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Posters P1, Monday
Reaction engineering
P1.1 Step versus impulse feeding of a fed batch animal cell bioreactor. *Lavric V.,
Ofiteru I. D.,
Woinaroschy A.
(Univ. Politehnica, Bucuresti, RO) [252]
P1.4 Electric field effects on the onset of density instability of an autocatalytic reaction front. *Zadrazil A.,
Sevcikova H.
(Inst. Chem. Technol., Praha, CZ) [929]
P1.5 FTS selectivity enhancement by distributing H2 along a fixed-bed reactor. Sharifnia S.,
*Mortazavi Y.,
Khodadadi A.-A.,
Nazari A.
(Univ. Tehran, IR) [996]
P1.6 Low temperature oxidation of CO and hydrocarbons over supported gold catalysts for automotive applications. Ivanova S.,
Petit C.,
*Pitchon V.
(CNRS-ECPM, Strasbourg, FR) [1442]
P1.7 Application of dynamic programming method in optimal control and simulation of an industrial naphtha cracker. *Towfighi J.,
Karimzadeh R.,
Niaei A.1,
Saedi G.
(Tarbiat Modares Univ., Tehran, IR;
1Tabriz Univ., IR) [1474]
P1.8 Dynamical response of the pH-oscillatory reaction hydrogen peroxide-thiosulfate-Cu2+ in the CSTR to external pulses. *Bakes D.,
Schreiberova L.,
Schreiber I.
(Inst. Chem. Technol., Praha, CZ) [871]
P1.15 Effect of the operating conditions on the synthesis of dimethyl ether over CuO-ZnO-Al2O3/gamma-Al2O3 bifunctional catalysts. Garona R.,
*Erena J.,
Arandes J. M.,
Aguayo A. T.,
Bilbao J.
(Univ. Pais Vasco, Bilbao, ES) [104]
P1.16 Valorization of polystyrene-butadiene/light cycle oil blends over HY zeolites. Arandes J. M.,
*Erena J.,
Azkoiti M. J.,
Torre I.,
Bilbao J.
(Univ. Pais Vasco, Bilbao, ES) [105]
P1.17 Catalytic decomposition of inorganic peroxide compounds. *Ippolitov E. G.,
Kruglikova O. A.1,
Kabluchaya Z. N.1,
Shlyakhova M. A.1
(Kurnakov Inst. Gen. Inorg. Chem., Moskva, RU;
1State Pedag. Univ., Moskva, RU) [338]
P1.18 Circulating reaction zone in a double-bed chemical reactor. Thullie J.,
*Bodzek M.
(Silesian Univ. Technol., Gliwice, PL) [340]
P1.19 Efficiency of reverse flow reactors with interstage injection. Thullie J.,
*Kurpas M.
(Silesian Univ. Technol., Gliwice, PL) [345]
P1.20 Modeling and simulation of gluconic acid production in an internal loop airlift bioreactor. *Znad H.,
Bales V.,
Markos J.,
Kawase Y.1
(Slovak Univ. Technol., Bratislava, SK;
1Toyo Univ., JP) [352]
P1.21 Cracking and isomerization of petroleum load of the n-hexadecane with aluminosilicats catalysts (Al, Ni, Mo, Co, Zr) presence,
application of the "sol-gel" method. *Boucenna A.,
Zamoum O.,
Dekkar S.,
Gherbi A.,
Kolesnikov I. M.1
(Univ. Boumerdes, DZ;
1Gubkin State Acad. Oil Gas, Moskva, RU) [506]
P1.22 Determination of the growth kinetics parameters of Rhizopus delemar in solid-state fermentation. Tagliari C. V.,
Franco T. T.,
Paca J.1,
*Soccol C. R.2
(UNICAMP, Campinas, BR;
1Inst. Chem. Technol., Praha, CZ;
2UFPF, Curitiba, BR) [524]
P1.25 Naphtha hydrotreatment reactor model. Marroquin de la Rosa J. O.,
Valencia Lopez J. J.,
*Ochoa Tapia J. A.1,
Viveros Garcia T.1
(Inst. Mex. Pet., Mexico, MX;
1Univ. Aut. Metrop., Mexico, MX) [654]
P1.27 Rapid thermal treatment of inorganic materials in a centrifugal flash reactor as a stage of catalysts preparation. Investigation
of CTA products. *Tanashev Y. Y.,
Isupova L. A.,
Ivanova A. S.,
Kharina I. V.,
Pankratiev Y. D.,
Kruglyakov V. Y.,
Moroz E. M.,
Litvak G. S.,
Parmon V. N.
