25 - 29 August 2002
Praha, Czech Republic
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15th International Congress of Chemical and Process Engineering 25 - 29 August 2002 Praha, Czech Republic |
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Posters P5, WednesdayChemical engineering educationP5.1 Real-time applications in Windows NT. *Vasek V., Bliznak M., Janacova D. (Tomas Bata Univ., Zlin, CZ) [1313] Computer aided process engineeringP5.2 Application of neural network modelling for product quality management. *Carsky M., Mikus O.1, Singh A.2 (Univ. Durban-Westville, ZA; 1Private Consultant, Modderfontein, ZA; 2Univ. Natal, Durban, ZA) [979] P5.3 Identification of an evaporator unity by neural networks. *De Assis A. J., Maciel Filho R.1 (UNIOESTE, Toledo, BR; 1UNICAMP, Campinas, BR) [24] P5.4 Predictive control of an evaporator unity by neural networks. *De Assis A. J., Maciel Filho R.1 (UNIOESTE, Toledo, BR; 1UNICAMP, Campinas, BR) [74] P5.5 Dynamic mathematical model for freeze drying process. *Boss E. A., Costa N. A., Maciel Filho R., Toledo E. C. V. (UNICAMP, Campinas, BR) [95] P5.6 Integrated process modeling and optimization system for production of metal cutting fluids. Chulok A. I., *Mitritchev S. I. (not given, RU) [145] P5.7 Object-oriented artificial intelligence system for drying process flowsheet design. Menshutina N. V., Poutchkov M. N., *Goncharova S. V., Vetrov A. V. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [191] P5.8 The effect of parameter settings on the performance of simulated annealing/simplex optimization method. *Jezowski J. M., Poplewski G., Jezowska A., Sloma R. (Rzeszow Univ. Technol., PL) [215] P5.9 Automating monitoring of research by means of Database Management System (DBMS). *Vetrov A. V., Lebedev E. O., Menshutina N. V., Kolesnikov V. A. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [251] P5.10 A nonlinear predictive control strategy using multiple models. Zhuang H., *Chiu M.-S. (Nat. Univ. Singapore, SG) [260] P5.11 Modern databases as information source for pharmaceutical companies. Meshcheryakova V. T., *Mishina V. J., Menshutina V. N., Makarova V. O. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [283] P5.12 Activated sludge modelling software. Salazar D., Henriquez J. J.1, Ortega B.1, *Sciamanna R. (Univ. Cent. Venezuela, Caracas, VE; 1HO Ingenieria, Valencia, VE) [391] P5.13 Chaos in chemical systems and chaos control. *Kortchagin E. Yu., Zharikov E. V., Koltsova E. M., Gordeev L. S. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [350] P5.14 System identification of a distillation column. *Mehrabani Zeinabad A. M. (Isfahan Univ. Technol., IR) [375] P5.15 A detailed deterministic model for three-phase slurry reactors: evaporation of the reagents and refrigerant fluid. *Vasco de Toledo E. C., Maciel Filho R. (UNICAMP, Campinas, BR) [381] P5.16 A reverse-flow reactor with an injection of a cold gas. Thullie J., *Kurpas M. (Silesian Univ. Technol., Gliwice, PL) [388] P5.17 Development of intellectual information system for evaluation of the economic efficiency of chemical technology equipment in the terms of tenders. Dorokhov I. N., Menshikov V. V., Nikulina E. A., *Surzhikov E. A., Spitsina E. A. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [435] P5.18 Development of knowledge base for intellectual information system for evaluation of the economic efficiency of chemical technology equipment in the terms of tenders. Dorokhov I. N., Menshikov V. V., Nikulina E. A., Surzhikov E. A., *Spitsina E. A. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [436] P5.19 Fuzzy-neuro-genetic modeling and control of flue gas emissions in FBC process. *Cojbasic Z., Stojiljkovic M., Cojbasic L., Ristic D. (Fac. Mech. Eng., Nis, YU) [471] P5.20 Genetic algorithms as a tool for optimization of an industrial reactor of cyclehexanol production. *Victorino I. R. S., Maciel Filho R. (UNICAMP, Campinas, BR) [474] P5.21 Investigation of solid wood impregnation with acetic anhydride by mathematical modelling. *Aboltins A., Morozovs A. (Latv. Univ. Agric., Jelgava, LV) [489] P5.22 Modeling and simulation of sodium beta-alaninate synthesis using dedicated software packages. *Calin C., Agachi S.1 (Terapia SA, Cluj-Napoca, RO; 1Babes-Bolyai Univ., Cluj-Napoca, RO) [511] P5.23 Modulated temperature oscillations in reverse-flow reactors. Thullie J., *Kocur A., Gierczycki A. (Silesian Univ. Technol., Gliwice, PL) [523] P5.24 Neural networks in odour measurements. Kosmider J., *Zamelczyk-Pajewska M. (Tech. Univ. Szczecin, PL) [527] P5.25 Object-oriented modeling environment for chemical processes. Menshutina N. V., *Poutchkov M. N., Vetrov A. V. