American Journal of Engineering Research (AJER)
2014
American Journal of Engineering Research (AJER) e-ISSN : 2320-0847 p-ISSN : 2320-0936 Volume-03, Issue-10, pp-99-109 www.ajer.org Research Paper
Open Access
Design and Development of Shell and Tube Heat Exchanger for Harar Brewery Company Pasteurizer Application (Mechanical and Thermal Design) Dawit Bogale Lecturer in School of Mechanical and Industrial Engineering Bahir Dar Institute of Technology,Bahir Dar, Ethiopia
ABSTRACT: A heat exchanger is a device that is used to transfer thermal energy (enthalpy) between two or more fluids, between a solid surface and a fluid, or between solid particulates and a fluid, at different temperatures and in thermal contact[1].From different types of heat exchangers the shell and tube heat exchangers with straight tubes and single pass is to be under study. Here the redesign takes place because of temperature fluctuation at the 9th zone of the pasteurizer in the Harar Brewery Company. Thermal and mechanical design is run in order to optimize the output temperature of the cold fluid at the last heat exchanger in which it is sprayed on the beer ready for customer use. In thermal design part geometry optimization is done through trial and error. And for Mechanical design part the natural frequency& vortex shedding of different components of heat exchangers are investigated through governing equations of vibrations under dynamic fluid with in tubes. Using computational fluid dynamics (CFD) the heat transfer of the two fluid is investigated using FEM simulation software’s Gambit1.3 and Fluent 6.1and the performance of the STHEx determined in terms of variables such as pressure, temperature, flow rate, energy input/output, mass flow rate and mass transfer rate that are of particular interest in STHEx analysis. KEYWORDS: Enthalpy, Gambit 2.4.6 and Fluent 6.1, Simulation, CFD, STHEx, Pasteurizer
I.
INTRODUCTION
In heat exchangers, there are usually no external heat and work interactions. Typical applications involve heating or cooling of a fluid stream of concern and evaporation or condensation of single- or multicomponent fluid streams. In other applications, the objective may be to recover or reject heat, or sterilize, pasteurize, fractionate, distill, concentrate, crystallize, or control a process fluid. In a few heat exchangers, the fluids exchanging heat are in direct contact. In most heat exchangers, heat transfer between fluids takes place through a separating wall or into and out of a wall in a transient manner. In many heat exchangers, the fluids are separated by a heat transfer surface, and ideally they do not mix or leak[1].But because of vibration induced due to the dynamics of the fluid in the tube there may be linkage in the baffle and the shell wall. The use of the baffles in heat exchangers is to enhance heat transfer through turbulence of the shell side flow and to reduce the vibration (Natural frequency) of the tube. The STHEx under study for this paper is found in Harar Brewery Company at the 9 th zone of the pasteurizer. Here the pasteurizer works in engineering principle’s in order to make the bottles adopt for water with maximum temperature and that of minimum temperature. The detail of the working principle of machine is shown in Figure 1 below. Here for the STHEx in Harar brewery company the two system fluids in which heat is going to be exchanged is water and steam(H2O in gas state). Steam with mass flow rate of 6000kg/hr enters at 1600C shell side in which a cool water at 250C enters the tube side and out at a designed temperature of 35.50C and steam with outlet temperature of shell side at 800C but the problem is the out let temperature of the cold fluid will fluctuates frequently and this result in undesirable test in the beer. Having the above information at hand geometry optimization is run using general thermal equations for STHEx heat transfer Q (heat load), pressure drop across the system and optimum insulation insulation cost is calculated. And geometry optimization is done
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