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Dynamic Simulation of Double Pipe Heat Exchanger using MATLAB simulink

International Journal of Chemical Engineering Research
© 2017 by SSRG - IJCER Journal
Volume 4 Issue 1
Year of Publication : 2017
Authors : Asoka R.G, Aishwarya N, Rajasekar S, Meyyappan N
10.14445/23945370/IJCER-V4I1P102
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How to Cite?

Asoka R.G, Aishwarya N, Rajasekar S, Meyyappan N, "Dynamic Simulation of Double Pipe Heat Exchanger using MATLAB simulink," SSRG International Journal of Chemical Engineering Research, vol. 4,  no. 1, pp. 6-13, 2017. Crossref, https://doi.org/10.14445/23945370/IJCER-V4I1P102

Abstract:

This paper deals with the control dynamics of double-pipe heat exchanger using simulation tool. The transfer function can be taken as first order system plus dead time (FOPDT). The effect of step change in flow rate of hot water is analysed also observed its effect on the temperature of cold water and it was found that the temperature of cold water is increased with respect to the inlet step change. For any system the temperature needs to be accurately regulated to control the downstream processing’s. Steady state and dynamic simulation of a double-pipe heat exchanger, in counter flow arrangement has been studied and the simulation results for step change in hot water flow rate have been discussed.

Keywords:

FOPDT, step change, steady state.

References:

[1] Agniprobho Mazumder, Dr. Bijan Kumar Mandal, “Numerical Modeling and Simulation of a Double Tube Heat Exchanger Adopting a Black Box Approach” Int. Journal of Engineering Research and Applications, ISSN: 2248-9622, Vol. 6, Issue 4, (Part - 2), pp.35-41, April 2016.
[2] Stefano Bracco, Ilka Faccioli, and Michele Troilo, “A Numerical Discretization Method for the Dynamic Simulation of a Double-Pipe Heat Exchanger”, International Journal Of Energy, Issue 3, Vol. 1, 47-58, 2007.
[3] S. Papastratos, A. Isambert, D. Depeyre, “Computerized Optimum Design And Dynamic Simulation Of Heat Exchanger Networks”, European Symposium on Computer Aided Process Engineering-2, S329-S334.
[4] Robert w .Serth, “Process heat transfer principles and applications”, Elsevier science and technology book, 2007
[5] Abdelmessih, A. N., and Bell, K. J., “Effect of Mixed Convection and UB ends on the Design of Double Pipe Heat Exchangers”, Heat Transfer Engineering, vol. 20, no. 3, 1999.
[6] Shaocheng Tong and Han-Xiong Li, “Fuzzy Adaptive Sliding-Mode Control for MIMO Nonlinear Systems”, IEEE Transactions On Fuzzy Systems, Vol. 11, No. 3, June 2003.
[7] D. Mayne, J. Rawlings, C. Rao, and P. Scokaert, Constrained model predictive control: Stability and optimality, Automatica, vol. 36, no. 6, 789–814, June 2000.
[8] K.J. Astrom, T. Hagglund, C.C. Hang and W.K. Ho., “Automatic Tuning and Adaptation for PID Controllers - A Survey”, Control Eng. Practice, Vol. 1, No. 4, pp. 699-714, 1993.
[9] M. A. Mehrabian, M. Hemmat, "The overall heat transfer characteristics of a double pipe heat exchanger: comparison of experimental data with predictions of standard correlations, Transactions on Modelling and Simulation”, vol. 30, 2001.