Effect of different design features of the reactor on hydrodynamic cavitation process

• Autorzy: Ozonek J. , Lenik K.
• Języki publikacji: EN

Abstrakty

EN

Purpose: The determination of the effect of the change of inducers' shape and surface on the cavitation process. Design/methodology/approach: Experimental studies of the effect of pressure changes in the function of the construction change of cavitation inducer on the hydrodynamic cavitation process. Findings: Selected effects of the cavitation process were discussed with variable pressures obtained by changing the geometry of cavitation inducer. Research limitations/implications: Analysis of the cavitation process in the function of geometric features of the cavitation inducer. Practical implications: The possibility of controlling the hydrodynamic cavitation process. Originality/value: The assessment of the effect of the cavitation reactor selection on the process or/and the selection of the solution for the specific conditions of the course of the cavitation process.

Słowa kluczowe

EN

cavitation phenomena; hydrodynamic cavitation; cavitation number; hydrodynamic reactor

PL

zjawisko kawitacji; kawitacja hydrodynamiczna; liczba kawitacji; reaktor hydrodynamiczny

• Wydawca: International OCSCO World Press
• Czasopismo: Archives of Materials Science and Engineering
• Rocznik: 2011
• Tom: Vol. 52, nr 2
• Strony: 112--117
• Opis fizyczny: Bibliogr. 20 poz.

Twórcy

autor

Ozonek J.

autor

Lenik K.

• Institute of Environmental Protection Engineering, Lublin University of Technology, ul. Nadbysztrzycka 38D, 20-618 Lublin, Poland,

Bibliografia

• [1] J.P. Franc, J.M. Michel, Fundamentals of cavitation, Kluwer Academic Publishers, Dordrecht, 2004.
• [2] C.E. Brennen, Cavitation and bubble dynamics, Oxford University Press, New York, 1995.
• [3] Litwinienko, A. Nekroz, K. Łukasik, Technological application of hydrodynamic cavitation - experiences and perspectives, Lublin Scientific Society, Lublin, 2005.
• [4] F. Capin, E. Herbert, Cavitation in water: a review, Comptes Rendus Physique 7 (2006) 1000-1017.
• [5] K. Wójs, Cavitation in liquids with different rheological properties, Publishing House of Wroclaw University of Technology, Wrocław, 2004.
• [6] K.S. Suslick, M.M. Mdleeni, J.Y. Rejs, Chemistry induced by hydrodynamic cavitation, American Chemistry Society, 119 (1997) 9303-9306.
• [7] P.R. Gogate, A.B. Pandit, Engineering design methods for cavitation reactors II: Hydrodynamic cavitation, American Institute of Chemical Engineering Journal 46/8 (2000) 1641-1649.
• [8] P.R. Gogate, Cavitational reactors for process intensification of chemical processing applications: A critical review, Chemical Engineering and Processing 47 (2008) 515-527.
• [9] P.R. Gogate, Hydrodynamic cavitation for food and water processing, Food Bioprocess Technology 4 (2011) 996-1011.
• [10] K. Jyoti, A. Pandit, Effect of cavitation on chemical disinfection efficiency, Water Research 38 (2004) 2249- 2258.
• [11] M. Sivakumar, A. Pandit, Wastewater treatment: a novel energy efficient hydrodynamic cavitation technique, Ultrasonic Sonochemistry 9 (2002) 123-131.
• [12] J. Bagieński, Cavitation in water supply and heating devices, Publishing House of Poznan University of Technology, Poznań, 1998.
• [13] J. Cai, X. Huai, X. Li, Dynamic behaviors of cavitation buble for the steady cavitating flow, Journal of Thermal Science 18 (2009) 338-344.
• [14] N.P. Vichare, P.R. Gogate, A.B. Pandit, Optimization of hydrodynamic cavitation using a model reaction, Chemical Engineering Technology 23 (2000) 683-690.
• [15] P.S. Kumar, V.S. Moholkar, Conceptual design of a novel hydrodynamic cavitation reactor, Chemical Engineering Science 62 (2007) 2698-2711.
• [16] S. Arrojo, Y. Benito, A theoretical study of hydrodynamic cavitation, Ultrasonics Sonochemistry 15 (2008) 203-211.
• [17] J. Ozonek, A. Odrzywolski, M. Depta, J. Kujawska, Degradation of PAHs in water solution in the conditions of hydrodynamic cavitation, Monographs of Environmental Engineering Committee of Polish Academy of Sciences 58 (2009) 167-175.
• [18] K. Lenik, J. Ozonek, The evaluation of the cavitation number in hydrodynamic cavitation including the influence of the orifice plate geometry, Proceedings of the XIV National and V International Conference of the Science and Technology, Metrology in Manufacturing Techniques, Pułtusk, 2011, 187-193.
• [19] J. Szulżyk-Cieplak, S. Fijałkowski, J. Ozonek, Application of the hydrodynamic cavitation in water and wastewater treatment, Proceedings of the II Congress of Environmental Engineering, Monographs of the Environmental Engineering Committee Polish Academy of Sciences 33(2005) 279-282.
• [20] P. Braeutigam, M. Franke, Z.L. Wu, B. Ondruschka, Role of different parameters in the optimization of hydrodynamic cavitation, Chemical Engineering Technology 33 (2010) 932-940.