E1.1 8.40
Analysis and modelling of turbulence in bubble columns.
D. Broder, M. Goz, S. Lain, *M. Sommerfeld
(M. Luther Univ., Halle-Wittenberg, DE)
[997]
E1.2 9.00
Experimental investigation of shear rates in airlift reactors.
*W. A. Al-Masry, M. I. Al-Ahmad
(King Saud Univ., Riyadh, SA)
[111]
E1.3 9.20
Experimental configurations for the viscometry under apparent slip.
*O. Wein, M. Vecer
(Inst. Chem. Proc. Fundam., Praha, CZ)
[760]
E1.4 9.40
Fall of non-spherical particles in a Carreau model liquid.
*I. Machac, Z. Lecjaks, B. Siska, R. Teichman
(Univ. Pardubice, CZ)
[869]
E1.5 10.00
Application of the real gas equations to the collapsing bubbles in the liquid.
*K. Wankowicz, W. Kaminski
(Tech. Univ. Lodz, PL)
[768]
E1.6 10.20
Structure of gas flow field in packed bed tubes.
I. Ziolkowska, *D. Ziolkowski
(Inst. Phys. Chem., Warszawa, PL)
[24]
E2.1 14.00
Flow of surfactant solutions in pipes.
L. Broniarz-Press, *J. Rozanski
(Poznan Univ. Technol., PL)
[944]
E2.2 14.20
Mathematical modeling of turbulent gas-particle free jet.
A. M. Sijercic, *M. Z. Stevanovic, V. S. Belosevic, J. M. Paprika
(Inst. Nucl. Sci. Vinca, Beograd, YU)
[316]
E2.3 14.40
Experimental investigation and numeral studies on a novel design rigid ceramic filter.
*T. G. Chuah, C. M. Stephen, A. S. Burbidge, R. Greenwood, J. P. K. Seville
(Univ. Birmingham, UK)
[963]
E2.4 15.00
Prediction of micromixing intensity in chaotic flows.
*S. Cerbelli, M. M. Alvarez, F. J. Muzzio
(Rutgers Univ., Piscataway, NJ, US)
[97]
E2.5 15.20
Combined heat and mass forced convection in a partially porous annular enclosure.
M. Benzeghiba, *S. Chikh
(Inst. Mech. Eng. USTHB, Algiers, DZ)
[1296]
E3.1 9.30
Modeling of laminar blending in the VisiMix software.
*L. N. Braginsky, Yu. V. Kokotov, Yu. Z. Nekhamkin, E. P. Entin
(VisiMix Ltd., Jerusalem, IL)
[740]
E3.2 10.00
Blending effect of excentric axial agitators.
*P. Seichter, L. Pesl, V. Slama, J. Mazoch
(TECHMIX, Brno, CZ)
[227]
E3.3 10.30
Effect of axial-flow impeller and feed tube location on flow patterns in continuously stirred tank reactors.
*P. Mavros, H. Barrue2, C. Xuereb2, I. Fort1, J. Bertrand2
(Aristotle Univ., Thessaloniki, GR; 1Czech. Univ., Praha, CZ; 2ENSIGC, Toulouse, FR)
[957]
E3.4 11.00
Effect of mixing onto flocculation kinetics.
*R. Sulc, P. Ditl
(Czech Tech. Univ., Praha, CZ)
[1053]
E3.5 11.30
Mixing of liquids in tanks by submerged turbulent jets.
*J. A. Trilleros, F. J. Navarro
(Univ. Complutense, Madrid, ES)
[430]
E3.6 12.00
A detailed computational and experimental study of laminar mixing processes in a three Rushton turbine stirred tank.
*J. M. Zalc, M. M. Alvarez, F. J. Muzzio
(Rutgers Univ., Piscataway, NJ, US)
[29]
E4.1 14.00
Some features of new generation impellers for gas dispersion.
D. Pinelli, *F. Magelli, A. Bakker, K. J. Myers1, M. F. Reeder1
(Univ. Bologna, IT; 1Chemineer, Dayton OH, US)
[28]
E4.2 14.30
Comparison of gas-liquid mass transfer characteristics for radial and axial flow impellers.
*T. Moucha, V. Linek
(Inst. Chem. Technol., Praha, CZ)
[877]
E4.3 15.00
Pumping capacity and local energy dissipation rate at mixing of low concentrated suspension.
*P. Ditl, M. Severa, V. Sedivy
(Czech Tech. Univ., Praha, CZ)
[1248]
E4.4 15.30
Behaviour of slurry reactors stirred with axial impellers: dispersion coefficient and settling velocity of the solids.
D. Pinelli, M. Nocentini, G. Montante, *F. Magelli
(Univ. Bologna, IT)
[1107]
E4.5 16.00
Homogenisation of the liquid in three-phase multiimpeller stirred reactor.
M. Jahoda, *V. Machon, P. Veverka, H. Majirova
(Inst. Chem. Technol., Praha, CZ)
[1064]
E4.6 16.30
Computational study of mixing in a Kenics static mixer as a function of geometry.
*E. Ambrozy, J. M. Zalc, F. J. Muzzio
(Rutgers Univ., Piscataway, NJ, US)
[1030]
E5.1 9.30
Density profiles in the riser of a circulating fluidized bed.
K. Smolders, *J. Baeyens
(Cathol. Univ. Leuven, Heverlee, BE)
[219]
E5.2 9.50
Prediction of solid mass flow in circulating fluidized bed.
