Page 157 - Design and Operation of Heat Exchangers and their Networks
P. 157
144 Design and operation of heat exchangers and their networks
References
Achaichia, A., Cowell, T.A., 1988. Heat transfer and pressure drop characteristics of flat tube
and louvered plate fin surfaces. Exp. Thermal Fluid Sci. 1, 147–157.
Anzelius, A., 1926. € Uber Erw€armung vermittels durchstr€omender Medien. Z. Angew. Math.
Mech. 6 (4), 291–294.
Baclic, B.S., 1989. 1-2N shell-and-tube exchanger effectiveness: a simplified Kraus-Kern
equation. J. Heat Transf. 111, 181–182.
Baclic, B.S., 1990. ε-N tu analysis of complicated flow arrangements. In: Shah, A.K.,
Kraus, A.D., Metzer, D. (Eds.), Compact Heat Exchangers—A Festschrift for A. L. Lon-
don. Hemisphere Publishing, New York, pp. 31–90.
Baclic, B.S., Gvozdenac, D.D., 1981. Exact explicit equations for some two- and three-pass
cross-flow heat exchangers effectiveness. In: Kakac, S., Bergles, A.E., Mayinger, F.
(Eds.), Heat Exchangers—Thermal-Hydraulic Fundamentals and Design. Hemisphere
Publishing Corporation, pp. 481–494.
Baclic, B.S., Heggs, P.J., 1985. On the search for new solutions of the single-pass crossflow
heat exchanger problem. Int. J. Heat Mass Transf. 28 (10), 1965–1976.
Baclic, B.S., Romie, F.E., Herman, C.V., 1988. The Galerkin method for two-pass crossflow
heat exchanger problem. Chem. Eng. Commun. 70, 177–198.
Baird, M.H.I., McCrae, M., Rumford, F., Slesser, C.G.M., 1958. Some considerations on
heat transfer in spiral plate-heat exchangers. Chem. Eng. Sci. 7 (3), 112–115.
Bell, K.J., 1990. Applications of plate-fin heat exchangers in the process industries. In:
Shah, A.K., Kraus, A.D., Metzer, D. (Eds.), Compact Heat Exchangers—A Festschrift
for A. L. London. Hemisphere Publishing, New York, pp. 591–602.
Bes, T., 1978. Eine Methode der thermischen Berechnung von Gegen- und Gleichstrom-
Spiralw€armeaustauschern. W€arme Stoff€ubertragung 21 (5), 301–309.
Bes, T., 2001. Thermal design of spiral heat exchanger. Int. J. Heat Exch. 2, 61–98.
Bes, T., Roetzel, W., 1992a. Approximate theory of spiral heat exchanger. In: Roetzel, W.,
Heggs, P.J., Butterworth, D. (Eds.), Design and Operation of Heat Exchangers.
Springer-Verlag, Berlin, pp. 223–232.
Bes, T., Roetzel, W., 1992b. Distribution of heat flux density in spiral heat exchangers. Int. J.
Heat Mass Transf. 35 (6), 1331–1347.
Bes, T., Roetzel, W., 1993. Thermal theory of the spiral heat exchanger. Int. J. Heat Mass
Transf. 36 (3), 765–773.
Bes, T., Roetzel, W., 1998. Effectiveness of spiral heat exchanger with variable overall heat
transfer coefficient. In: W€armeaustausch und erneuerbare Energiequellen, Tagungsband:
VII Internationales Symposium, Szczecin-Swinoujscie, Technische Universit€at Szcze-
cin, pp. 415–424.
Binnie, A.M., Poole, E.G.C., 1937. The theory of the single-pass cross-flow heat inter-
changer. Math. Proc. Camb. Philos. Soc. 33 (3), 403–411.
Chang, Y.-J., Wang, C.-C., 1997. A generalized heat transfer correlation for louver fin
geometry. Int. J. Heat Mass Transf. 40 (3), 533–544.
Chang, Y.-J., Hsu, K.-C., Lin, Y.-T., Wang, C.-C., 2000. A general friction correlation for
louver fin geometry. Int. J. Heat Mass Transf. 43, 2237–2243.
Chennu, R., 2016. Steady state and transient analysis of compact plate-fin heat exchanger fins
for generation of design data using CFD. Int. J. Numer. Methods Heat Fluid Flow 26 (2),
440–460.
Chennu, R., 2018. Numerical analysis of compact plate-fin heat exchangers for aerospace
applications. Int. J. Numer. Methods Heat Fluid Flow 28 (2), 395–412.
Chennu, R., Paturu, P., 2011. Development of heat transfer coefficient and friction factor
correlations for offset fins using CFD. Int. J. Numer. Methods Heat Fluid Flow 21 (8),
935–951.
