Addressing energy efficiency and environmental problems in the thermal power industry, taking into account teplogoeksergeticheskogo analysis.

Authors

  • Е. E. Strezhekurov Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine, Ukraine
  • V. A. Shalomov State Higher Education Establishment “Pridneprovsk State Academy of Civil Engineering and Architecture”, 24-A, Chernishevskogo st., Dnipropetrovsk 49600, Ukraine, Ukraine
  • О. A. Vergun State Higher Education Establishment “Pridneprovsk State Academy of Civil Engineering and Architecture”, 24-A, Chernishevskogo st., Dnipropetrovsk 49600, Ukraine, Ukraine
  • І. S. Dolgopolov Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine, Ukraine
  • Е. D. Khmelnitsky Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine, Ukraine
  • L. О. Sovgir Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine, Ukraine

Keywords:

topologoeskergetichesky method, energy saving, heat exchanger, physical and technological system.

Abstract

The features of the system topologoeksergeticheskogo method solutions for energy saving and environmental objectives. The possibilities of being developed topologoeksergeticheskogo method for the analysis of the thermodynamic the effectiveness of physical and technological systems on the example of the analysis of the heat exchanger which can be used in thermal power generation.

Author Biographies

Е. E. Strezhekurov, Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine

Cand. Sc. (Tech.), Associate Prof., Department of Electrical Engineering and Electromechanics

V. A. Shalomov, State Higher Education Establishment “Pridneprovsk State Academy of Civil Engineering and Architecture”, 24-A, Chernishevskogo st., Dnipropetrovsk 49600, Ukraine

Cand. Sc. (Tech.), Associate Prof., Department of Life Safety

О. A. Vergun, State Higher Education Establishment “Pridneprovsk State Academy of Civil Engineering and Architecture”, 24-A, Chernishevskogo st., Dnipropetrovsk 49600, Ukraine

Cand. Sc. (Tech.), Associate Prof., Department of Ecology and Environmental Protection

І. S. Dolgopolov, Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine

Cand. Sc. (Tech.), Associate Prof., Heat Power Engineering Department

Е. D. Khmelnitsky, Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine

Cand. Sc. (Tech.), Associate Prof., Department of Electrical Engineering and Electromechanics

L. О. Sovgir, Dneprodzerzhinsk State Technical University, st. Dneprostroevskaya 2, 51918, Dneprodzerzhinsk, Ukraine

student

References

Кафаров В. В., Дорохов И. Н. Системный анализ процессов химической технологии. Основы стратегии. - М.: Наука, 1976. - 500 с.

Бродянский В. М., Фратшер В., Михалек К., Эксергетический метод и его приложения. - М.: Энергоатомиздат, 1988 - 288 с.

Долгополов И. С., Тучин В. Т. Обобщенная эксергодиссипативная функция как основа топологоэксергетического подхода анализа физикотехнологических систем. Металлургическая теплотехника. Сборник научных трудов Национальной металлургической академии Украины. - Днепропетровск: НМетАУ, т.5, 2002, С.67-71.

Братута Э. Г., Долгополов И. С., Тучин В. Т. Топологоэксергетический подход к оценке энергозатрат в физико-технологических системах // Інтегровані технології та енергозбереження, 2003, №4, С.20-27.

Долгополов И. С. Пластинчатый теплообменник для подогрева воздуха // Промышленная энергетика №7. 2000 С.32-34.

Published

2013-10-17

Issue

Section

Life Safety