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Tadeusz Bohdal, Henryk Charun and Małgorzata Sikora

. COMPRESSORS’ 2009, 1-8. [4] Bohdal T., Charun H., Sikora M.: Heat transfer during condensation of refrigerants in tubular minichannels. Arch. Thermodyn. 33(2012), 2, 3-22. [5] Bohdal T., Charun H., Sikora M.: Empirical study of heterogeneous refrigerant condensation in pipe minichannels. Int. J. Refrig. 59(2015), 210-223. [6] Bohdal T., Charun H., Kuczyński W., Sikora M.: Investigation of heat exchange and flow resistances during condensation of refrigeration media in minichannels. In: Proc. 19th Int. Symp. Research

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Wiesław Zima, Sławomir Grądziel and Artur Cebula

). Profos P.: Dynamics of Superheater Control. Combustion 31 (1959). Profos P.: Die Regelung von Dampfanlagen. Springer Verlag, Berlin 1962 (in German). Krzyżanowski J.A., Głuch J.: Heat-flow diagnostics of energy objects. IMP PAN, Gdansk 2004 (in Polish). Fluent 6.0. Computational fluid dynamics software. Fluent Inc., Lebanon, NH, USA 2006. Bertin J. J.: Aerodynamics for Engineers , 4th edn. Prentice Hall, New Jersey 2002

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Marcin Trojan

References [1] W essel B., R üsenberg D., S chlenkert J.U., T hiele I., K arkowski G.: Betriebserfahrungen mit dem Block Niederaußem K . VGB PowerTech 11 (2006), 47–51. [2] T aler J. (Ed.): Thermal and flow processes in large power boilers. Modelling and monitoring . PWN, Warsaw 2010. [3] H ewitt G.F., S hires G.L., B ott T.R.: Process Heat Transfer . CRC Press – Begell House, Boca Raton 1994. [4] S hah R.K., S ekulić D.P.: Fundamentals of heat exchanger design . Wiley, Hoboken 2003. [5] K akaç S., L iu H.: Heat

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Rafał Wyczółkowski

of the Rayleigh number in the area of steel rectangular sections in the conditions of steady and unsteady heat flow . Civil Environ. Eng. Rep. 14 (2014), 119–132. [16] www.czaki.pl/en/

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Rafał Wyczółkowski and Dorota Musiał

References Staniszewski B.: Heat Exchange. Theoretical bases. PWN, Warsaw 1980 (in Polish). Kostowski E.: Heat Flow. Wydawnictwo Politechniki Śląskiej, Gliwice 2000 (in Polish). ThermaCAM P65. User Guide. FLIR SYSTEMS, 2004. Minkina W.: Thermovision measurements — equipment and methods. Wydawnictwo Politechniki Częstochowskiej, Częstochowa 2004. Kruczek T.: Analysis of the possibilities of thermovisual temperature

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Rafał Wyczółkowski and Dorota Musiał

). [5] Wiśniewski S.: Heat Transfer . PWN, Warsaw 1979 (in Polish). [6] Wyczółkowski S.: Modelling of Steady Free Convection in Two-dimensional Enclosed Space . Wydawnictwo Politechniki Częstochowskiej, Częstochowa 1998 (in Polish). [7] Kostowski E.: Heat Flow . Wydawnictwo Politechniki Śląskiej, Gliwice 2000 (in Polish). [8] Raźnjević K.: Thermal Table with Diagrams . WNT, Warsaw 1966 (in Polish). [9] Musiał D. Heat Transfer in Steel Rods Bundle During Heating . PhD thesis, Czestochowa University of

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Andrzej Rusin, Marian Lipka and Henryk Łukowicz

References [1] Nowak G., Rusin A.: Shape and operation optimisation of a supercritical steam turbine rotor . Energ Convers Manage 74 (2013), 417-425. [2] Ha J., Tabuchi M., Hongo H.: Creep crack growth properties for 12CrWCoB rotor steel using circular notched specimens . Int. J. Pres Ves Pip 81(2004), 401-407. [3] Hald J.: Microstructure and long-term creep properties of 9-12%Cr steels . Int. J. Pres Ves Pip 85(2008), 30-37. [4] Wang Y., Mayer K.H., Scholz A., Berger C., Chilukuru H

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Rafał Wyczółkowski and Dorota Musiał

.: Thermal Table with Diagrams . WNT, Warszawa 1966 (in Polish). [6] Malinowski Z.: Numerical modeling in plastic working and heat transfer . AGH Uczelniane Wydawnictwa Naukowo-Dydaktyczne, Krakow 2005, 53-55 (in Polish). [7] Wyczółkowski R.: Selected problems connected with hating up of steel charge of porous structure . Metalurgia 2009, Nowe technologie i osiągnięcia, Częstochowa 2009, 337-359 (in Polish). [8] Wyczółkowski S.: Modelling of steady free convection in two-dimensional enclosed space . Wydawnictwo

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Jan Wajs, Dariusz Mikielewicz, Elżbieta Fornalik-Wajs and Michał Bajor

] W ajs J., M ikielewicz D., B ajor M.: Preliminary flow characteristics analysis of microjet heat exchanger. Rep. IFFM PASci 216/2014, Gdańsk 2014 (in Polish). [5] W ilson E.E.: A basis for rational design of heat transfer apparatus. Trans. ASME 37 (1915), 47–82. [6] M ikielewicz J.: Application of Wilson metod for calculation of heat transfer coefficient. Technika Chłodnicza i Klimatyzacja 6 (1995), 215–216 (in Polish). [7] F ernández -S eara J., U hía F., S ieres J., C ampo A.: A general review of the Wilson plot method and its

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Janusz T. Cieśliński

M., Liu Z., Ma G.: The experimental investigation on thermal performance of a flat two-phase thermosiphon. Int. J. Therm. Sci. 47(2008), 1195-1203. [5] Khodabandeh R., Furberg R.: Heat transfer, flow regime and instability of a nano- and micro-porous structure evaporator in a two-phase thermosyphon loop. Int. J. Therm. Sci. 49(2010), 1183-1192. [6] He J., Lin G., Bai L., Miao J., Zhang H., Wang L.: Effect of non-condensable gas on steady-state operation of a loop thermosyphon. Int. J. Therm. Sci. 81(2014), 59-67. [7