(Boreskov Inst. Catal., Novosibirsk, RU) [701]
P1.29 Immobilization, mass transfer, and kinetics of carboxylesterase in a flow calorimeter. *Malik F.,
Stefuca V.,
Bales V.
(Slovak Univ. Technol., Bratislava, SK) [73]
P1.30 Aromatic amines synthesis on cellular high-porous catalysts. Tishin O. A.,
Kozlov A. I.1,
Rudakova T. V.2,
*Belousov E. K.2,
Safonov S. A.1
(Volgograd State Tech. Univ., RU;
1Mendeleev Univ. Chem. Technol., Moskva, RU;
2JSC Volzhsky Orgsynthese, RU) [115]
P1.31 Catalytic hydrodechlorination of chlorobenzene and hexachlorobenzene on carbon supported bimetallic catalysts. *Gentsler A. G.,
Simagina V. I.,
Stoyanova I. V.,
Tayban E. S.,
Netskina O. V.,
Tsybulya S. V.,
Kryukova G. N.
(Boreskov Inst. Catal., Novosibirsk, RU) [133]
P1.33 The application of trickle-bed reactors for the biopurification of air from volatile organic compounds (VOC's). *Kasperczyk D.,
Bartelmus G.
(Inst. Chem. Eng., Gliwice, PL) [183]
P1.34 Nonlinear dynamics of heterogeneous and homogeneous tubular chemical reactors with heat feedback by external double-pipe heat
exchanger. *Berezowski M.,
Grabski A.1,
Bodzek M.
(Silesian Univ. Technol., Gliwice, PL;
1Univ. Studi Sannio, Benevento, IT) [192]
P1.35 Regeneration of etching solutions using electrochemical reactors provided with porous ceramic diaphragms. Perez-Herranz V.,
*Guinon J. L.,
Garcia-Anton J.,
Reyes H.,
Sanchez-Vilches E.1,
Mestre S.1
(Univ. Valencia, ES;
1Inst. Technol. Ceram., Castellon, ES) [223]
P1.37 Optimizing the fed-batch chemical reactor for the polyethylene pyrolysis. *Lavric V.
(Univ. Politehnica, Bucuresti, RO) [242]
P1.38 Neural networks applied to the cultivation of Pseudomonas aeruginosa in a large-scale bioreactor to optimize a bacterial immunomodulator
production. Vacaru M.,
Salageanu A.,
*Lavric V.
(Univ. Politehnica, Bucuresti, RO) [247]
P1.41 High-temperature reaction of kaolin with sodium hydrogensulfate. A study of its reaction mechanism. Colina F. G.,
*Caballero I.,
Costa J.
(Univ. Barcelona, ES) [301]
P1.42 High-temperature reaction of kaolin with sulfuric acid - SO3. A study of its reaction mechanism. Colina F. G.,
*Caballero I.,
Costa J.
(Univ. Barcelona, ES) [302]
P1.43 Kinetic modelling of catalytic pyrolysis of biomass in a conical spouted bed reactor. *Atutxa A.,
Aguado R.,
Valle B.,
Gayubo A. G.,
Bilbao J.
(Univ. Pais Vasco, Bilbao, ES) [305]
P1.44 Molecularly imprinted crosslinked copolymers prepared by thermal degradation of poly(methacryl-N,N'-dicyclohexylurea-co-ethylene
glycol dimethacrylate). *Erceg Kuzmic A.,
Vukovic R.,
Bogdanic G.,
Fles D.
(INA-Industrija Nafte, Zagreb, HR) [354]
P1.45 Mathematical model of industrial morpholine synthesis process. *Tishin O. A.,
Harritonov V. N.,
Katcheguine A. F.1,
Rudakova T. V.1,
Belousov E. K.1
(Volgograd State Tech. Univ., RU;
1Volzhsky Orgsynthese JSC, RU) [408]
P1.46 Isomerization of n-butane over Pt modified SAPO-5 and mordenite zeolite catalysts. *Villegas J. I.,
Kumar N.,
Salmi T.,
Murzin D. Y.
(Abo Akad. Univ., FI) [436]
P1.47 Analysis of non-linear phenomena due to imposed electric fields in an enzyme membrane reactor-reservoir system. *Kukula R.,
Hasal P.,
Schreiber I.
