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FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ

Year 2005, Volume: 20 Issue: 2, 0 - , 10.04.2013

Can Çınar Atilla Koca Halit Karabulut

Abstract

Bu çalışmada, gama tipi bir Stirling motorunda çalışma gazı olarak hava, argon ve helyum kullanılarak performans testleri yapılmıştır. Motor, 700, 800, 900 ve 1000 °C ısıtıcı sıcaklıklarında ve 1, 1,5, 2, 2,5, 3, 3,5, 4 ve 4,5 bar şarj basınçlarında test edilmiştir. Deneylerde motor gücünün şarj basıncı, motor devri, ısıtıcı sıcaklığı ve çalışma gazına bağlı olarak değişimleri incelenmiştir. Motorda maksimum çıkış gücü helyum gazı kullanı­larak, 4 bar şarj basıncında ve 1000 °C ısıtıcı sıcaklığında 893 d/d motor devrinde, 128 W olarak elde edilmiştir.

Keywords

Stirling motoru çalışma gazı motor performansı.

References

  • Yuan, Z.S., Oscillatory Flow and Heat Transfer in a Stirling Engine Regenerator, PhD Thesis, Department of Mechanical and Aerospace Engineering, Case Western Reserve University, May, 1993.
  • Walker, G., “Stirling Engines”, Oxford University Press, United States, 1980.
  • Al-Hazmy, M.M., A Computational Model for Resonantly Coupled Alpha Free-Piston Stirling Coolers, PhD Thesis, Oregon State University, September, 24, 1998.
  • Michels, W.R., “Stirling Engine Design Manual”, US Department of Energy, DOE/NASA/3152-78/1, NASA CR-135182, April 1978.
  • Michels, A.P.J., “The Philips Stirling Engine: A Study its Efficiency As a Function of Operating Temperatures and Working Fluids”, 769258, 11th IECEC Sahara Tahoe Hotel, Statline, Nevada, September 12-17, 1976.
  • Scott, S.J., Holcomb, F.H. ve Josefik, N.M., “Distributed Electrical Power Generation: Summary of Alternative Available Technologies”, ERDC/CERL SR-03-18, U.S. Army Corps of Engineers, Washington, DC 20314-1000, September 2003.
  • Kongtragool, B. ve Wongwises, S., “A Review of Solar-Powered Stirling Engines and Low Temperature Differential Stirling Engines”, Renewable and Sustainable Energy Reviews, Volume 7, Issue 2, 131-154, 2003.
  • Tsoutsos, T., Gekas, V. ve Marketaki, K., “Technical and Economical Evaluation of Solar Thermal Power Generation”, Renewable Energy, Volume 28, Isue 6, 873-886, 2003.
  • Gupta R.K, Deshpande A.M. ve Brave K.M., Development of 1 kW Solar Powered Reciprocating Engine for Rural Applications, International Solar Energy Congress, New Delhi, p. 2016–20, 1978.
  • Podesser E., “Electricity Production in Rural Villages with Biomass Stirling Engine”, Renewable Energy, Volume 16, Issue 1-4, 1049-1052, 1999.
  • Trayser, D.A. ve Eibling, J. A., “A 50-Watt Portable Generator Employing A Solar Powered Stirling Engine”, Solar Energy, Volume 11, Issues 3-4, 153-159, 1967.
  • Pearch, J.M., Zahaw, B.A., Auckland, D.W. ve Starr, F., “Electricity Generation in the Home: Evaluation of a Single-House Domestic Combined Heat and Power”, IEEE Proc-A, 143:345-50, 1996.

Year 2005, Volume: 20 Issue: 2, 0 - , 10.04.2013

Can Çınar Atilla Koca Halit Karabulut

Abstract

References

  • Yuan, Z.S., Oscillatory Flow and Heat Transfer in a Stirling Engine Regenerator, PhD Thesis, Department of Mechanical and Aerospace Engineering, Case Western Reserve University, May, 1993.
  • Walker, G., “Stirling Engines”, Oxford University Press, United States, 1980.
  • Al-Hazmy, M.M., A Computational Model for Resonantly Coupled Alpha Free-Piston Stirling Coolers, PhD Thesis, Oregon State University, September, 24, 1998.
  • Michels, W.R., “Stirling Engine Design Manual”, US Department of Energy, DOE/NASA/3152-78/1, NASA CR-135182, April 1978.
  • Michels, A.P.J., “The Philips Stirling Engine: A Study its Efficiency As a Function of Operating Temperatures and Working Fluids”, 769258, 11th IECEC Sahara Tahoe Hotel, Statline, Nevada, September 12-17, 1976.
  • Scott, S.J., Holcomb, F.H. ve Josefik, N.M., “Distributed Electrical Power Generation: Summary of Alternative Available Technologies”, ERDC/CERL SR-03-18, U.S. Army Corps of Engineers, Washington, DC 20314-1000, September 2003.
  • Kongtragool, B. ve Wongwises, S., “A Review of Solar-Powered Stirling Engines and Low Temperature Differential Stirling Engines”, Renewable and Sustainable Energy Reviews, Volume 7, Issue 2, 131-154, 2003.
  • Tsoutsos, T., Gekas, V. ve Marketaki, K., “Technical and Economical Evaluation of Solar Thermal Power Generation”, Renewable Energy, Volume 28, Isue 6, 873-886, 2003.
  • Gupta R.K, Deshpande A.M. ve Brave K.M., Development of 1 kW Solar Powered Reciprocating Engine for Rural Applications, International Solar Energy Congress, New Delhi, p. 2016–20, 1978.
  • Podesser E., “Electricity Production in Rural Villages with Biomass Stirling Engine”, Renewable Energy, Volume 16, Issue 1-4, 1049-1052, 1999.
  • Trayser, D.A. ve Eibling, J. A., “A 50-Watt Portable Generator Employing A Solar Powered Stirling Engine”, Solar Energy, Volume 11, Issues 3-4, 153-159, 1967.
  • Pearch, J.M., Zahaw, B.A., Auckland, D.W. ve Starr, F., “Electricity Generation in the Home: Evaluation of a Single-House Domestic Combined Heat and Power”, IEEE Proc-A, 143:345-50, 1996.
There are 12 citations in total.

Details

Primary Language Turkish
Journal Section Makaleler
Authors

Can Çınar This is me

Atilla Koca This is me

Halit Karabulut This is me

Publication Date April 10, 2013
Submission Date April 10, 2013
Published in Issue Year 2005 Volume: 20 Issue: 2

Cite

APA Çınar, C., Koca, A., & Karabulut, H. (2013). FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 20(2).
AMA Çınar C, Koca A, Karabulut H. FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ. GUMMFD. March 2013;20(2).
Chicago Çınar, Can, Atilla Koca, and Halit Karabulut. “FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 20, no. 2 (March 2013).
EndNote Çınar C, Koca A, Karabulut H (March 1, 2013) FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 20 2
IEEE C. Çınar, A. Koca, and H. Karabulut, “FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ”, GUMMFD, vol. 20, no. 2, 2013.
ISNAD Çınar, Can et al. “FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 20/2 (March 2013).
JAMA Çınar C, Koca A, Karabulut H. FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ. GUMMFD. 2013;20.
MLA Çınar, Can et al. “FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, vol. 20, no. 2, 2013.
Vancouver Çınar C, Koca A, Karabulut H. FARKLI ÇALIŞMA GAZLARININ STIRLING MOTORUNUN PERFORMANSINA ETKİLERİNİN DENEYSEL OLARAK İNCELENMESİ. GUMMFD. 2013;20(2).