- Abd-Elhady, M.S., Rindt, C.C. M., and Van Steenhoven, A.A. “Influence of the Apex Angle of Cone-Shaped Tubes on Particulate Fouling of Heat Exchangers”, J. Heat Transfer Eng., Vol. 32, No's. 3-4, pp. 272-281, 2011.
- Bouris, D., Konstantinidis, E., Balabani, S., Castiglia, D., and Bergeles, G. “Design of a Novel Intensified Heat Exchanger for Reduced Fouling Rates”, ASME, Int. J. Heat Mass Transfer. Vol. 48, pp. 3817-3832, 2003.
- Zhang, G., Bott, T.R., and Bemrose, C.R. “Reducing Particle Deposition in Air-Cooled Heat Exchangers”, J. Heat Transfer Eng. Vol 13, pp. 81-87, 1992.
- Rocha, L.A.O., Saboya, F.E.M., and Vagas, J. V.C. “A Comparative Study of Elliptical and Circular Sections in One and Two-row Tubes and Plate Fin Heat Exchangers”, Int. J. Heat and Fluid Flow, Vol. 18, No. 2, pp. 247-252, 1997.
- Paul, S. S., Ormiston, S.J., and Tachie, M.F. “Experimental and Numerical Investigation of Turbulent Crossflow in a Staggered Tube Bundle”, Int. J. Heat Fluid Flow, Vol. 29, pp. 387-414, 2008.
- Ibrahim, T.A., and Gomaa, A. “Thermal Performance Criteria of Elliptic tube Boundle in Crossflow”, Int. J. Therm Sci. Vol. 48, pp. 2148-2158, 2009.
- Walmsley, T.G., Walmsley, M.R.W., M.J. Atkins, M.J., Hoffman-Vocke, J., and Neale, J.R. “Numerical Performance Comparison of Different Tube Crosssections for Heat Recovery from Particle-laden Exhaust Gas Streams”, Procedia Engineer., Vol. 42, pp. 1351-1364, 2012.
- Kawamura, K. and Yasuo, A. “Turbulenc-Induced Vibration of Tube Bundle In Cross and Parallel Jet Mixed Flow”, Int. J. Pressure Vessel Tech. Vol. 111, No. 4, pp. 352-360, 1989.
- Braza, M., Chassing, P., and Haminh, H. “Prediction of Large-Scale Transition Features in the Wake of the Circular Cylinder”, J. Phys. Fluids. Vol. 2, pp. 1461-1471, 1990.
- Mon, M.S. and Gross, U. “Numerical Study of Fin-spacing Effects in Annular-finned Tube Heat Exchangers”, Int. J. Heat Mass Transfer. Vol. 47, pp. 1953–1964, 2004.
- Nemati, H. and Moghimi, M. “Numerical Study of Flow over Annular-Finned Tube Heat Exchangers by Different Turbulent Models”, Int. J. CFD Letters, Vol. 6, No. 3, pp. 101-112. 2014.
- Iacovides, H., Launder, B., and West, A. “A Comparison and Assessment of Approaches for Modelling Flow over In-Line Tube Banks”, Int. J. Heat Fluid Flow, Vol. 49, pp. 69-79, 2014.
- Aiba, S., Tsuchida, H., and Ota, T. “Heat Transfer Around Tubes in In-Line Tube Banks”, Bull. JSME, Vol. 25, pp. 219–926, 1982.
- Mavridou, S.G., and Bouris, D.G. “Numerical Evaluation of a Heat Exchanger with Inline Tubes of Different Size for Reduced Fouling Rates”, Int. J. Heat and Mass Transfer, Vol. 55, pp. 5185-5195, 2012.
- Mavridou, S.G., Konstandinidis, E., and Bouris, D.G. “Experimental Evaluation of Pairs of Inline Tubes of Different Size as Components for Heat Exchanger Tube Bundles”, Int. J. Heat and Mass Transfer, Vol. 90, pp. 280-290, 2015.
- Payan, S., and Imani, F. “Enhancement of Efficiency of Circle Tube Banks Using Change of Shape of Tubes in a Special Row with Turbulent Flow”, Aerodynamic Fluid Mechanics, Vol. 4, No. 2, pp. 11-18, 2016.
- Mohanty, R.L., Swain, A., and Das M.K. “Thermal Performance of Mixed Tube Bundle Composed of Circular and Elliptical Tubes” J. The. Sci. and Eng. Progress, Vol. 5, pp. 492-505, 2018.
- Zukauskas, A. “Heat Transfer from Tubes in Crossflow”, J. Adv. Heat Transfer, Vol. 8, pp. 93-160, 1972.
- Zukauskas, A., and Ulinskas, R. “Heat Transfer in Tube Banks in Crossflow”, Washington, United State, 1987.
- Kays, W.M., and London, A.L. “Compact Heat Exchangers”, McGraw Hill, New York, 1984.
- Colburn, A.P. “A Method of Correlating Forced Convection Heat Transfer Data and a Comparison with Fluid Friction”, J. Trans. Am. Inst. Chem. Eng., Vol. 29, No. 1, pp. 174–210, 1933.
- Mon, M.S. “Numerical Investigation of air-side Heat Transfer and Pressure Drop in Circular finned-tube heat exchangers”, PhD Dissertation, Von der Fakultät für Maschinenbau, Verfahrens- und Energietechnik der Technischen Universität Bergakademie Freiberg, 2003.
- Ward, D.J., and Young, E.H. “Heat Transfer and Pressure Drop of Air in Forced Convection Across Triangular-Pitch Banks of Finned Tubes”, Chem. Eng. Prog., Vol. 54, No. 29, pp. 37-44, 1959.
|