Design and Development of Shell & Tube Heat Exchanger for Beverage

Shravan H. Gawande; Sunil D. Wankhede; Rahul N. Yerrawar; Vaishali J. Sonawane; Umesh B. Ubarhande

doi:10.4236/mme.2012.24015

Modern Mechanical Engineering > Vol.2 No.4, November 2012

Design and Development of Shell & Tube Heat Exchanger for Beverage

Shravan H. Gawande, Sunil D. Wankhede, Rahul N. Yerrawar, Vaishali J. Sonawane, Umesh B. Ubarhande
Department of Mechanical Engineering, M. E. Society’s College of Engineering, Pune, India.
Dy. Manager, PEM Design (R&D), Alfa Laval (India) Ltd., Pune, India.
DOI: 10.4236/mme.2012.24015 PDF HTML 32,847 Downloads 56,853 Views Citations

Abstract

In the first part of this paper, a simplified approach to design a Shell & Tube Heat Exchanger [STHE] for beverage and process industry application is presented. The design of STHE includes thermal design and mechanical design. The thermal design of STHE involves evaluation of required effective surface area (i.e. number of tubes) and finding out log mean temperature difference [LMTD]. Whereas, the mechanical design includes the design of main shell under internal & external pressure, tube design, baffles design gasket, etc. The design was carried out by referring ASME/TEMA standards, available at the company. The complete design, fabrication, testing and analysis work was carried out at Alfa Laval (India), Ltd., Pune-12. In the second part of this paper detail view of design optimization is presented by flow induced vibration analysis [FVA].

Keywords

Heat Exchanger; LMTD, TEMA, HTRI

Share and Cite:

S. Gawande, S. Wankhede, R. Yerrawar, V. Sonawane and U. Ubarhande, "Design and Development of Shell & Tube Heat Exchanger for Beverage," Modern Mechanical Engineering, Vol. 2 No. 4, 2012, pp. 121-125. doi: 10.4236/mme.2012.24015.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	TEMA, “Standards of the Tubular Exchanger Manufacturer’s Association [TEMA],” 8th Edition, Section 1-5, 7-10, Tubular Exchanger Manufacturers Association, Inc., New York, 1999.
[2]	ASME Section II, “For Material Specifications,” 2004.
[3]	ASME Section V, “For Non-Destructive Examination,” 2004.
[4]	ASME Section VIII, Division I, “Rules for Construction of Pressure Vessels,” 2007.
[5]	ASME Section IX, “For Welding & Brazing Qualifications,” 2004.
[6]	Wolverine, “Wolverine Tube Heat Transfer Data Book,” 2nd Edition, Wolverine Tube Inc., Decatur, pp. 60-71, 85-95, 1984.
[7]	Dennis R. Moss, “Pressure Vessel Design Manual,” 3rd Edition, Chapter 1-4, Elsevier, Amsterdam, 2003.
[8]	R. K. Shah, “Fundamentals of Heat Exchanger Design,” 2nd Edition, Chapter 1-5, Wiley, Hoboken, 2003. doi:10.1002/9780470172605
[9]	R. Mukherjee, “Practical Thermal Design of Shell and Heat Exchangers,” 2nd Edition, Chapter 1-5, 8, Begell House, Redding, 2004.
[10]	S. T. M. Than, “Heat Exchanger Design,” World Academy of Science, Engineering and Technology, Vol. 46, pp. 604-611, 2008.

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