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Анотація
To improve the mechanical design of the piston Stirling gas refrigeration machine the structural optimization of rotary vane Stirling gas refrigeration machine is carried out. This paper presents the results of theoretical research. Analysis and prospects of rotary vane Stirling gas refrigeration machine for domestic and industrial refrigeration purpose are represented. The results of a patent search by mechanisms of transformation of rotary vane machines are discussed.
Ключові слова:
Stirling gas refrigerating machine – Rotary-vane machine – Conversion mechanism – Mass and size characteristics
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Як цитувати
Trandafilov, V., Khmelniuk, M., Ostapenko, A., & Yakovleva, O. (2016). THE STIRLING GAS REFRIGERATING MACHINE MECHANICAL DESIGN IMPROVING. Refrigeration Engineering and Technology, 52(1). https://doi.org/10.21691/ret.v52i1.34
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ХОЛОДИЛЬНА ТЕХНІКА
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REFERENCES
1. Trandafilov V. V., Yakovleva O. Y., Khmel-niuk M.G. 2015. Medium-temperature Stirling refrige-ration system trends. Refrigeration engineering and tech-nology, 51(3), 26-33.
doi: 10.15673/0453-8307.3/2015.38075
2. Kolomin I. V. e.a. 2009. Rotor-vane compressor with working chambers contactless condensation optimizations variants. Vestnik SSAU, No 3.
3. Grinev D. V. 2014. Constructive schemes and princi-ples of operation of the rotor-blade machines. Vestnik Pskov SU, No 5.
4. Lukjanov Ju. N., е.а. Mechanism for movement transformation Patent. RU No. 2374526, 2009.
5. Grinev D. V. 2013. About variation of the angle be-tween the levers of the cam-and-lever mechanism. Vestnik Pskov SU, No 2.
6. Sosin S. S. Movement conversion mechanism. Patent RU No 2531854, 2014.
7. Kolomin I. V., Krasnochub E. K. 2010. Rotor-Vane Cryogenic Cooling Machine Investigations. Journal Polet. No 4.
1. Trandafilov V. V., Yakovleva O. Y., Khmel-niuk M.G. 2015. Medium-temperature Stirling refrige-ration system trends. Refrigeration engineering and tech-nology, 51(3), 26-33.
doi: 10.15673/0453-8307.3/2015.38075
2. Kolomin I. V. e.a. 2009. Rotor-vane compressor with working chambers contactless condensation optimizations variants. Vestnik SSAU, No 3.
3. Grinev D. V. 2014. Constructive schemes and princi-ples of operation of the rotor-blade machines. Vestnik Pskov SU, No 5.
4. Lukjanov Ju. N., е.а. Mechanism for movement transformation Patent. RU No. 2374526, 2009.
5. Grinev D. V. 2013. About variation of the angle be-tween the levers of the cam-and-lever mechanism. Vestnik Pskov SU, No 2.
6. Sosin S. S. Movement conversion mechanism. Patent RU No 2531854, 2014.
7. Kolomin I. V., Krasnochub E. K. 2010. Rotor-Vane Cryogenic Cooling Machine Investigations. Journal Polet. No 4.