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Chowdhury, K., Linkmeyer, H., Bassiouny, M.K., Martin, H., 1985. Analytical studies on
the temperature distribution in spiral plate heat exchangers: straightforward design for-
mulae for efficiency and mean temperature difference. Chem. Eng. Process. Process
Intensif. 19 (4), 183–190.
Deng, J., 2017. Improved correlations of the thermal-hydraulic performance of large size
multi-louvered fin arrays for condensers of high power electronic component cooling
by numerical simulation. Energy Convers. Manag. 153, 504–514.
Diani, A., Mancin, S., Zilio, C., Rossetto, L., 2012. Experimental and numerical analyses of
different extended surfaces. J. Phys. Conf. Ser. 395, 012045.
Dong, J., Chen, J., Chen, Z., Zhou, Y., Zhang, W., 2007. Heat transfer and pressure drop
correlations for the wavy fin and flat tube heat exchangers. Appl. Therm. Eng.
27 (11–12), 2066–2073.
Fischer, F.K., 1938. Mean temperature difference correction in multipass exchangers. Ind.
Eng. Chem. 30, 377–383.
Goldstein, S., 1953. On the mathematics of exchange processes in fixed columns—I. Math-
ematical solutions and asymptotic expansions. Proc. R. Soc. Lond. A Math. Phys. Sci.
219 (1137), 151–171.
Haseler, L.E., 1983. Performance calculation methods for multi-stream plate-fin heat
exchangers. In: Taborek, J., Hewitt, G.F., Afgan, N. (Eds.), Heat Exchangers: Theory
and Practice. Hemisphere Publishing, Washington, DC, pp. 495–506.
Joshi, H.M., Webb, R.L., 1987. Heat transfer and friction in the offset strip-fin heat
exchangers. Int. J. Heat Mass Transf. 30 (1), 69–84.
Kaman, M.D.K., Sathishkumar, A., Balasuthagar, C., Ponsankar, S., 2017. Design and anal-
ysis of spiral plate heat exchanger for cooling applications. J. Chem. Pharm. Sci. 10 (1),
511–514.
Kao, S., 1961. A Systematic Design Approach for a Multistream Exchanger With Intercon-
nected Wall. ASME Paper, No. 61-WA-255.
Kays, W.M., London, A.L., 1984. Compact Heat Exchangers, third ed. McGraw-Hill, New
York, p. 1984.
Kim, M.-H., Bullard, C.W., 2002. Air-side thermal hydraulic performance of multi-
louvered fin aluminum heat exchangers. Int. J. Refrig. 25 (3), 390–400.
Kim, M.-S., Lee, J., Yook, S.-J., Lee, K.-S., 2011. Correlations and optimization of a heat
exchanger with offset-strip fins. Int. J. Heat Mass Transf. 54 (9–10), 2073–2079.
Li, W., Wang, X., 2010. Heat transfer and pressure drop correlations for compact heat
exchangers with multi-region louver fins. Int. J. Heat Mass Transf. 53 (15–16),
2955–2962.
Li, K., Li, M., Luo, X., 1992. Optimization of multistream plate-fin heat exchangers with
multi-component two-phase fluids. In: Proceedings of International Power Engineering
Conference, May 1992, Hangzhou, China, pp. 221–225.
London, A.L., Seban, R.A., 1942. A generalization of the methods of heat exchanger anal-
ysis. Technical Report, No. NTU-1, Mechanical Engineering Department, Stanford
University, Stanford, California. Also in: International Journal of Heat and Mass Trans-
fer, 23(1):5–16, 1980.
Luo, X., 1998. Das axiale Dispersionsmodell f€ur Kreuzstromw€arme€ubertrager. Fortschritt-
Berichte VDI, Reihe 19, Nr. 109, VDI Verlag, D€usseldorf.
Luo, X., Li, K., Li, M., 2001. Prediction of the thermal performance of multistream plate-fin
heat exchangers. Int. J. Heat Exch. 2 (1), 47–60.
Luo, X., Li, M., Roetzel, W., 2002. A general solution for one-dimensional multistream heat
exchangers and their networks. Int. J. Heat Mass Transf. 45, 2695–2705.
Malinowski, L., 1983. Some properties of the coefficient matrix of the differential equations
for parallel-flow multichannel heat exchangers. Int. J. Heat Mass Transf. 26 (2), 316.

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