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [539] P5.26 Program to design wastewater treatment plants. Castro A., Henriquez J. J.1, Ortega B.1, *Sciamanna R. (Univ. Cent. Venezuela, Caracas, VE; 1HO Ingenieria, Valencia, VE) [555] P5.27 The automated integrated system of processing, representing and retaining of the information for quality management in chemical technology. Egorov A. F., Shergold I. B., *Gololobov Yu. V. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [590] P5.28 The informational technology of the quality control and the security of products. *Gordeeva J., Ivashkin Yu. (State Univ. Appl. Biotechnol., Moskva, RU) [673] P5.29 Expert system for multiproduct paint-materials manufacturing. Menshikov V. V., Gordeev L. S., *Bykov A. E. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [693] P5.30 A decomposition of MISO type objects using an inference break-up method. *Roj E. (Inst. Naw. Sztucz., Pulawy, PL) [728] P5.31 Pilot 3-D simulation of the temperature field of the ceramic material EUCOR. Heger J., *Kavicka F., Sekanina B., Stetina J., Ramik P. (Tech. Univ., Brno, CZ) [875] P5.32 The program following control of a dynamic system using neural networks. *Roj E. (Inst. Naw. Sztucz., Pulawy, PL) [793] P5.33 Graphical diagrams system for making decisions under investigation of chemical objects by experimental-statistical modelling method. *Statyukha G. A., Petran A. G. (Nat. Tech. Univ., Kyiv, UA) [907] P5.34 The computer analysis of scientific organizations innovational potential in chemical industry on an example of CALS-technologies introduction. *Bessarabov A. M., Safonova T. A., Efimova V. P., Avseev A. V. (IREA, Moskva, RU) [997] P5.35 Simulation and optimization of the T-100 X tower in the PVAY-2 vacuum distillation plant in the Amuay refinery. *Elman H., Guevara G. (Univ. Cent. Venezuela, Caracas, VE) [1083] P5.36 SHAHAB-PC based simulator for prediction of furnace run length for the pyrolysis of hydrocarbons (ethane to naphtha). Towfighi J., Sadrameli M., Karimzadeh R., *Niaei A., Mofrahi M., Mokhtarani B., Saedi G., Hosseini S., Karimaei M. (Tarbiat Modares Univ., Tehran, IR) [1136] P5.37 Mathematical modelling of pullulan biosynthesis. *Stojanovic S. B., Veljkovic V., Mladenovic I. (Fac. Technol., Leskovac, YU) [1302] P5.38 Optimization-based tuning of PID controllers. Cascade systems. Alfano Neto C. F., *Embirucu M.1 (PROPET S. A., Camacari, BR; 1UFBA, Salvador, BR) [1304] P5.39 Optimization-based tuning of PID controllers. Multi-loop systems. Alfano Neto C. F., *Embirucu M.1 (PROPET S. A., Camacari, BR; 1UFBA, Salvador, BR) [1305] P5.40 Phenomenological and empirical modeling and simulation of an industrial C3 splitter using real plant data. Jesus N., Maciel Filho R., *Embirucu M. (UFBA, Salvador, BR) [1306] P5.41 Real implementation and economic benefits through control of an industrial propylene/propane distillation column. Jesus N., Maciel Filho R., *Embirucu M. (UFBA, Salvador, BR) [1307] P5.44 Computer aided integration of the reforming section of an ammonia plant. *Flores P., Monroy-Loperena R. (Inst. Mex. Petrol., Mexico, MX) [1421] P5.45 Adaptive control of centrifugal compressors. *Laaouad F., Fekhar H., Zaamoum R. (Univ. Boumerdes, DZ) [1444] P5.46 Finding the best operating conditions of carbon dioxide production from acidic natural gas. *Simon F., Csermely Z., Vago A.1 (Res. Inst. Chem. Proc. Eng., Veszprem, HU; 1Hung. Oil Gas Comp., Kiskunhalas, HU) [1346] P5.47 Further results on natural iterative learning control of a process plant with unknown pure time-delays. *Lazarevic P. M. (Fac. Mech. Eng., Beograd, YU) [1453] P5.48 Interaction and disturbance propagation between process control loops. *Benhalla A., Khelassi A. (Univ. Boumerdes, DZ) [1477] P5.49 Adaptive control for nonlinear objects using a neural network approach. *Roj E. (Inst. Naw. Sztucz., Pulawy, PL) [1474] P5.50 Artificial neural networks applied to the detection of olive oil adulteration with hazelnut oil. *Benitez P. L., Cabrera L., Jimenez J., Guadix E.1, Benitez J. M.1 (Puleva Biotech S. A., ES; 1Univ. Granada, ES) [1475] P5.51 3D imaging of the texture evolution during convective drying of soft shrinkable materials. Leonard A., Blacher S., Marchot P., Pirard J.