).
Zudin YB (1980) Analysis of heat-transfer processes of periodic intensity. Dis-sertation. Moscow Power Engineering Institute (in Russian).
Labuntsov DA, Zudin YB (1984) Heat-Transfer Processes of Periodic Intensity Energoatomizdat, Moscow (in Russian).
Zudin YB (1991) A method of heat-exchange calculation in the presence of periodic intensity fluctuations. High Temp 29: 921-928.
Zudin YB (1994) Calculation of effect for supplying heat to the wall on the averaged heat exchange coefficient. Thermophys Aeromech 1: 117-119.
Zudin YB (1995) Design of the wall heat effect on averaged convective heat transfer in processes of heat exchange with periodic intensity. Appl Energy Russ J Fuel Power Heat Syst 33: 76-81.
Zudin YB (1996) Pulse law of true heat transfer coefficient pulsatinons. Appl Energy Russ J Fuel Power Heat Syst 34: 142-147.
Zudin YB (1996) Theory on heat-transfer processes of periodic intensity. Habil-itation Moscow Power Engineering Institute (in Russian).
Zudin YB (1998) Effect of the thermophysical properties of the wall on the heat transfer coefficient. Therm Eng 45(3): 206-209.
Zudin YB (1998) Temperature waves on a wall surface. Russ Dokl Phys J Acad Sci 43(5): 313-314.
Zudin YB (1999) The effect of the method for supplying heat to the wall on the averaged heat-transfer coefficient in periodic rate heat-transfer prozesses. Therm Eng 46(3): 239-243.
Zudin YB (1999) Harmonic law of fluctuations of the true heat transfer coefficient. Thermophys Aeromech 6: 79-88.
Zudin YB (1999) Self-oscillating process of heat exchange with periodic intensity. J Eng Phys Thermophys 72: 635-641.
Zudin YB (2000) Processes of heat exchange with periodic intensity. Therm Eng 47(6): 124-128
Zudin YB (2000) Averaging of the heat-transfer coefficient in the processes of heat exchange with periodic intensity. J Eng Phys Thermophys 73: 643-647.
Stein EM, Shakarchi R (2003) Fourier Analysis: An Introduction. Princeton University Press, Princeton.
Tsoi PV, Tsoi VP (2002) A method of representing nonstationary temperature fields in the best approximations. High Temp 40: 456-468.
Baehr HD, Stephan J (1998) Heat and Mass Transfer. Springer, Berlin Heidelberg New York.
Dietz C, Henze M, Neumann SO, von Wolfersdorf J, Weigand B (2005) Numerical and experimental investigation of heat transfer and fluid flow around a vortex generator using explicit algebraic models for the turbulent heat flux. Proc. of the 17th Int. Symp. on Airbreathing Engines, September 4-9, Munich, Germany, Paper ISABE-2005-1197.
Khinchin AY (1997) Continued Fractions. Dover Publications, New York.
Sauer R, Szabo I (1969) Mathematische Hilfsmittel des Ingenieurs, Teil 1-4. Springer, Berlin.
Kantorovich LV, Krylov VI (1958) Approximate Methods of Higher Analysis. P. Noordho, Groningen, The Netherlands.
Abramovitz M, Stegun IA (1974) Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables. Dover Publications, New York.
Bronstein IN, Semendjajew KA, Musiol G, Mühlig H (2005) Taschenbuch der Mathematik. Verlag Harry Deutsch, Frankfurt.
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(2007). Solution of Characteristic Problems. In: Theory of Periodic Conjugate Heat Transfer. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-70725-7_3
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