This work is licensed under the Creative Commons Attribution 4.0 International License.
Doran, P.M. (2013). Mixing. In P. M. Doran, (Ed.), Bio-process engineering principles (2nd ed.) (pp. 255–332). Orlando: Academic PressSearch in Google Scholar
Moucha, T., Linek, V. & Prokopová, E. (2003). Gas hold-up, mixing time and gas–liquid volumetric mass transfer coefficient of various multiple-impeller configurations: Rushton turbine, pitched blade and techmix impeller and their combinations. Chem. Eng. Sci. 58(9), 1839–1846. DOI: 10.1016/S0009-2509(02)00682-6.Open DOISearch in Google Scholar
Bouaifi, M., Hebrard, G., Bastoul, D., & Roustan, M. (2001). A comparative study of gas hold-up, bubble size, inter-facial area and mass transfer coefficients in stirred gas–liquid reactors and bubble columns. Chem. Eng. Process.: Process Intensif. 40(2), 97–111. DOI: 10.1016/S0255-2701(00)00129-X.Open DOISearch in Google Scholar
Khare, A.S., & Niranjan, K. (1999). An experimental investigation into the effect of impeller design on gas hold-up in a highly viscous Newtonian liquid. Chem. Eng. Sci. 54(8), 1093–1100. DOI: 10.1016/S0009-2509(98)00479-5.Open DOISearch in Google Scholar
Yoshida, M., Kitamura, A., Yamagiwa, K., & Ohkawa, A. (1996). Gas hold-up and volumetric oxygen transfer coefficient in an aerated agitated vessel without baffles having forward-reverse rotating impellers. Can. J. Chem. Eng. 74(1), 31–39. DOI: 10.1002/cjce.5450740105.Open DOISearch in Google Scholar
Kamieński, J. (2004). Mieszanie układów wielofazowych. Warszawa, Poland: Wydawnictwa Naukowo-Techniczne (in Polish).Search in Google Scholar
Kracík, T., & Moucha, T. (2022). Influence of viscosity on gas holdup formation in stirred tank reactors. Chem. Pap. 76(1), 301–307. DOI: 10.1007/s11696-021-01857-8.Open DOISearch in Google Scholar
Frankiewicz, S., & Woziwodzki, S. (2022). Gas hold-up and mass transfer in a vessel with an unsteady rotating concave blade impeller. Energies 15(1). DOI: 10.3390/en15010346.Open DOISearch in Google Scholar
Woziwodzki, S. (2017). Mieszanie nieustalone – analiza i wybrane zastosowania. Poznań, Poland: Wydawnictwo Politechniki Poznańskiej (in Polish).Search in Google Scholar
Yoshida, M. (2011). Gas-liquid mass transfer in an unbaffled vessel agitated by unsteadily forward-reverse rotating multiple impellers. In El-Amin M. (Ed.) Mass Transfer in Multiphase Systems and its Applications. IntechOpen, Retrieved February 30, 2011 from IntechOpen https://intechopen.com/chapters/13531. DOI: 10.5772/14140.Open DOISearch in Google Scholar
Yoshida, M., Ito, A., Yamagiwa, K., Ohkawa, A., Abe, M., Tezura, S., & Shimazaki, M. (2001). Power characteristics of unsteadily forward–reverse rotating impellers in an unbaffled aerated agitated vessel. J. Chem. Technol. Biotechnol. 76(4), 383–392. DOI: 10.1002/jctb.394.Open DOISearch in Google Scholar
Yoshida, M., Taguchi, Y., Yamagiwa, K., Ohkawa, A., Abe, M., Tezura, S., & Shimazaki, M. (2003). Design and operation of unbaffled aerated agitated vessels with unsteadily forward–reverse rotating impellers handling viscous Newtonian liquids. J. Chem. Technol. Biotechnol. 78(4), 474–483. DOI: 10.1002/jctb.813.Open DOISearch in Google Scholar
Robinson, C.W., & Wilke, C.R. (1974). Simultaneous measurement of interfacial area and mass transfer coefficients for a well-mixed gas dispersion in aqueous electrolyte solutions. AIChE J. 20(2), 285–294. DOI: 10.1002/aic.690200212.Open DOISearch in Google Scholar
Frankiewicz, S., & Woziwodzki, S. (2021). Nowe techniki pomiaru stopnia zatrzymania gazu w mieszalnikach mechanicznych. In XXXVIII Międzynarodowe Sympozjum im. Bolesława Krzysztofika AQUA 2021: Problemy Inżynierii Środowiska, 22 June 2021 (pp. 57–58). Płock, Poland: Politechnika Warszawska (in Polish).Search in Google Scholar
Frankiewicz, S., Woziwodzki, S., & Kuczora, A. (2019). Zastosowanie analizy obrazu do określania stopnia zatrzymana gazu w mieszalniku. In III Ogólnopolskie Sympozjum Chemii Bioorganicznej, Organicznej i Biomateriałów, (pp. 319–320). Poznań, Poland: Politechnika Poznańska (in Polish).Search in Google Scholar