-P., *Crine M. (Univ. Liege, BE) [1482] P5.52 Optimized operation conditions of perchlorine reactors of Shiraz petrochemical complex. Ardeshiri E., *Fathikalajahi J., Mowla D. (Shiraz Univ., IR) [1515] PRES 2002P5.54 GPEX: a generalized program for extinguishing systems. *Pierucci S., Sogaro A., Delfante P.1, Pinciroli M.1, Comi Y.1 (Politecnico, Milano, IT; 1Industrial Trading, Milano, IT) [218] P5.55 A conceptual scheme for integrating natural gas steam-reforming into power and heat-producing plants. *Safonov M. S., Okunev B. N., Zhatikov P. A. (Lomonosov State Univ., Moskva, RU) [341] P5.56 Analysis of sugar production flowsheets. Part I: Mathematical modelling. *Ribas Garcia M., Hurtado Vargas R., Diaz R., De Armas Casanova C., Rostgaard Beltran L.1 (ICIDCA, La Habana, CU; 1Camilo Cienfuegos Sugar Fact., La Habana, CU) [398] P5.57 HEN optimisation for crude oil distillation unit. Azmi A. S., *Klemes J., Ngatirin S.1 (UMIST, Manchester, UK; 1PERTAMINA, Jakarta, ID) [477] P5.58 Modelling and simulation of drying of in-bulk Amaranthus grains. Tironi A., Crozza D. E., *Pagano A. M. (Univ. Nac. Cent. Prov. B. A., Olavarria, AR) [517] P5.59 Problems and perspectives of development of competitiveness of processing industry in exciting business conditions. *Meshalkin V. P., Goncharov M. V., Dli M. I., Fomchenkova L. V. (Mendeleev Univ. Chem. Technol. Russia, Moskva, RU) [1005] P5.60 Energy conservation in a rectified spirit plant. Biswas S., *Roy S. C., Biswas G. K. (Jadavpur Univ., Calcutta, IN) [1049] P5.61 Open and closed-loop optimization of a reactive distillation column. *Dadhe K., Gesthuisen R., Volker M., Engell S. (Univ. Dortmund, DE) [1075] P5.62 Applying constraints in mass exchange network. *Amidpour M., Gougol M., Rashtchian D.1 (Iranian R&D Cent. Chem. Ind., IR; 1Sharif Univ. Technol., Tehran, IR) [127] P5.63 Analysis of sugar production flowsheets. Part II: Software tool and case study. *Hurtado Vargas R., Ribas Garcia M., Diaz R., De Armas Casanova C., Rostgaard Beltran L.1 (ICIDCA, La Habana, CU; 1Camilo Cienfuegos Sugar Fact., La Habana, CU) [399] P5.64 CFD modelling and design optimisation of an exhaust duct. *Hajek J., Kermes V., Bebar L., Stehlik P. (Tech. Univ., Brno, CZ) [411] P5.65 Compact unit for thermal treatment of off-gases in natural gas production - industrial application. Oral J., Cupr P., *Stulir R.1, Hajny Z., Puchyr R., Stehlik P.1 (EVECO, Brno, CZ; 1Tech. Univ., Brno, CZ) [416] P5.66 Modeling of system for thermal processing of wastes including heat recovery. *Havlen L., Sponar M., Puchyr R.1, Bebar L., Oral J.1, Stehlik P. (Tech. Univ., Brno, CZ; 1EVECO, Brno, CZ) [521] P5.67 Modelling of unit for thermal treatment of organic pollutants. *Fabikovic V., Stulir R., Oral J.1, Stehlik P. (Tech. Univ., Brno, CZ; 1EVECO, Brno, CZ) [522] P5.68 Removal of fluorides from watery solutions by means of chemical precipitation. Maria de Jesus C., *Sciamanna R., Camacho F., Ceci N. (Univ. Cent. Venezuela, Caracas, VE) [560] P5.69 Heat integration improvement for Eastern European countries sugar-plant. Tovazhnyansky L. L., Kapustenko P. O., *Ulyev L. M., Boldyryev S. A.1 (Kharkiv Polytech. Inst., UA; 1SODRUGESTVO, Kharkiv, UA) [695] P5.70 Optimisation of water consumption in an oil refinery. *Iancu P., Plesu V., Constantinescu G.1 (Univ. Politehnica, Bucuresti, RO; 1PETROM, Brazi, RO) [1250] P5.71 Emission reduction through effective burner design. *Kermes V., Hajek J., Bebar L., Canek J.1, Oral J.2, Stehlik P. (Tech. Univ., Brno, CZ; 1Res. Inst. Chem. Equip., Brno, CZ; 2EVECO, Brno, CZ) [632] P5.72 Thermal processing of wastes using gasification. Bebar L., Granados J., Dvorak P., Ochrana L., Skala Z., Stehlik P., *Martinak P. (Tech. Univ., Brno, CZ) [678] P5.73 Optimisation of vacuum system at vacuum distillation unit. *Salek J., Kohoutek J., Stehlik P. (Tech. Univ., Brno, CZ) [771] P5.74 The improving of efficiency of industrial water use networks by example of soda refinery. *Statyukha G., Kvitka A., Jezowski J.1, Shakhnovsky A. (Nat. Tech. Univ., Kyiv, UA; 1Tech. Univ. Rzesow, PL) [954] P5.75 Pressure as a further parameter of composite curves in energy process integration. *Vaclavek V., Novotna A., Dedkova J. (Inst. Chem. Technol., Praha, CZ) [1043] P5.76 Using waste reduction algorithm to assess pollution reduction for improvement of an oil refinery process. Plesu V., *Iancu P., Plesu A. E., Duca G.1, Mitu A.1 (Univ. Politehnica, Bucuresti, RO; 1Astra Romana, Ploiesti, RO) [1251] P5.78 Using information technology methodologies for training in process engineering. Plesu V., *Onofrei R., Bita A., Duca G.1, Matei M.2 (Univ. Politehnica, Bucuresti, RO; 1Astra Romana, Ploiesti, RO; 2Rafo S.A., Onesti, RO) [1239] P5.79 Improving CO2 removal and energy saving for hydrogen plant. Bumbac G., *Plesu V., Duca G.1 (Univ. Politehnica, Bucuresti, RO; 1Astra Romana, Ploiesti, RO) [1245] P5.80 Pollution from electrical power generation by gas turbines. *Aboukheshem M. B., Kadhum A. A. S.1, Hasan M.1 (7th April Univ., Tripoli, LY; 1Azzawiya Oil Ref. Co., LY) [995] P5.81 Modelling and case study for a water and wastewater minimisation problem. Plesu V., *Iancu P., Nutu N., Mitu A.1 (Univ. Politehnica, Bucuresti, RO; 1Astra Romana, Ploiesti, RO) [1238] P5.82 Catalytic distillation modelling and simulation using HYSYS.Process(TM) environment. Bumbac G., *Plesu V., Bologa V., Muja I.1, Popescu D. C. (Univ. Politehnica, Bucuresti, RO; 