P. Fauquet, R. Seigle, *E. Brunier
(UTC, Compiegne, FR)
[727]
E5.3 10.10
Attrition and erosion in powder circulation loops.
*J. Baeyens, K. Smolders, E. Vanzeir
(Cathol. Univ. Leuven, Heverlee, BE)
[220]
E5.4 10.30
Characteristics of gas-fluidized beds of large light particles after addition of liquid.
*Y. Nagahashi, A. Yokogawa1, J. R. Grace2, N. Epstein2, Y. Asako3
(Kochi Nat. Coll. Technol., JP; 1Kochi Univ. Technol., JP; 2Univ. British Columbia, Vancouver, CA; 3Tokyo Metrop. Univ., JP)
[58]
E5.5 10.50
Powder coating of small particles in vibro-fluidized bed.
*H. Kage, K. Nishihara, H. Ishimatsu, H. Ogura, Y. Matsuno
(Kyushu Inst. Technol., Kitakyushu, JP)
[245]
E5.6 11.10
Mixing properties of the lignite - dolomite binary system in a fluidized bed.
O. Karvan, M. F. Yardim, *H. Atakul1
(Istanbul Tech. Univ., Maslak, TR; 1TUBITAK, Gebze, TR)
[873]
E5.7 11.30
Mass transfer in fluidized bed leaching units.
D. Mowla
(Shiraz Univ., IR)
[803]
E6.1 14.00
Increasing grain drying efficiency and improving quality.
*M. Parti, P. Francsics1, I. Dugmanics
(Tech. Univ. Budapest, HU; 1Pannon Univ. Agric. Sci., Keszthely, HU)
[852]
E6.3 14.30
Plate heat exchangers for cooling and mixing of highly viscous fluids.
M. Feier, *M. Reppich1
(Buss-SMS GmbH, Butzbach, DE; 1Thermowave GmbH, Berga, DE)
[616]
E6.4 15.00
Study of local boiling phenomenon on different metallic surfaces in non-circular flow passages under laminar flow conditions.
*P. V. Ravi Kumar, C. Chiranjivi
(RVR&JC Coll. Eng., Chowdavaram, IN)
[130]
E6.5 15.30
Heat exchange during boil-off formation in LNG storage tank.
*N. Abdelbaki, A. Benbrik, A. Guebla
(Univ. Boumerdes, DZ)
[182]
E6.6 16.00
An energy efficient evaporation system for scaling conditions.
N. Renne, *U. Gren
(Chalmers Univ. Technol., Goteborg, SE)
[1384]
E6.7 16.30
A new form of generalized drying kinetics.
G. I. Efremov
(State Textile Univ., Moskva, RU)
[1292]
E7.1 9.30
Advancement of circulating pressurized fluidizad bed combustion up to plants of the second generation.
*F. Schierack, H. J. Krautz, T. Nies1, U. Priesmeier1
(Brandenburg Tech. Univ., Cottbus, DE; 1BBP Envir. GmbH, Gummersbach, DE)
[787]
E7.2 10.00
Influence of the burner system to the thermal processes in pulverized coal-fired boilers.
*R. Filkoski, I. Petrovski, I. Gjurkov
(Fac. Mech. Eng., Skopje, MK)
[334]
E7.3 10.30
The electric field enhanced heat/mass transfer processes in the flame channel flows.
*M. Zake, M. Purmals, D. Turlajs1, I. Barmina1
(Univ. Latvia, Salaspils, LV; 1Riga Tech. Univ., LV)
[181]
E7.4 11.00
Performance evaluation of heat transfer enhancement (HTE technology).
*M. R. Jafari Nasr, G. T. Polley1, A. T. Zoghi
(NIOC, Tehran, IR; 1UMIST, Manchester, UK)
[1433]
E7.5 11.30
Synthesis of highly ordered mesoporous silica as an adsorbent for adsorption heat pumps.
*A. Endo, T. Shimazaki, M. Nakaiwa, T. Akiya, T. Nakane
(Nat. Inst. Mat. Chem. Res., Tsukuba, JP)
[559]
E7.7 12.00
The dual integral equations method with L-parameter for solution of mixed nonstationary boundary value problems.
V. Kozlov, *P. Mandrik, N. Yurchuk
(Belarus. State Univ., Minsk, BY)
[1287]
E8.1 14.00
Heat transfer characterictics through wavy cross-sectional channels.
*S. G. Etemad, F. Farhadi, S. Sanati
(Isfahan Univ. Technol., IR)
[59]
E8.2 14.30
Numerical study of natural convection in an enclosure with partition.
*N. Y. Abdel-Shafi, H. A. Mohamed
(Assiut Univ, EG)
[118]
E8.3 15.00
Study of heat transfer to a plastic rotating annular passage for steam condensation.
*H. A. Mohamed, N. Y. Abdel-Shafi, A. S. Abo El-Lail
(Assiut Univ., EG)
[119]
E8.5 15.30
Heat and mass transfer in a boundary layer of humid air with steam condensation on a surface.
E. P. Volchkov, *V. V. Terekhov, V. I. Terekhov
(Inst. Thermophys., Novosibirsk, RU)
[831]
E8.6 16.00
Effect of the boundary layer thickness on the heat transfer during film boiling at vertical cylinders.
A. Bolukbasi, I. Kotcioglu, *H. Sarac
(Ataturk Univ., Erzurum, TR)
[985]
E8.7 16.30
Mathematical modeling of spray cooling towers in cement plants.
A. Rahimi, M. Taheri, *J. Fathikalajahi
(Shiraz Univ., IR)
[802]
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