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References [1] Asakavičjus I.P., Žukauskas A.A., Gajgalis V.A., Eva V.K., Teplootdača freona-113, etilovogo spirta i vody v setčatych fitiljach , Lietuvos TSR Moksly akademijos darbai, B serija, I (104), 1978, 87–93. [2] Hasegawa S., Echigo R., Irie S., Boiling characteristics and burnout phenomena on heating surface covered with woven screens , Journal of Nuclear Science and Technology, vol. 12 (11), 1975, 722–724. [3] Kalawa W., Wójcik T.M., Piasecka M., Heat transfer research on enhanced heating surfaces in pool boiling , EPJ Web of Conferences, 143, 2017

://doi.org/10.1016/B978-0-08-020902-9.50053-5 [8] Makinia J, Wells S., Zima p.: Temperature Modeling in Activated Sludge Systems: A Case Study . Water environment Research, 77/6. (2005) 525–532. https://doi.org/10.2175/106143005X67449 [9] Rho S-B.: Temperature Prediction for the Wastewater Treatment Process using Heat Transfer Model . Journal of the Korea academia-industrial cooperation Society, 15/3. (2014) 1795–1800. https://doi.org/10.5762/KaiS.2014.15.3.1795 , [10] Fernández-arévalo T., Lizarralde i., Grau p., ayesa e.: New systematic methodology for incorporating

References [1] Gupta, H. N., Fundamentals of internal combustion engines , XVII ed., PHI Learning, 2014. [2] Borman, G., Nishiwaki, K., Internal-combustion engine heat transfer , Progress in Energy and Combustion Science, Vol. 13, No. 1, pp. 1-46, 1987. [3] Wu, Y.-Y., Chen, B.-C., Hsieh, F.-C., Heat transfer model for small-scale air-cooled spark ignition four-stroke engines , International Journal of Heat and Mass Transfer, Vol. 49, Iss. 21-22, pp. 3895-3905, 2006. [4] Hohenberg, G. F., Advanced approaches for heat transfer calculations , S.A.E., No. SP-449

References [1] Lee, S. C.; Cunnington, G. R. (2000). Conduction and radiation heat transfer in high-porosity fiber thermal insulation. J Thermophys Heat Tr, 14 (2), 121-136. [2] Mohammadi, M.; Banks-Lee, P.; Ghadimi, P. (2003). Determining effective thermal conductivity of multilayered nonwoven fabrics. Text Res J, 73 (9), 802-808. [3] Guocheng Zhu; Dana Kremenakova; Yan Wang, et al. (2014). An analysis of effective thermal conductivity of heterogeneous materials. Autex Res J, 14 (1), 14-21. [4] Etemoglu, A. B.; Ulcay, Y.; Can, M., et al. (2009). Mathematical

., Panknin, W. (1974). Holography in heat and mass transfer. In Proceedings of the 5th International Heat Transfer Conference . Tokyo, Japan: Society of Heat Transfer of Japan, 28-43. [8] Tauscher, R. (1999). Holographic interferometry in heat and mass transfer . http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.602.7223 . [9] Binu, P.T., Rajendran, K.V., Pillai, S.A. (2006). Wholefield NDT of porous materials using digital holography. In National Seminar on Non-Destructive Evaluation . Indian Society for Non-Destructive Testing, 229-234. [10] Pavelek, M

BIBLIOGRAPHY [1] Crabtree, L. F., Dommet, R. L., Woodley, J. G., 1970, “Estimation of Heat Transfer to Flat Plates, Cones and Blunt Bodies.”, R. & M. No. 3637, Her Majesty’s Stationery Office, London [2] Kaye, J., 1953, “Survey of Friction Coefficients, Recovery Factors and Heat Transfer Coefficients for Supersonic Flow.”, Technical Report No. 6418-5, Massachusetts Institute of Technology, Cambridge. [3] [3] Sekcja Rakietowa SKA, 2014, Wydział Mechaniczny Energetyki i Lotnictwa PW, konsultacja osobista [Rocketry Group of Students’ Space Association, 2014, Faculty

, Australia. [10] Borovoy, V., Mosharov, V., Noev, A. and Radchenko, V., 2012, “Temperature Sensitive Paint Application for Investigation of Boundary Layer Transition in Short-Duration Wind Tunnels,” Progress in Flight Physics 3, pp. 15-24. [11] Rosłowicz, A. and Bednarczyk, P., 2017, “Analysis of Heat Transfer in a Supersonic Rocket Head,” Transactions of the Institute of Aviation, No. 1 (246), pp.79-94. [12] Zuniga, H. A., 2009, “Study of Film Cooling Effectiveness: Conical, Trenched and Asymmetrical Shaped Holes,” Ph.D. thesis, University of Central Florida, Orlando. [13

solidification cast in cylindrical permanent molds, Revista Matéria, v. 13, n. 2, pp. 294 – 303, 2008 [4] Konopka Z., Łągiewka M., Zyska A.: Evaluation of the heat transfer coefficient at the metal-mould interface during flow, Archives of Foundry Engineering, Volume 7, Issue 4/2007, 101-104 [5] Ulkarni S.N. K., Adhakrishna D.K. R: Effect of casting/mould interfacial heat transfer during solidification of aluminium alloys cast in CO 2 -sand mould, Materials Science-Poland, 29(2), 2011, pp. 135-142 [6] Jabbari M., Fardi Ilkhchy A., Davami P.: Effect of pressure on heat transfer

References Andersson H.I. (1992): MHD flow of a viscous fluid past a stretching surface. - Acta Mech., vol.95, pp.227-230. Bellman R.E. and Kalaba R.E. (1965): Quasilinearization and nonlinear boundary value problem. - New York: Elsevier. Bhattacharyya K. (2011): Boundary layer flow and heat transfer over an exponentially shrinking sheet. - Chin. Phys.Lett., vol.28, pp.074701. Bhattacharyya K. (2011): Dual solutions in boundary layer stagnation-point flow and mass transfer with chemical reaction past a shrinking sheet. - Int. Commun. Heat Mass Transfer, vol.38

References Abbas Z., Wang Y., Hayat T. and Oberlack M. (2009): Slip effects and heat transfer analysis in a viscous fluid over an oscillatory stretching surface . - Int. J. of Numer. Meth. Fluids, vol.59, pp.443-458. Ali M.E. (1994): Heat transfer characteristics of a continuous stretching surface . - Heat Mass Transfer, vol.29, pp.227-234. Andersson H.I. (2002): Slip flow past a stretching surface . - Acta Mech., vol.158, pp.121-125. Ariel P.D. (2008): Two dimensional stagnation point flow of an elastico-viscous fluid with partial slip . - Z. Angew. Math