1PETROM, Ploiesti, RO) [1240] P5.83 Cost evaluation for design of complex processes. Plesu V., *Bercaru M. T., Woinaroschy A. E., Bercaru G., Zamfirache R.1 (Univ. Politehnica, Bucuresti, RO; 1PETROM, Ploiesti, RO) [1241] P5.84 Economic evaluation of a catalytic distillation process. Bozga G., *Bumbac G., Bercaru M. T., Marcov-Tacu C., Zamfirache R.1, Popescu D. C. (Univ. Politehnica, Bucuresti, RO; 1PETROM, Ploiesti, RO) [1243] Separation processesFiltrationP5.85 Fundamental study of sludge filtration and expression. *Mihoubi D., Vaxelaire J.1, Zagrouba F., Bellagi A.2 (Inst. Nat. Res. Sci. Tech., Hammam-Lif, TN; 1ENSIG, Pau, FR; 2Ec. Nat. Ing. Monastir, TN) [122] P5.86 Thermodynamic analyses of sorption isotherms of viscoelastic cake. *Mihoubi D., Zagrouba F., Vaxelaire J.1, Bellagi A.2 (Inst. Nat. Res. Sci. Tech., Hammam-Lif, TN; 1ENSIG, Pau, FR; 2Ec. Nat. Ing. Monastir, TN) [123] P5.87 Analysis of pressure drop in multi-compartment bag filter. *Ikeno H., Tada Y.1, Hiraoka S.1, Shuto Y.1 (Sinto Kogio, Kota, JP; 1Nagoya Inst. Technol., JP) [305] P5.89 Advanced means and development of filtering granular layers regeneration. *Entin S. V., Anzheurov N. M., Panov S. Yu.1, Krasovitskij Yu. V.1, Al-Qudah M.2 (Semiluki Refract. Factory, RU; 1Voronezh State Acad., RU; 2Ministry Educ., JO) [1264] Fluid flow and multiphase systemsFluid flowP5.92 Development of device based on adsorption-semiconductor sensor purposed for determination of gas leaks from pipelines without unearthing. *Maksymovych N., Ruchko V., Maksymovych O., Kaskevych O., Nikitina N., Ripko O., Yatsimirski V. (Shevchenko Kyiv Univ., UA) [3] P5.93 Drag coefficient of a porous particle: core-and-shell model. *Hsieh Y. H., Hsu J. P. (Nat. Taiwan Univ., Taipei, TW) [71] P5.94 Electrokinetic flow through an elliptical microchannel: effects of aspect ratio and electrical boundary conditions. *Kao C. Y., Hsu J. P. (Nat. Taiwan Univ., Taipei, TW) [75] P5.95 Heat transfer and hydrodynamics on a circular horizontal cylinder exposed to impinging two dimensional jet flow. Semyonov Yu. P., Belyakov V. A., Khromenko A. V., Paryghin K. E., *Klimov V. O. (Moscow State Univ. Forest, RU) [142] P5.96 Degradation of the drag reducing polymer solutions during the flow through pumps. Broniarz-Press L., *Rozanski J., Jur A., Dryjer S. (Poznan Univ. Technol., PL) [180] P5.97 Flow of rheostable fluids through porous and fluidised bed. *Broniarz-Press L., Agacinski P. (Poznan Univ. Technol., PL) [182] P5.98 Flow of the surfactant's solutions in the both straigth and curved pipes. Broniarz-Press L., *Rozanski J., Dryjer S., Woziwodzki S. (Poznan Univ. Technol., PL) [183] P5.99 Maximal drag reduction regions for the flow of both polymer's and surfactant's solutions in straight pipes. *Broniarz-Press L., Rozanski J. (Poznan Univ. Technol., PL) [187] P5.100 Batcher-detector characteristic and residence time determination. Dolata M., *Michalski J. A., Ziolkowski D. (Inst. Phys. Chem., Warszawa, PL) [267] P5.101 Flow analysis of immiscible fluids in packed beds. *Chikh S., Bouhadef H., Bouhadef K. (USTHB, Alger, DZ) [277] P5.102 Solution of slow steady state flow problem in a constant width channel with taking into account curvature distinction of its boundaries. *Ulyev L. M. (Nat. Tech. Univ., Kharkiv, UA) [332] P5.103 Numerical simulation for two-phase flow velocity fluctuation. *Matsuura A., Nakamura H., Hiraoka S.1, Tada Y.1, Kato Y.1, Kojima M.1 (Daido Inst. Technol., Nagoya, JP; 1Nagoya Inst. Technol., JP) [326] P5.104 The characteristics of the emulsion produced using different methods. *Hapanowicz J. (Tech. Univ. Opole, PL) [376] P5.105 Effect of CO2 diffusion on wettability for hydrocarbon-water-CO2 systems in capillaries. Aguilera M. E., Zeppieri S., *Lopez de Ramos A. (Univ. Simon Bolivar, Caracas, VE) [441] P5.106 Estimation of liquid holdup in horizontal pipes for stratified gas-liquid flow. *Anselmi R., Lopez de Ramos A. L., Gonzalez-Mendizabal D. (Univ. Simon Bolivar, Caracas, VE) [451] P5.107 Numerical modeling of turbulence in flow in impinging jet. *Bartoszewicz J., Boguslawski L. (Poznan Univ. Technol., PL) [538] P5.108 Gas holdup and oxygen transfer in viscous non-newtonian liquids having yield stress in bubble column. *Terasaka K., Shibata H. (Keio Univ., Yokohama, JP) [544] P5.109 Penetration of nanometer-sized particles through a laminar flow tube under low-pressure conditions. *Kuga Y., Fujimoto T., Funabiki A., Takeda D. (Muroran Inst. Technol., JP) [546] P5.110 Process of the extrusion in the unit of the special design. *Fekete R., Jasso I. (Slovak Univ. Technol., Bratislava, SK) [554] P5.112 The effect of the dispersed to continuous phase viscosity ratio on flow past a fluid sphere. *Saboni A., Alexandrova S., Gourdon C.1 (Univ. Caen, Saint Lo, FR; 1ENSIACET, Toulouse, FR) [672] P5.113 CFD simulation of processes in pulverised coal-fired boiler furnace. *Filkoski R. V., Petrovski I. J., Nospal A. T. (Univ. Sv. Kiril i Metodij, Skopje, MK) [684] P5.114 Terminal velocity of non-spherical particles falling through a Carreau model liquid. *Machac I., Teichman R., Bendova H., Siska B. (Univ. Pardubice, CZ) [717] P5.115 Annular two-phase downflow of gas-very viscous liquid. *Witczak S., Troniewski L., Filipczak G. (Tech. Univ. Opole, PL) [731] P5.116 Flow pattern to three-phase air-water-oil flow in horizontal pipes. *Witczak S., Pendyk B. (Tech. Univ. Opole, PL) [748] P5.118 Transient rise velocity of air bubbles in water. *Orvalho S. C: P., Vasconcelos J. M. T., Alves S. S. (Inst. Sup. Tec., Lisboa, PT) [794] P5.119 Fluid flow analysis with finite volume numerical model using power law and Sisko rheological models. *Delic M., Marn J. (Fac. Mech. Eng., Maribor, SI) [849] P5.120 Hydrodynamics of pulsing flow in three-phase reactors operated at elevated pressure. *Szlemp A., Bartelmus G., Janecki D.1 (Inst. Chem. Eng., Gliwice, PL; 1Univ. Opole, PL) [910] P5.121 Hydrodynamics of three-phase solid bed reactor for foaming system. *Janecki D., Bartelmus G., Szlemp A.1 (Univ. Opole, PL; 1Inst. Chem. Eng., Gliwice, PL) [911] P5.122 Experimental study of soil erosion by splash. Bouhadef M., *Mouzai L. (USTHB, Algiers, DZ) [992] P5.123 Verification of CFD model by stimulus response method. *Thyn J., Novy M., Houdek P., Borroto Portela G.1, Zitny R. (Czech Tech. Univ., Praha, CZ; 1ISCTN, La Habana, CU) [999] P5.124 Experimental study of surface gravity waves induced by an obstacle moving in a hydraulic channel. Guendouzen T., *Bouhadef M., Zitoun T. (USTHB, Algiers, DZ) [1000] P5.125 Gravity capillary waves in a hydraulic channel. *Younsi A., Bouhadef M., Guendouzen T. (USTHB, Algiers, DZ) [1001] P5.126 The influence of small tube diameter and inclination angle on flooding phenomena. *Mouza A. A., Paras S. V., Karabelas A. J. (Aristotle Univ., Thessaloniki, GR) [1022] P5.127 A novel viscometric sensor for measuring the apparent wall slip effect. *Wein O., Vecer M. (Inst. Chem. Proc. Fundam., Praha, CZ) [1057] P5.128 Acoustics of bubble formation: a preliminary study. *Dostal P., Ruzicka M.1, Drahos J.1, Wichterle K. (Tech. Univ. Ostrava, CZ; 1Inst. Chem. Proc. Fundam., Praha, CZ) [1068] P5.129 Effect of surface active agents on flow regime transition in bubble columns. Mena P., *Ruzicka M.1, Drahos J.1, Teixeira J.2, Rocha F. (Univ. Porto, PT; 1Inst. Chem. Proc. Fundam., Praha, CZ; 2Univ. Minho, Braga, PT) [1070] P5.130 Effect of viscosity on flow regime transition in bubble columns. Mena P., *Ruzicka M.1, Drahos J.1, Teixeira J.2, Rocha F. (Univ. Porto, PT; 1Inst. Chem. Proc. Fundam., Praha, CZ; 2Univ. Minho, Braga, PT) [1071] P5.131 Staged bubble columns with hydrophones and high-speed video. Hoeller V., *Ruzicka M.1, Renken A., Drahos J.1 (Swiss Fed. Inst. Technol., Zurich, CH; 1Inst. Chem. Proc. Fundam., Praha, CZ) [1077] P5.132 High-speed video images of hydrodynamic interactions in bubbly flow. *Broder D., Ruzicka M.1, Drahos J.1, Sommerfeld M. (Martin-Luther-Univ., Halle-Wittenberg, DE; 1Inst. Chem. Proc. Fundam., Praha, CZ) [1080] P5.133 A new model viscoelastic liquid based on water-soluble polymers. *Tihon J., Tovcigrecko V. (Inst. Chem. Proc. Fundam., Praha, CZ) [1148] P5.134 A comparison of two numerical modelling approaches for the simulation of particle dispersion in turbulent mixing layer. *Li L., Yang X., Wood J.1 (Univ. Paisley, UK; 1Univ. Strathclyde, Glasgow, UK) [1216] P5.135 Modelling of phenomena occurred during moulding process by means of Polyflow program. *Koszkul J., Szczepanski K., Suberlyak O. (Tech. Univ. Czestochowa, PL) [1293] P5.136 Light particle - liquid interaction in an inverse fluidized bed. Kawalec-Pietrenko B., *Szczepaniak J. (Tech. Univ. Gdansk, PL) [1363] P5.137 The interest of Hydrocyclone equipped with underflow Grit pot to concentrate suspended matter in run-off water treatment. *Puprasert C., Hebrard G., Aurelle Y. (INSA, Toulouse, FR) [1365] P5.138 Rheological properties of the blood of newborns. *Etemad S. G., Mousavand T., Foroutan S. A.1 (Isfahan Univ. Technol., IR; 1Univ. Shahid Behesti, Tehran, IR) [1375] P5.139 Numerical simulation of coastal structures impact in nearshore zone. *Khellaf M. C., Bouhadef M. (USTHB, Algiers, DZ) [1379] P5.140 Inter-phase momentum transfer in gas-solid flows. *Kandhai D., Derksen J. J., Van den Akker H. E. A. (Delft Univ. Technol., NL) [1404] P5.141 Heterogeneous mass transfer models for gas absorption in two-phase systems. *Wlodarczyk D., Kierzkowska-Pawlak H., Zarzycki R. (Tech. Univ. Lodz, PL) [1405] P5.142 Analysis of compression stations gas turbine