EXPANSION OF THE SOLUTION OF TRANSPORT EQUATIONS OF COMPLEX (RADIATIVE AND CONVECTIVE) HEAT AND MASS TRANSFER BY THE TRANSFORMATION METHOD AND RELATIVE TRANSFER LOWS AND STATE


  • V.M. Repukhov
Keywords: solution, radiative, convective, heat and mass transfer, transformation

Abstract

We study the extending solution of the system nonstationary three dimensional integrodifferential transport equations of the complex (radiative and convective) heat and mass transfer by the methods of field theory with the quasilinear transformation and the relative transfer laws and state.

References

1. Kutateladze S. S. Osnovi teorii teploobmena [Foundations of the theory of heat transfer] , Moscow: Atomiz- dat. 1979. 416 p. (Rus.)

2. Bai Shi-I. Dinamika izluchayuschego gaza [Radiation gas dynamics] Moscow: Мir ,1968. 350 p. (Rus.)

3. Repukhov V. М. Extension of the solution of transport equations of convective heat-mass transfer by the transformation method and relative transfer laws. Promishlennaya teplotehnika [Industrial Heat Engineering]. 2008. Vol. 30. No 1. P. 26. (Rus.)

4. Repukhov V. М. Influence of the transfer laws on the transformation of transport equations of convective heat and mass transfer, Promishlennaya teplotehnika [Industrial Heat Engineering]. 2006. Vol. 28. No 5. P. 26. (Rus.)

5. Repukhov V. М. Analytical expansion of solution of the convective heat and mass transfer transport equations by the transformation method and relative laws, VI Minsk International Heat & Mass Transfer Forum Proceed- ings. Section 1. Convective Heat and Mass Transfer. 2008. 1-53. (Rus.)

6. Repukhov V. М., Sigorskykh S.V. Radiation transfer of the energy in the nonunifom medium, Ptomishlennaya teplotehnika [Industrial Heat engineering]. 2009. Vol. 31. No 5. P. 88. (Rus.)

7. Repukhov V. М., Sigorskykh S.V. Radiation transfer of the surface nonunifom (aelotropic) mediums, Promishlennaya teplotehnika [Industrial Heat Engineering]. 2010. Vol. 32. No 5. P. 79. (Rus.)

8. Repukhov V. М., Sigorskykh S.V. Equation of radiative energy transfer at the border of heterogeneous (aniso- tropic) mediums, Mosow, Radiation and complex heat transfer: Proc. 5 Rus. nat. conf. heat exchange. Moscow Power Engineering Institute. 2010. Vol. 6. P. 252. (Rus.)

9. Repukhov V. М. Method and conditions-equations system transformation of the general transport equations complex (radiation and convective) heat and mass transfer to the simplest form, Proceedings 5 of Russian Na- tional Conference heat exchange. Moscow: Moscow Power Engineering Institute. 2010. Vol. 6. P. 248. (Rus.)

10. Repukhov V. М. Expansion of the solution of the transport equations of radiation heat transfer by the transformation method and relative transfer laws, Promishlennaya teplotehnika [Industrial Heat Engineering]. 2011. Vol. 33. No 6. P. 80. (Rus.)

11. Cochin N. E. Vector calculus and the beginning of tensor calculus. Edition 9. Moskow, Nauka, 1965. 247 p. (Rus.)

12. Helfand I. M. Lecture on linear algebra.Moscow: Nauka. 1971. 280 p. (Rus.)

Abstract views: 53
PDF Downloads: 42
Published
2017-06-20
How to Cite
Repukhov, V. (2017). EXPANSION OF THE SOLUTION OF TRANSPORT EQUATIONS OF COMPLEX (RADIATIVE AND CONVECTIVE) HEAT AND MASS TRANSFER BY THE TRANSFORMATION METHOD AND RELATIVE TRANSFER LOWS AND STATE. Thermophysics and Thermal Power Engineering, 39(3), 91-104. https://doi.org/https://doi.org/10.31472/ihe.3.2017.14
Section
Thermodynamics and Transport Phenomena