A framework for developing educational software using the Visual Basic (VB) programming language for designing shell-and-tube heat exchangers (based on Kern and Bell–Delaware methods) is presented in this study. Simulation values from the software have been validated using manual calculations and compared with those from related software (HEXTRAN).
TanF. L.FokS. C., ‘An educational computer-aided tool for heat exchanger design’, Computer Applications in Engineering Education, 14 (2006), 77–89.
3.
LeongK. C.TohK. C.LeongY. C., ‘Shell and tube heat exchanger design software for educational applications’, Int. J. Engineering Education, 14 (1998), 217–224.
4.
LonaL. M. F.FernandesF. A. N.RoqueM. C.RodriguesS., ‘Developing an educational software for heat exchangers and heat exchanger networks projects’, Computer and Chemical Engineering, 24 (2000), 1247–1251.
5.
CartaxoS. J. M.FernandesF. A. N., ‘Educational software for heat exchanger equipment’, Computer Applications in Engineering Education, 18 (2010), 193–199.
6.
SerthR. W., Process Heat Transfer: Principles and Applications (Elsevier, Oxford, 2007).
7.
BellK. J., Final Report of the Cooperative Research Program on Shell and Tube Heat Exchangers (Bulletin No. 5, University of Delaware Engineering Experimental Station Newark, Delaware, 1963).
8.
KernD. Q., Process Heat Transfer (McGraw Hill, New York, 1950).
9.
TEMA, Standards of the Tubular Exchanger Manufacturing Association, 7th edition (TEMA, New York, 1988).
10.
SinnottR. K., Chemical Engineering Design, Volume 6 (Butterworth–Heinemann, Oxford, 2005).