functioning under the Saharian South Algerian conditions. *Slimane A. (Univ. Boumerdes, DZ) [1419] P5.143 Modelling of non-ideal injection in liquid chromatography. *Grznarova G., Polakovic M., Acai P., Gorner T.1 (Slovak Univ. Technol., Bratislava, SK; 1CNRS/INPL, Vandoeuvre, FR) [1461] P5.144 Study of thixotropic behaviour of potato starch with selected hydrocolloids. *Grzesik M., Ptaszek P. (Acad. Agric., Krakow, PL) [1478] Fluid flow and multiphase systemsMixingP5.145 Mixing studies - the effect of non-Newtonian fluid behaviour. *Slemenik Perse L., Zumer M. (Fac. Chem. Chem. Technol., Ljubljana, SI) [149] P5.146 Characteristics and efficiency of screw agitators in a tube. *Rieger F. (Czech Tech. Univ., Praha, CZ) [623] P5.147 Local swell of surface by liquid macro-vortex in stirred vessel. *Jahoda M., Paruzek K., Machon V. (Inst. Chem. Technol., Praha, CZ) [993] P5.148 Energy dissipation in flocculation tank stirred by A310 impeller - study. *Sulc R., Ditl P. (Czech Tech. Univ., Praha, CZ) [446] P5.149 Momentum transfer in an agitated vessel equipped with an eccentrically located impeller. *Karcz J., Cudak M. (Tech. Univ. Szczecin, PL) [1020] P5.150 An efficiency of the heat transfer process in an agitated vessel equipped with a vertical tubular coil. *Karcz J., Strek F., Major M., Michalska M. (Tech. Univ. Szczecin, PL) [1016] P5.151 Investigation of heat transfer coefficient distribution on the tank wall for a flat-blade impeller. *Niedzielska A., Kuncewicz C. (Tech. Univ. Lodz, PL) [519] P5.152 Energy dissipation rate in the tank with self-aspirating impellers. *Kania A., Kuncewicz C. (Tech. Univ. Lodz, PL) [319] P5.153 Non-conventional construction of the impellers against the background of standard classification. *Wesolowski P. (Poznan Univ. Technol., PL) [534] P5.154 The stirring oscillation method for study of the bioprocess. *Berzins A., Rikmanis M., Viesturs U., Toma M., Viskere B. (Inst. Microbiol. Biotechnol., Riga, LV) [943] P5.155 Homogenization in two- and three-phase multi-impeller stirred reactor. *Majirova H., Jahoda M., Machon V. (Inst. Chem. Technol., Praha, CZ) [480] P5.156 Research of mixing with the odered loading of components. *Pershin V., Selivanov Yu, Demin O., Orlov V. (Tambov State Tech. Univ., RU) [562] P5.157 Hydrodynamics and morphology of filamentous bacteria in a stirred tank fermenter. Groslambert S., Blacher S., *Crine M. (Univ. Liege, BE) [1486] P5.158 Oxygen transfer in mechanically agitated systems: with two liquid systems. *Wlodarczyk D., Kierzkowska-Pawlak H., Zarzycki R. (Tech. Univ. Lodz, PL) [1337] Mixing of suspensionsP5.159 Suspension efficiency of axial impellers. *Jirout T., Kysela B., Rieger F., Ditl P., Sperling R.1, Jembere S.1 (Czech Tech. Univ., Praha, CZ; 1Anhalt Univ. Appl. Sci., Kothen, DE) [669] P5.160 Mixing of suspensions in the slender tanks. *Rieger F., Rzyski E.1 (Czech Tech. Univ., Praha, CZ; 1Tech. Univ. Lodz, PL) [641] P5.161 Experimental studies of the solid - liquid system in an agitated vessel with the no-standard baffles. *Karcz J., Wiech D. (Tech. Univ. Szczecin, PL) [1017] P5.162 Aggregation and breakage of solid particles in suspensions agitated in a vibrating mixer. *Gierczycki A. T. (Silesian Univ. Technol., Gliwice, PL) [106] P5.163 Effect of particle concentration on solid-liquid mass transfer coefficients in stirred vessels. *Grisafi F., Simone F., Brucato A., Rizzuti L. (Univ. Palermo, IT) [1279] P5.164 Synthesis and characterisation of CdS clusters and superclusters in A type zeolite. *Ramirez-Bon R., Flores-Acosta M., Ochoa-Landin R., Arizpe-Chavez H.1, Soltelo-Lerma M.1, Castillon-Barraza F. F.1 (Univ. Queretaro, MX; 1Univ. Sonora, Hermosillo, MX) [1271] P5.165 Ceramic fiber suspensions - continuum theory and practical issues. *Pabst W. (Inst. Chem. Technol., Praha, CZ) [1369] Fluid flow and multiphase systemsFluidizationP5.167 Hydrodynamic behaviour of a gas-solid air-loop stripper. *Mengxi Liu, Chunxi Lu (Univ. Petrol., Beijing, CN) [184] P5.168 Study of powder coating in fluidized bed. Consequences of the air-liquid injection on the hydrodynamic and thermal behaviour of a fluidised bed. *Cherif R., Hemati M.1, Laguerie C.1 (EMP, Boumerdes, DZ; 1ENSIGC, Toulouse, FR) [257] P5.169 Residence time of gas in an organized fluidized bed. Dolata M., *Michalski J. A., Ziolkowski D. (Inst. Phys. Chem., Warszawa, PL) [290] P5.170 Analysis of Pressure Fluctuations Feedback in Fluidised Beds. *Aragon J. M., Jimenez D., Palancar M. C. (Univ. Complutense, Madrid, ES) [306] P5.171 Temperature distribution within the coal particle during drying in fluidized bed. *Komatina M. S., Ilic M. S.1, Voronjec D. K. (Fac. Mech. Eng., Beograd, YU; 1Inst. Nucl. Sci. Vinca, Beograd, YU) [1256] P5.172 Hydrodynamics of a conical spouted bed at high