Abstract
Bu çalışma,
endüstriyel uygulamalar için ısı değiştirici ısıl tasarımlarının pratik yönünü
ele almaktadır. Genel olarak bir ısı değiştirici tasarımı, kendine has
özelliklere sahip özel bir endüstriyel uygulama için yapılmaktadır. Endüstriyel
uygulamaların kendine has bu özellikleri, ısı değiştirici tasarım aşamasında
bazı sınırlamaları ve problemleri ortaya çıkartmaktadır. Isı değiştirici
tasarımının başlıca amacı, bu sınırlamaları ve problemleri ortadan
kaldırmaktır. Yeni veya var olan bir ısı değiştiricinin ısıl performansının
belirlenmesi, endüstride sıklıkla karşılaşılan bir durumdur. Isı
değiştiricilerin ısı aktarım performansının belirlenmesi temelde ısı
değiştiricilerin ısıl tasarımı olarak tanımlanabilmektedir ve bu süreç
hesaplamaya dayanan bir süreçtir. Isıl tasarım metodolojisinin temellerini
ayrıntılı olarak bilmek, verimli ve maliyet etkin bir endüstriyel sistem ortaya
koymak açısından önem arz etmektedir. Bu kapsamda, bu çalışmada ısı
değiştiricilerin ısıl tasarımları üzerinde durulmuştur. Ayrıntılı hesaplama
yöntemleri ile bu çalışma, ısı değiştiricilerin ısıl performanslarının
belirlenmesi için çeşitli tasarım yaklaşımları hakkında bilgi sunmaktadır.
References
- [1] Gupta JP. Working With Heat Exchangers: Questions and Answers. USA: Hemisphere Pub. Corp; 1986.
- [2] Theodore L. Heat Transfer Applications for the Practicing Engineer. Canada: John Wiley & Sons, Inc; 2011. [3] Nagengast. “An Early History of Comfort Heating 2001”. http://www.achrnews.com/articles/87035-an-early-history-of-comfort-heating#comments (6.11.2011).
- [4] Gulben G. Development of a computer program for desıgnıng-Gasketed plate heat exchangers for varıous workıng condıtıons and verıfıcatıon of the computer program wıth experımental data (in Turkish). MSc thesis TOBB Economics and Technology University, Ankara, Turkey. 2011.
- [5] Saari J. Heat Exchanger Dimensioning. Lappeeranta University of Technology, LUT Energy.2001
- [6] Puttewar AS, Andhare AM. Design and thermal evaluation of shell and helical coil heat exchanger. International Journal of Research in Engineering and Technology, 416–23, 2015
- [7] Shah RK, Sekulic DP. Fundamentals of Heat Exchanger Design. New York: John Wiley and Sons; 2003.
- [8] ASHRAE. ASHRAE Handbook—HVAC Systems and Equipment. 2008.
- [9] Kaçar EN, Erbay LB. A design review for heat exchangers. Engineer and Machinery, 54:14–43, 2013.
- [10] Thulukkanam K. Heat Exchanger Design Handbook. 2. ed. Boca Raton, USA: CRC Press LLC; 2013.
- [11] Schltinder EU. Heat Exchanger Design Handbook. USA: Hemisphere Publishing Corporation; 1983.
- [12] Roetzel W, Heggs PJ, Butterworth D. Design and Operation of Heat Exchangers. EUROTHERM, Springer; 1991.
- [13] Akkoca A. Computational modeling of turbulent heat transfer in plate fin and tube heat exchangers. PhD thesis. Çukuroava University, Adana, Turkey. 2004.
- [14] Koca T. Analysis of heat transfer and pressure loss in heat exchangers with both helical and rotational inner pipe (in Turkish). PhD thesis. Fırat University, Elaziğ, Turkey. 2007.
- [15] Yakar G. The effect of turbulence created in fin-tube type heat exchangers with perforated fin on heat transfer and pressure drop (in Turkish). PhD thesis, Pamukkale University, Denizli, Turkey. 2007.
- [16] Khaled ARA, Siddique M, Abdulhafiz NI, Boukhary AY. Recent advances in heat transfer enhancements: A review report. International Journal of Chemical Engineering. 28p, 2010.