(Inst. Chem. Technol., Praha, CZ) [464]
P1.48 Catalyst deactivation by coke formation in an isothermal fixed-bed reactor: Mathematical modelling through approximate single-pellet
effectiveness factor. *Morales-Cabrera M. A.,
Marroquin de la Rosa J. O.1,
Viveros Garcia T.,
Ochoa Tapia J. A.
(Univ. Aut. Metrop., Mexico, MX;
1Inst. Mex. Pet., Mexico, MX) [485]
P1.49 Chemoselective hydrogenation of nerol and cinnamaldehyde over Pt-SiO2, Pt-H-Y and Pt-H-MCM-41 catalysts. *Maki-Arvela P.,
Kumar N.,
Hajek J.,
Salmi T.,
Murzin D. Y.
(Abo Akad. Univ., FI) [513]
P1.50 Development of methods for quantitative study of excitability in three-dimensional dynamical systems. *Voslar M.,
Schreiber I.
(Inst. Chem. Technol., Praha, CZ) [532]
P1.51 Effect of agitation and electrolysis on ultrasonic decomposition of organic compounds. *Yamashita F.,
Kobayashi D.,
Hayakawa T.
(Kanagawa Inst. Technol., Atsugi, JP) [543]
P1.52 Increasing of fermentation processes in cascade of two continuous fermentors. *Gordeeva J.,
Gordeev L. S.,
Rudakovskaya E.
(Mendeleev Univ. Chem. Technol., Moskva, RU) [595]
P1.53 IR-spectroscopy in the study of substituted acetophenones. *Shkilyova I. P.,
Artyomov M. M.,
Sulman E. M.
(Tver Tech. Univ., RU) [610]
P1.55 Modelling of the alcohol dehydrogenase production in baker's yeast. *Vrsalovic Presecki A.,
Vasic-Racki D.
(Univ. Zagreb, HR) [640]
P1.56 Optimisation of methanol synthesis process. *Grzesik M.,
Ptaszek A.1,
Maryanczyk A.1
(Inst. Chem. Eng., Gliwice, PL;
1Acad. Agric., Krakow, PL) [663]
P1.58 Rotor-inertial bioreactor for the heterogeneous biocatalytical processes. Kovalenko G. A.,
Sukhinin S. V.,
Perminova L. V.,
Simakov A. V.,
Komova O. V.,
*Tanashev Y. Y.
(Boreskov Inst. Catal., Novosibirsk, RU) [707]
P1.59 Oxidation of 1,1,2,2-tetrachloroethane at monolithic catalysts containing platinum and rhodium. *Zarczynski A.,
Gorzka Z.,
Kazmierczak M.,
Szczepaniak B.,
Stufka-Olczyk J.1
(Tech. Univ. Lodz, PL;
1Pulp&Paper Res. Inst., Lodz, PL) [708]
P1.60 Simultaneous heterogeneous autocatalytic reactions and external mass transport phenomena in a fixed-bed reactor. *Grzesik M.,
Ptaszek P.1
(Inst. Chem. Eng., Gliwice, PL;
1Agric. Univ., Krakow, PL) [717]
P1.61 State-of-the-art on the studies about physical-chemical stresses during bacterial cultivation in bioreactor. Menshutina N. V.,
*Guseva E.,
Nizhegorodova T.,
Boudrant J.1
(Mendeleev Univ. Chem. Technol., Moskva, RU;
1CNRS, Vandoeuvre-les-Nancy, FR) [726]
P1.62 The effect of catalyst used on the kinetics of isobuthyl methacrylate synthesis. *Grzesik M.,
Gumula T.1,
Skrzypek J.
(Inst. Chem. Eng., Gliwice, PL;
1Acad. Agric., Krakow, PL) [753]
P1.63 The pressure variation at the bottom of a reciprocating plate bioreactor filled with non-Newtonian liquids. Stamenkovic I. S.,
Stamenkovic O. S.,
*Bankovic-Ilic I. B.,
Lazic M. L.,
Veljkovic V. B.,
Skala D. U.1
(Univ. Nis, Leskovac, YU;
1Fac. Technol. Metall., Beograd, YU) [763]
P1.64 Destruction of 2-chlorophenol with/without basic catalysts under supercritical water and hydrogen peroxide. *Kim J.,
Hong S.,
Song E.,
Lim J.,
Lee Y.