temperatures. *San Jose M. J., Alvarez S., Izquierdo M. A., Aguado R., Olazar M. (Univ. Pais Vasco, Bilbao, ES) [909] P5.173 Particle trajectories and cycle times in spouted beds. *San Jose M. J., Alvarez S., Izquierdo M. A., Aguado R., Olazar M. (Univ. Pais Vasco, Bilbao, ES) [926] P5.174 Conical spouted bed technology with internal devices for combustion of wood wastes. *San Jose M. J., Alvarez S., Izquierdo M. A., Aguado R., Olazar M. (Univ. Pais Vasco, Bilbao, ES) [898] P5.175 Entrainment of fine particles from an agitated fluidized bed. *Reyes A., Molina G. (Univ. Santiago de Chile, CL) [1445] P5.176 The fountain in spouted beds. *San Jose M. J., Alvarez S., Izquierdo M. A., Aguado R., Bilbao J. (Univ. Pais Vasco, Bilbao, ES) [942] P5.177 Magnetically stabilized circulating fluidized bed. Chichbankar S. N., Bhanarkar A., Dahikar S. K., Nagrale D. B-, *Sonolikar R. L. (Laxminarayan Inst. Technol., Nagpur, IN) [762] Heat transfer processesP5.178 Turbulent double diffusion modelling in salt solar accumulations. *Musemic R. (Univ. Sarajevo, BA) [1226] P5.179 Numerical model of vacuum freeze drying of random solids at two-region contact-radiative heating. *Nastaj J., Witkiewicz K. (Tech. Univ. Szczecin, PL) [1089] P5.180 Mathematical modeling of biomaterials vacuum freeze drying at contact -microwave heating. Nastaj J., *Witkiewicz K. (Tech. Univ. Szczecin, PL) [1087] P5.181 Natural convection in a partially porous channel with localized heat sources. *Bouhadef K., Chikh S. (USTHB, Algiers, DZ) [994] P5.182 Parallel flow asymmetries in heat exchangers. *Zitny R., Thyn J., Houdek P. (Czech Tech. Univ., Praha, CZ) [983] P5.184 Experimental study on convective coefficients in a slurry bubble column. Quiroz I., Herrera Delgado I., *Gonzalez-Mendizabal D. (Univ. Simon Bolivar, Caracas, VE) [460] P5.185 Design of experiments in the inverse drying problems. *Kanevce L. P., Kanevce G. H., Mitrevski V. B., Angelevski Z. Z. (Kliment Ohridsky Univ., Bitola, MK) [838] P5.186 An improved way of coupling between a mechanical heat pump and a thermo-chemical heat pump, in order to obtain a system with an increased efficiency of energy management. Onofrei R., *Bita A. (Univ. Politehnica, Bucuresti, RO) [681] P5.187 Temperature control in the induction furnace. Dmitryev G. A., *Prutensky D. V., Prutenskaya E. A. (Tver Tech. Univ., RU) [588] P5.188 A simulation model for analysing the thermal behaviour of a solar convective dryer. *Chemkhi S., Zagrouba F., Kerkeni C., Mihoubi D., Ballagi A.1 (Inst. Nat. Rech. Sci. Tech., Hammam Lif, TN; 1Ec. Nat. Ing. Monastir, TN) [168] P5.189 A numerical model that accounts for the coupling of the heat and mass transfer and the rheological behavior of a viscoelastic material. *Chemkhi S., Mihoubi D., Zagrouba F., Ballagi A.1 (Inst. Nat. Rech. Sci. Tech., Hammam Lif, TN; 1Ec. Nat. Ing. Monastir, TN) [167] P5.190 Install compact heat exchanger to replace shell and tube heat exchangers in platforming unit. *Masri M. A., Maachi N. (Algerian Pet. Inst., Boumerdes, DZ) [26] P5.191 Experimental study on Marangoni effect induced by heat and mass transfer. Savoca G., Caballero C., Villafana E., *Aguilera M. E. (Univ. Simon Bolivar, Caracas, VE) [462] P5.192 Estimation of influence of turbulent flow structure on heat transfer coefficient distribution on surface impinged by free jet. *Boguslawski L. (Poznan Univ. Technol., PL) [450] P5.193 A molecular quantum mechanism of natural convection heat transfer to a fluid with polar molecules. *Soare G. (Univ. Politech., Bucuresti, RO) [384] P5.194 Measurement of temperature fields using thermochromic liquid crystals. *Vejrazka J., Marty P.1, Sobolik V. (Inst. Chem. Proc. Fundam., Praha, CZ; 1CEA, Grenoble, FR) [282] P5.195 Contribution to the rational exploitation of the band brake of the drillig winch. *Benbrik A. (Univ. Boumerdes, DZ) [272] P5.196 Mass transfer at solid melting in solution. *Petrescu S., Bacaoanu A. (Tech. Univ., Iasi, RO) [223] P5.197 Local heat transfer coefficient at spherical particle melting. *Petrescu S., Horoba L. D., Lisa C. (Tech. Univ., Iasi, RO) [221] P5.198 Numerical simulation of mixed convection flow and heat transfer in horizontal ducts. Loubar K., *Benkahla Y. K. (USTHB, Algiers, DZ) [1253] P5.199 Free convective mass transfer at inclined isosceles triangles. *Keppert M, Krysa J., Wragg A. A.1 (Inst. Chem. Technol., Praha, CZ; 1Univ. Exeter, UK) [1162] P5.200 A study of transport phenomena in a dryer with immersed channels. *Daoud K., Daoud M., Abchiche H., Djellab Z. (USTHB, Algiers, DZ) [1206] P5.201 Mathematical model for swirl laminar flow with heat transfer. Iacob V., *Popescu D. C. (PETROM, Ploiesti, RO) [1284] P5.202 A heat transfer study on fins of various shapes. *Oufer L., Louni F., Mouheb