HEAT TRANSFER INTENSITY AS THE FACTOR DETERMINING CHARACTERISTICS OF THERMOACOUSTIC HEAT MACHINE

  • V. V. Korobko Національний університет кораблебудування ім. ад. Макарова, м. Миколаїв
  • A. A. Moskovko Національний університет кораблебудування ім. ад. Макарова, м. Миколаїв
Keywords: thermoacoustic, finite time thermodynamics, heat transfer, heat machine, engine

Abstract

The article discusses the ways of thermoacoustic heat engines (TAHE) usage. The prospects of their application for low-temperature heat resources, provides an overview of the existing theoretical models. Heat transfer in TAHE is the only mechanism for supply of heat to the working fluid and the conversion of thermal energy into mechanical work. It is shown that these models do not consider the process of supplying thermal energy to the working fluid and do not consider the existing mechanisms of heat transfer between TAHE elements. Methods of optimization thermodynamics (OT) can eliminate these disadvantages and take into account the features of heat transfer in pulsating flows. With these approaches, the factors determining the effectiveness of a thermoacoustic engine (TAE) are analyzed. This approach made it possible to obtain an explicit dependence linking the main characteristics of the TAE with heat exchangers characteristics. Article shows a direct impact on the intensity of heat transfer characteristics on the external TAHE characteristics. The article analyzes the results of experimental TAE studies. Using the approaches of OT authors determine the ways of future research.

References

Swift G. W. Thermoacoustic : A unifying perspective for some engines and refrigerators / G. W. Swift // American Institute of Physics. – 2002. – 300 p.

Swift G. W. Thermoacoustic Engines / G.W. Swift // Journal of the Acoustical Society of America. – Vol. 84, No. 4. – 1988. – P. 1145-1180.

Wu C. Effect of heat transfer law on finite time exergoeconomic performance of heat engines / C. Wu, L. Chen, F. Sun // Energy, The Int. J.. – vol. 21(12). – 1996. – P. 1127-1134.

Коробко В. В. Исследование процессов теплообмена и гидродинамики в элементах термоакустических двигателей / В. В. Коробко // Авиационно-космическая техника и технологии. – 2013. – № 8 (105).– С. 123-130.

Коробко В. В. Особливості запуску термоакустичних двигунів за умов використання низькопотенційних джерел теплової енергії / В. В. Коробко, О. О. Московко // Матеріали ІV науково-практичної конференції «Сучасні енергетичні установки на транспорті, технології та обладнання для їх обслуговування». – Херсон : ХДМА, 2013. – C. 111-115.

Kondratenko Y. Distributed Сomputer System for Monitoring and Control of Thermoacoustic Processes [Text] / Y. Kondratenko, V. Korobko, O. Korobko // Proceedings of the 7th IEEE int. conf. IDAACS’2013. – Berlin, Germany, 12-14 September 2013. – Vol. 1. – P. 249-253.

F.Wu. Optimization of a Thermoacoustic Engine with a Complex Heat Transfer Exponent / F. Wu, C. Wu, F.Guo, Q. Li, L. Chen. // The Int. J. Entropy. – 2003. – P. 444-451

Published
2014-08-26