- [17] Baysal E. Experimental and numerical investigation of effects of helical turbulators in concentric tube heat exchangers (in Turkish). PhD thesis. Gazi University, Ankara, Turkey. 2009.
Abstract
The present study
illustrates certain practical aspect of thermal design of heat exchangers for
industrial applications. In general heat exchanger design is made for a special
industrial application with its own features. These features of the industrial
applications introduce some limitations and problems in the design procedure of
heat exchanger. Main purpose of heat exchanger design is to provide solutions
to these limitations and problems. Determination of thermal performance of new
or existing heat exchanger is the problem commonly encountered in industry.
Determination of the heat transfer performance of heat exchangers can be
basically defined thermal design of the heat exchanger and is the computational
process. Recognizing of basics of thermal design methodology in detail is of
great importance in heat exchanger design with regard to making versatile and
cost-effective industrial applications. In this respect, the basics of thermal
design heat exchangers has been accentuated in this study. With the detailed
calculation procedure, the paper provide information about various design
approach to define thermal performance of heat exchangers.
References
- [1] Gupta JP. Working With Heat Exchangers: Questions and Answers. USA: Hemisphere Pub. Corp; 1986.
- [2] Theodore L. Heat Transfer Applications for the Practicing Engineer. Canada: John Wiley & Sons, Inc; 2011. [3] Nagengast. “An Early History of Comfort Heating 2001”. http://www.achrnews.com/articles/87035-an-early-history-of-comfort-heating#comments (6.11.2011).
- [4] Gulben G. Development of a computer program for desıgnıng-Gasketed plate heat exchangers for varıous workıng condıtıons and verıfıcatıon of the computer program wıth experımental data (in Turkish). MSc thesis TOBB Economics and Technology University, Ankara, Turkey. 2011.
- [5] Saari J. Heat Exchanger Dimensioning. Lappeeranta University of Technology, LUT Energy.2001
- [6] Puttewar AS, Andhare AM. Design and thermal evaluation of shell and helical coil heat exchanger. International Journal of Research in Engineering and Technology, 416–23, 2015
- [7] Shah RK, Sekulic DP. Fundamentals of Heat Exchanger Design. New York: John Wiley and Sons; 2003.
- [8] ASHRAE. ASHRAE Handbook—HVAC Systems and Equipment. 2008.
- [9] Kaçar EN, Erbay LB. A design review for heat exchangers. Engineer and Machinery, 54:14–43, 2013.
- [10] Thulukkanam K. Heat Exchanger Design Handbook. 2. ed. Boca Raton, USA: CRC Press LLC; 2013.
- [11] Schltinder EU. Heat Exchanger Design Handbook. USA: Hemisphere Publishing Corporation; 1983.
- [12] Roetzel W, Heggs PJ, Butterworth D. Design and Operation of Heat Exchangers. EUROTHERM, Springer; 1991.
- [13] Akkoca A. Computational modeling of turbulent heat transfer in plate fin and tube heat exchangers. PhD thesis. Çukuroava University, Adana, Turkey. 2004.
- [14] Koca T. Analysis of heat transfer and pressure loss in heat exchangers with both helical and rotational inner pipe (in Turkish). PhD thesis. Fırat University, Elaziğ, Turkey. 2007.
- [15] Yakar G. The effect of turbulence created in fin-tube type heat exchangers with perforated fin on heat transfer and pressure drop (in Turkish). PhD thesis, Pamukkale University, Denizli, Turkey. 2007.
- [16] Khaled ARA, Siddique M, Abdulhafiz NI, Boukhary AY. Recent advances in heat transfer enhancements: A review report. International Journal of Chemical Engineering. 28p, 2010.
- [17] Baysal E. Experimental and numerical investigation of effects of helical turbulators in concentric tube heat exchangers (in Turkish). PhD thesis. Gazi University, Ankara, Turkey. 2009.
Details
| Journal Section | 24. Sayı Cilt II |
|---|---|
| Authors | |
| Publication Date | December 30, 2017 |
| Submission Date | November 1, 2017 |
| Published in Issue | Year 2017 Volume: 2 Issue: 24 |