A. (USTHB, Algiers, DZ) [1272] P5.203 Analysis of thermal processes of steam boilers for fast steam production. *Masic M., Komatina M.1, Ristivojevic M.1 (Milit. Tech. Inst., Beograd, YU; 1Fac. Mech. Eng., Beograd, YU) [1269] P5.204 Heat transfer coefficient in two-phase annular viscous liquid-inert gas flow. *Filipczak G., Troniewski L., Witczak S. (Tech. Univ. Opole, PL) [752] P5.206 Vacum dryer for drying products of special purpose. Petrovic A., *Dedic A.1, Spasojevic M.2 (Fac. Mech. Eng., Beograd, YU; 1Fac. Forestry, Beograd, YU; 2Thermo-energetic Plant N. Tesla, Obrenovac, YU) [1330] P5.207 Analytical solution of forced convection of nonlinear viscoelastic fluids between parallel plates with moving boundary. Hashemabadi S. H., *Etemad S. G.1, Golkar Naranji M. R., Thibault J.2 (Amirkabir Univ. Technol., Tehran, IR; 1Isfahan Univ. Technol., IR; 2Univ. Ottawa, CA) [1374] P5.208 The influence of a solute concentration level and electric field on mass transfer during droplet formation and motion in a liquid-liquid contactor. Elperin T., *Fominykh A. (Ben-Gurion Univ. Negev, Beer-Sheva, IL) [1382] P5.209 The application of quasichemical method of Stogrin-Hirschfelder for data correlation of thermal conductivity of inert gases at low temperatures. *Shashkov A. G., Kolenchits O. A., Nesterov N. A. (Inst. Heat Mass Transfer, Minsk, BY) [1433] Particulate solidsP5.210 A fundamental study of dry and wet grinding from the viewpoint of bending test with impact. *Kanda Y., Kotake N., Sano S. (Yamagata Univ., JP) [1056] P5.211 Structural evolution and thermal stability of ball milled Ti-Al powders for different concentrations and milling time. *Espinoza-Beltran F. J., Velazquez-Salazar J., Morales-Hernandez J.1 (IPN, Queretaro, MX; 1Univ. Auton., Queretaro, MX) [1361] P5.212 A qualitative dynamic model of an autogenous mill. Dohnal M., *Krejci A. (Tech. Univ. Brno, CZ) [1451] P5.213 Influence of kernel size on wheat milling properties. *Dziki D., Laskowski J. (Agric. Acad., Lublin, PL) [756] P5.214 The problems of energy consumption in hammer mill for corn grain. Kalwaj J., *Mrozinski A. (Univ. Technol. Agric., Bydgoszcz, PL) [961] P5.215 The effect of the wetting parameters on the power demand during the drum granulation. *Heim A., Gluba T., Obraniak A. (Tech. Univ. Lodz, PL) [591] P5.216 The effect of bed wetting conditions on the quality of a product obtained during drum granulation. *Gluba T. (Tech. Univ. Lodz, PL) [337] P5.217 The effect of process and equipment parameters on bulk density of the bed during drum granulation. Heim A., Gluba T., *Obraniak A. (Tech. Univ. Lodz, PL) [338] P5.218 Plasma spraying enables spheroidisation of tungsten particles. *Brozek V., Dufek V., Neufuss K. (Inst. Plasma Phys., Praha, CZ) [1494] P5.219 Manufacturing of a multicomponent mixture with usage of two-stage technology of feeding. *Pershin V., Barishnikova S., Osipov A., Filimonov D. (Tambov State Tech. Univ., RU) [495] P5.220 The contribution to solution of energetical aspect of particulate material mixing. *Guzela S., Peciar M., Juriga M. (Slovak Univ. Technol., Bratislava, SK) [941] P5.221 Attrition action of long granular materials in a ribbon blender. *Masiuk S., Kordas M. (Tech. Univ. Szczecin, PL) [896] P5.222 Separation of granular materials with use of centrifugal forces. *Zouev P. G., Yakovlev N. A., Kalinichenko S. S. (Kuban State Technol. Univ., Krasnodar, RU) [881] P5.223 Research of batching of fibrous materials. *Zouev P. G., Gergel A. A., Orlov A. V. (Kuban State Technol. Univ., Krasnodar, RU) [878] P5.224 Pressing of by-products at the grain processing enterprises. *Zouev P. G., Orlov A. V., Gergel A. A. (Kuban State Technol. Univ., Krasnodar, RU) [876] P5.225 Determining solids flow rate for blow tank pneumatic conveying systems: an approximate method. *McGlinchey D. (Caledonian Univ., Glasgow, UK) [15] P5.226 Microscopic particle evaluation using an image analyser. *Jirak E., Povolny P. (Inst. Chem. Technol., Praha, CZ) [1491] Last minute submissionsP5.227 INTINT - Intelligent Column Internals for Reactive Separations. A novel design methodology for tailor-made column internals (EU GROWTH Project). *Gorak A., Kenig E, Moritz P.1, Klemes J.2 (Tech. Univ. Dortmund, DE; 1Sulzer Chemtech AG, Winterthur, CH; 2UMIST, Manchester, UK) [1529] P5.228 Application of adaptive temperature control to an ethylene cracking pilot plant furnace. *Masoumi M. E., Sadrameli M.1, Niaei A.1 (Islamic Azad Univ., Tehran, IR; 1Tarbiat Modarres Univ., Tehran, IR) [1527] P5.229 Heat and power production in acrylic acid process design. *Gorsek A., Glavic P. (Fac. Chem. Chem. Eng., Maribor, SI) [56] P5.230 CFD analysis of the sailrail air bearing material handling system. *Chung J., Perera M. S. (Ryerson Univ., Toronto Ont., CA) [12] Next page |