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ISI BORULU KOLLEKTÖR KULLANAN GÜNEŞ ENERJİLİ BİR PİŞİRİCİNİN DENEYSEL OLARAK ARAŞTIRILMASI

EXPERIMENTAL INVESTIGATION OF A SOLAR COOKER USING COLLECTOR WITH HEAT PIPES

Journal Name:

  • Sigma Mühendislik ve Fen Bilimleri Dergisi

Publication Year:

  • 2005

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
In this study, a solar cooker coupled vacuum-tube collector with integrated heat pipes was constructed and tested experimentally. The heat pipes made of copper were filled with a refrigerant as the heat transfer fluid of the solar collector. The refrigerant studied were Freon 404A and Freon 410A. The experiments were performed on several clear days in Elazığ, and the experimental results recorded on days having similar meteorological conditions were presented here to evaluate the performance of the cooker. The solar radiation, ambient temperature, and temperatures at various points of the cooker system were measured. The different foods were cooked with the cooker in 25-73 min periods.
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Abstract (Original Language): 
Bu çalışmada, ısı borularından oluşan iç içe cam borulu düzlem bir güneş kollektörüne bağlı bir güneş enerjili pişirici imal edilerek deneysel olarak test edilmiştir. Bakır ısı boruları, kollektör ısı geçiş akışkanı olarak bir soğutucu akışkanla doldurulmuştur. Soğutucu akışkanlar olarak Freon 404A ve Freon 410A çalışıldı. Deneyler Elazığ’da güneşli günlerde gerçekleştirilmiş ve bu çalışmada pişiricinin performansını değerlendirmek için benzer meteorolojik şartlara sahip günlerde kaydedilen deneysel sonuçlar sunulmuştur. Güneşışınımı, çevre hava sıcaklığı ve pişirici sisteminin çeşitli noktalarındaki sıcaklıklar ölçülmüştür. Pişirici ile değişik yiyecekler 25 ile 73 dakika arasında pişirilmiştir.
FULL TEXT (PDF): 
PDF icon arastrmx_845_23_pp_114-122.pdf
  • 1
114-122
  • Turkish

REFERENCES

References: 

[1] Tucker M., “Can Solar Cooking Save the Forests?”, Ecological Economics, 31, 77-89,
1999.
[2] Mullick S.C., Kandpal T.C, Saxena A.K., “Thermal Test Procedure for Box Type Solar
Cooker”, Solar Energy, 39, 353-360, 1987.
[3] Nahar N.M., “Performance and Testing of an Improved Hot Box Solar Cooker”, Energy
Conversion and Management, 30, 1, 9-16, 1990.
[4] Grupp M., Montagne P., Wackennagel M., “A Novel Advanced Box Type Solar Cooker”,
Solar Energy, 47, 2, 107-113, 1991.
[5] Thulasi Das T.C., Karmakar S., Rao D.P. “Solar Box Cooker: Part II. Analysis and
Simulation”, Solar Energy, 52, 265-272, 1994.
[6] Buddhi D., Sharma S.D., Sawhney R.L., “Performance Test of a Box Type Solar Cooker:
Effect of Load on the Second Figure of Merit”, International Journal of Energy Research,
23, 827-830, 1999.
[7] Suharta H., Sayigh A.M., Abdullah K., et al., “The Comparison of Three Types of
Indonesian Solar Box Cookers”, Renewable Energy, 22, 379-387, 2001.
[8] El-Sebail A.A, Dommanski R., Jaworski M., “Experimental and Theoretical Investigation
of Box-Type Solar Cooker with Multi-Step inner Reflectors”, Energy, 19, 10, 1011-1021,
1994.
[9] Ekechukwu O.V., Ugwuoke N.T., “Design and Measured Performance of a Plane
Reflector Augmented Box-Type Solar-Energy Cooker”, Renewable Energy, 28, 1935-
1952, 2003.
[10] Algifri A.H., Al-Towaie H.A., Effıcient Orientatıon Impacts of Box-Type Solar Cooker
on the Cooker Performance, Solar Energy, 70, 2, 165-170, 2001.
[11] Oturanç G., Özbalta N., Güngör A., “Performance Analysis of a Solar Cooker in Turkey”,
International Journal of Energy Research, 26, 105-111, 2002.
[12] Sharma S.D., Buddhi D., Sawhney R.L., et al., “Design, Development and Performance
Evaluation of a Latent Heat Storage Unit for Evening Cooking in a Solar Cooker”, Energy
Conversion and Management, 41, 1497-1508, 2000.
[13] Buddhi D., Sharma S.D., Sharma A., “Thermal Performance Evaluation of a Latent Heat
Storage Unit for Late Evening Cooking in a Solar Cooker Having Three Reflector”,
Energy Conversion and Management, 44, 809-817, 2003.
[14] Schwarzer K. , Eugenia M., Silva V., “Solar Cooking System with or without Heat
Storage for Families and Institutions”, Solar Energy, 75, 35-41, 2003.
[15] Khalifa, A.M.A., Taha M.M.A., Akyurt M., “Design, Simulation, and Testing of a New
Concentrating Type Solar Cooker”, Solar Energy, 38, 2, 79-88, 1987.
[16] Mullick S.C., Kandpal T.C., Kumar S., “Thermal Test Procedure for a Parabolic
Concentrator Solar Cooker”, Solar Energy 46, 3, 139-144, 1991.
[17] Abou-Ziyan H. Z., “Experimental Investigation of Tracking Paraboloid and Box Solar
Cookers under Egyptian Environment”, Applied Thermal Engineering, 18, 1375-1394,
1998.
[18] Patel N.V., Philip S.K., “Performance Evaluation of Three Solar Concentrating Cookers”,
Renewable Energy, 20, 347-355, 2000.
[19] Sonune A.V., Philip S.K., “Development of a Domestic Concentrating Cooker”,
Renewable Energy, 28, 1225-1234, 2003.
[20] Khalifa A.M.A., Taha M.M.A., Akyurt M., “Solar Cookers for Outdoors and Indoors”,
Energy, 10, 7, 819-829, 1985.
[21] Khalifa A.M.A., Taha M.M.A., Mannaa A., et al., “A Split-System Solar Cooker with
Heat Pipes”, Energy Conversion and Management, 26, 2, 259-264, 1986.
[22] Balzar A., Stumpf P., Eckhoff S., et al., “A Solar Cooker Using Vacuum-Tube Collectors
with Integrated Heat Pipes”, Solar Energy, 58 (1-3), 63-68, 1996.
[23] Stumpf P., Balzar A., Eisenmann W., et al., “Comparative Measurements and Theoretical
Modelling of Single- and Double-Stage Heat Pipe Coupled Solar Cooking Systems for
High Temperatures”, Solar Energy, 71, 1, 1-10, 2001.
[24] Kumar R., Adhikari R.S., Garg H.P, et al., “Thermal Performance of a Solar Pressure
Cooker Based on Evacuated Tube Solar Collector”, Applied Thermal Engineering, 21,
1699-1706, 2001.
[25] Esen M., “Thermal Performance of a Solar Cooker Integrated Vacuum-Tube Collector
with Heat Pipes Containing Different Refrigerants”, Solar Energy, 76, 751-757, 2004.
[26] Funk P.A., “Evaluating the International Standard Procedure for Testing Solar Cookers
and Reporting Performance”, Solar Energy, 68, 1, 1-7, 2000.

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