(Korea Inst. Sci. Tech., Seoul, KR) [788]
P1.65 Synthesis and kinetics study of the niobium carbide obtained from niobium oxide by gas-solid reaction under H2/CH4 atmosphere
in a rotary cylinder reactor. Oliveira Fontes F. D. A.,
Fernandes de Sousa J.,
*De Souza C. P.,
Benachour M.,
Gomes U. U.
(UFRN, Natal, BR) [821]
P1.67 Bifurcation diagrams for the hydrogen peroxide-thiosulfate-Cu2+ reaction in the CSTR and classification of its mechanism. Spas P.,
Schreiberova L.,
*Schreiber I.
(Inst. Chem. Technol., Praha, CZ) [870]
P1.70 Electrocarboxylation using supercritical CO2. *Chanfreau S.,
Cognet P.,
Condoret J.-S.
(CNRS/INPT, Toulouse, FR) [939]
P1.71 Operating results from a SCWO pilot plant with a transpiring wall reactor. *Prikopsky K.,
Wellig B.,
von Rohr P. R.
(Swiss Fed. Inst. Technol., Zurich, CH) [975]
P1.72 Alkene hydrogenation in a catalytic membrane ionic liquid reactor. Basov N.,
*Scott K.,
Winterton N.1,
Davies C.1
(Univ. Newcastle, UK;
1Univ. Liverpool, UK) [1048]
P1.74 A study on coke deposition and coking inhibitors during naphtha pyrolysis in jet stirred-reactor system. *Niaei A.,
Salari D.,
Towfighi J.1
(Tabriz Univ., IR;
1Tarbiat Modares Univ., Tehran, IR) [1109]
P1.75 Producing ultra-low sulfur fuel via oxidative desulfurization. *Salari D.,
Rostamizadeh K.
(Univ. Tabriz, IR) [1115]
P1.76 Oxygen delignification kinetics and mass transfer at ultra low consistency. *Dogan I.,
Guruz G.
(Middle East Tech. Univ., Ankara, TR) [1273]
P1.77 Conversion of plant oils to methyl-ester fuels: considerations for reactor design in commercial and small-scale production. *von Blottnitz H.,
Sadat-Rezai S. A.,
Vardy J.
(Univ. Cape Town, ZA) [1361]
P1.78 Support effect on the hydrodechlorination of chlorobenzene over Pd catalysts. Jen P.-H.,
Hsu Y.-H.,
*Lin S. D.
(Yuan Ze Univ., Chung-Li, TW) [1375]
P1.83 Tantalum-niobium carbide synthesis from tantalite mineral (Fe, Mn)(Ta1-xNbx)2O6 in rotary cylinder reactor at low temperature. *De Souza C. P.,
Oliveira Fontes F. D. A.,
Carvalho R. H. R.,
Medeiros F. F. P.,
Gomes U. U.
(UFRN, Natal, BR) [905]
P1.84 Modelling of fermentation in an airlift bioreactor. *Jurascik M.,
Fabiny R.,
Vandakova M.,
Annus J.,
Markos J.
(Slovak Univ. Technol., Bratislava, SK) [922]
P1.85 Study of the coal combustion in the fluidised bed laboratory reactor. Holikova K.,
*Markos J.,
Jelemensky L.
(Slovak Univ. Technol., Bratislava, SK) [923]
P1.86 Nonlinear dynamics of CO, hydrocarbons and NOx conversion in the monolithic catalytic reactor. *Nevoral V.,
Koci P.,
Schreiber I.,
Kubicek M.,
Marek M.
(Inst. Chem. Technol., Praha, CZ) [931]
P1.87 Photocatalytic properties of plasma sprayed ilmenite. *Brozek V.,
Srank Z.,
Mastny L.,
Neufuss K.1
(Inst. Chem. Technol., Praha, CZ;
1Inst. Plasma Phys., Praha, CZ) [935]
P1.88 Sorption equilibria of ethylene and 1-hexene in LLDPE. *Bobak M.,
Novak A.,
Kosek J.
(Inst. Chem. Technol., Praha, CZ) [941]
P1.89 Effect of the distribution of catalyst activity on the morphogenesis of polyolefin particles. Horackova B.,
Grof Z.,
*Kosek J.
(Inst. Chem. Technol., Praha, CZ) [942]
P1.90 Design of the MTO process over a SAPO-34 catalyst in a fluidized bed with catalyst circulation. *Gayubo A. G.,
Alonso A.,
Atutxa A.,
Amundarain N.,
Aguayo A. T.
