Forecasting of thermal performances of working bodies heat engineering of devices

Authors

  • А. М. Левтеров A. N. Podgorny Institute of Problems of Mechanical Engineering NAS, Ukraine
  • К. Р. Умеренкова A. N. Podgorny Institute of Problems of Mechanical Engineering NAS, Ukraine

Keywords:

thermal characteristics, phase equilibriums, alternative energy sources, working body, mathematical model

Abstract

The procedure of definition of parameters of phase equilibriums and thermal properties of the alternate non-petroleum power supplies used in manifold heat engineering of devices is offered. Descriptions of designed mathematical models of vapour-liquid equilibrias in multicomponent molecular intermixtures are submitted. Mathematical models of phase equilibriums and their numerical embodyings are based on the statistical mechanical approach within the framework of a thermodynamic perturbation theory without attraction of empirical parameters. Features of a method are the following: limited initial information for calculations, a hair accuracy, applicability for a wide class of substances in any practically important gamuts of states. Received results for basic properties and phase equilibriums predict performances of intermixtures in unexplored experimentally gamuts of states down to pressures 1000 МПа and temperatures up to 5000 K or up to temperatures of pyrolysis. Errors of calculations of predicted thermal performances of multicomponent working bodies are at a level of routine experimental errors.

Author Biographies

А. М. Левтеров, A. N. Podgorny Institute of Problems of Mechanical Engineering NAS

PhD

К. Р. Умеренкова, A. N. Podgorny Institute of Problems of Mechanical Engineering NAS

PhD

References

Marinin V. S. (1999) Thermal physics of alternative energy sources. – Kharkov: Fort. –212 p.

Kalashnikov O. V. (2003) Model operation of phase behavior of hydrocarbons: a select of an equation of state. // Ekotekhnologii and resursosberegenie. – N 1. – P. 22–29.

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Published

2015-04-01

Issue

Vol. 18 No. 1 (2015)

Section

Heat transfer in engineering constructions

License

Copyright (c) 2015 А. М. Левтеров, К. Р. Умеренкова

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