| dc.identifier.citation | [1] H.-M. Prasser, D. Scholz, C. Zippe, “Bubble size measurement using wire-mesh sensors,” Flow Measurement and Instrumentation, vol. 12, no. 4, pp. 299-312, August 2001. [2] E. Krepper, D. Lucas, H.-M. Prasser, “On the modelling of bubbly flow in vertical pipes,” Nuclear Engineering and Design, vol. 235, no. 5, pp. 597-611, February 2005. [3] M.J. Da Silva, S. Thiele, L. Abdulkareem, B.J. Azzopardi, U. Hampel, “High-resolution gas-oil two-phase flow visualization with a capacitance wire mesh sensor,” Flow Measurement and Instrumentation, vol. 21, no. 3, pp. 191-197, September 2010. [4] T. Hibiki, M. Ishii, Z. Xiao, “Axial interfacial area transport of vertical bubbly flows,” International Journal of Heat and Mass Transfer, vol. 44, no. 10, pp. 1869-1888, May 2001. [5] B. Doup, X. Zhou, X. Sun, “Local gas and liquid parameter measurements in air-water two-phase flows,” Nuclear Engineering and Design, vol. 263, pp. 273-283, October 2013. [6] G.P. Lucas, R. Mishra, “Measurement of bubble velocity components in a swirling gas-liquid pipe using a local four-sensor conductance probe,” Measurement Science and Technology, vol. 16, no. 3, 2005. [7] W. Warsito, L.-S. Fan, “Measurement of real-time flow structures in gas-liquid and gas-liquid-solid flow systems using electrical capacitance tomography (ECT),” Chemical Engineering Science, vol. 56, no. 21-22, pp. 6455-6462, November 2001. [8] H. Wegleiter, A. Fuchs, G. Holler, B. Kortschak, “Development of a displacement current-based sensor for electrical capacitance tomography applications,” Flow Measurement and Instrumentation, vol. 19, no. 5, pp. 241-250, October 2008. [9] R. Banasiak, R. Wajman, T. Jaworski, P. Fiderek, H. Fidos, J. Nowakowski, D. Sankowski, “Study on two-phase flow regime visualization and identification using 3D electrical capacitance tomography and fuzzy-logic classification,” International Journal of Multiphase Flow, vol. 58, pp. 1-14, January 2014. [10] U. Hampel,M. Speck, D. Koch, H.-J. Menz, H.-G. Mayer, J. Fietz, D. Hoppe, E. Schleicher, C. Zippe, H.-M. Prasser, “Experimental ultra fast X-ray computed tomography with a linearly scanned electron beam source,” Flow Measurement and Instrumentation, vol. 16, no. 2-3, pp. 65-72, April-June 2005. [11] C. Wu, Y. Cheng, Y. Ding, F. Wei, Y. Jin, “A novel X-ray computed tomography method for fast measurement of multiphase flow,” Chemical Engineering Science, vol. 62, no. 16, pp. 4325-4335, August 2007. [12] T.J. Heindel, J.N. Gray, T.C. Jensen, “An X-ray system for visualizing fluid flows,” Flow Measurement and Instrumentation, vol. 19, no. 2, pp. 67-68, April 2008. [13] C. Rautenbach,R.F. Mudde, X. Yang, M.C. Melaaen, B.M. Halvorsen, “A comparative study between electrical capacitance tomography and time-resolved X-ray tomography,” Flow Measurement and Instrumentation, vol. 30, pp. 34-44, April 2013. [14] M. Bieberle, F. Barthel, U. Hampel, “Ultrafast X-ray computed tomography for the analysis of gas-solid fluidized beds,” Chemical Engineering Journal, vol. 189-190, pp. 356-363, 1 May 2012. [15] A. Manera,H.-M. Prasser, D. Lucas, T.H.J.J. van der Hagen, “Threedimensional flow pattern visualization and bubble size distributions in stationary and transient upward flashing flow,” International Journal of Multiphase Flow, vol. 32, no. 8, pp. 996-1016, August 2006. [16] A. Patmonoaji, M. Banowski, D. Lucas, Deendarlianto, “Investigation of gas bubble velocities from experimental data of ultrafast two-layer electron beam X-ray tomography,” Proc. of the 12 th Annual National Seminar of Mechanical Engineering (SNTTM XII), Bandar Lampung, Indonesia, 23-24 October 2013. [17] F. Fischer, D. Hoppe, E. Schleicher, G. Mattausch, H. Flaske, R. Bartel, U. Hampel, “An ultra fast electron beam x-ray tomography scanner,” Measurement Science and Technology, vol. 19, no. 9, 2008. [18] F. Fischer, U. Hampel, “Ultra fast electron beam X-ray computed tomography for two-phase flow measurement,” Nuclear Engineering and Design, vol. 240, no. 9, pp. 2254-2259, September 2010. [19] A.C. Kak, M. Slaney, Principles of computerized tomographic imaging, IEEE Press, 1987. [20] M. Banowski, D. Lucas, D. Hoppe, M. Beyer, L. Szalinski, U. Hampel, “Segmentation of ultrafast X-ray tomographed gas-liquid flows in a vertical pipe at different flow regimes,” Proc. of the 7 World Congress on Industrial Process Tomography, Krakow, Poland, 2013. [21] D. Tian, C. Yan, L. Sun, P. Tong, G. Liu, “Comparison of local interfacial characteristics between vertical upward and downward twophase flows using a four-sensor optical probe,” International Journal of Heat and Mass Transfer, vol. 77, pp. 1183-1196, 2014. [22] S.G. Bankoff, “A variable density single-fluid model for two-phase flow with particular reference to steam-water flow,” Journal of Heat Transfer, vol. 82, no. 2, pp. 265-270, November 1960. [23] D. Tian, C. Yan, L. Sun, “Model of bubble velocity vector measurement in upward and downward bubbly two-phase flows using a four-sensor optical probe,” Progress in Nuclear Energy, vol. 78, pp. 110-120, 2015. [24] A. Tomiyama, “Struggle with computational bubble dynamics,” Proc. of the 3 rd International Conference on Multiphase Flow (ICMF 98), Lyon, France, 8-12 June 1998. th [25] S.P. Antal, R.T. Lahey, J.E. Flaherty, “Analysis of phase distribution in fully developed laminar bubbly two-phase flow,” International Journal of Multiphase Flow, vol. 17, pp. 635-652, 1991. [26] R.T. Lahey Jr., M. Lopez de Bertodano, O.C. Jones Jr., “Phase distribution in complex geometry conduits,” Nuclear Engineering and Design, vol. 141, pp. 177-201, 1993. [27] D. Lucas, E. Krepper, H.-M. Prasser, “Development of co-current airwater flow in a vertical pipe,” International Journal of Multiphase Flow, vol. 31, pp. 1304-1328, 2005. [28] D. Lucas, E. Krepper, “CFD models for polydispersed bubbly flows,” Technical Report HZDR (FZD-486), September 2007. [29] E. Moursali, J.L. Marié, J. Bataille, “ An upward turbulent bubbly boundary layer along a vertical flat plate,” International Journal of Multiphase Flow, vol. 21, no. 1, pp. 107-117, 1995. | en_US |