(Univ. Pais Vasco, Bilbao, ES) [954]
P1.92 Determination of saturated monolayer coverage in MoO3/Al2O3 catalysts by slurry impregnation method. Kaluza L.,
*Zdrazil M.,
Vit Z.
(Inst. Chem. Proc. Fundam., Praha, CZ) [1152]
P1.93 Simplified sol - gel method for preparation of mesoporous MgO support. *Gulkova D.,
Solcova O.,
Zdrazil M.
(Inst. Chem. Proc. Fundam., Praha, CZ) [1165]
P1.94 Non-traditional characterisation of AGO fraction for the modelling of pyrolysis processes. Belohlav Z.,
Eckert E.,
Herink T.,
*Vanek T.,
Zamostny P.
(Inst. Chem. Technol., Praha, CZ) [1189]
P1.95 The effect of calcium nitrate and phosphoric acid as reaction products to the course of decomposition Kola super-apatite by
nitric acid. Vidensky J.,
*Plat P.,
Jirkovsky J.
(Inst. Chem. Technol., Praha, CZ) [1201]
P1.96 Alkylation of m-cresol on a bench-scale trickle bed reactor. *Dudas J.,
van Coller R.,
Lepuru J.
(Bio/Chemtek CSIR, Modderfontaine, ZA) [1205]
P1.97 Kinetic study of limestone in reaction with sulphuric acid. Sedlarova I.,
Vidensky J.,
*Plat P.
(Inst. Chem. Technol., Praha, CZ) [1267]
P1.98 Thermodynamic study of non-oxidative methane transformation. *Fila V.,
Bernauer B.,
Spatenka S.,
Sobalik Z.1
(Inst. Chem. Technol., Praha, CZ;
1J. Heyrovsky Inst. Phys. Chem., Praha, CZ) [1269]
P1.102 Kinetic behavior of synthesis and hydrolysis of ethyl benzoate over Amberlyst 39. *Lee M. J.,
Chou P. L.,
Lin H. M.
(Nat. Taiwan Univ., Taipei, TW) [1295]
P1.104 A laboratory steam-cracking reactor to characterize raw materials. *Pinter A.,
Tungler A.,
Nagy L.,
Vida L.,
Kovacs I.,
Kerezsi J.
(Budapest Univ. Technol. Econ., HU) [1344]
P1.105 Computer implementation of simplifying stiff metabolic systems. *Choi J.-W.,
Lee T.-Y.,
Lee S. Y.
(Korea Adv. Inst. Sci. Technol., Daejon, KR) [1350]
P1.106 Decarboxylation of carboxylic acids over heterogeneous catalysts. *Kubickova I.,
Snare M.,
Maki-Arvela P.,
Salmi T.,
Murzin D. Y.
(Abo Akad., Turku, FI) [1422]
P1.107 Modeling of catalytic coke in thermal cracking furnaces. *Mohammad Alizadeh A.,
Towfighi J.,
Karimzadeh R.
(Tarbiat Modares Univ., Tehran, IR) [1491]
P1.108 Autoclave oxidation and thiourea leaching of refractory ores from Serbia. *Kamberovic Z.,
Korac M.,
Sinadinovic D.
(Fac. Technol. Metall., Beograd, YU) [1511]
P1.111 Selective hydrogenation of cinnamaldehyde over metal supported molecular sieves. *Hajek J.,
Kumar N.,
Maki-Arvela P.,
Salmi T.,
Murzin D. Y.
(Abo Akad. Univ., FI) [331]
P1.113 Gasification kinetics of high-ash South African coal chars. *Njapha D.,
Neomagus H.,
Everson R.1
(Technikon Witwatersrand, Doornfontein, ZA;
1Potchefstroon Univ., ZA) [1527]
P1.114 Co-containing mixed oxides and their activity in catalytic decomposition of nitrous oxide. Obalova L.,
*Jiratova K.1,
Kovanda F.2,
Pacultova K.,
Lacny Z.,
Mikulova Z.
(Tech. Univ. Ostrava, CZ;
1Inst. Chem. Proc. Fundam., Praha, CZ;
2Inst. Chem. Technol., Praha, CZ) [1727]
P1.115 Selectivity analysis in a cycled trickle bed reactor for catalytic wet air oxidation. Mignaqui V.,
*Ayude M. A.,
Haure P. M.
(UNMDP, Mar del Plata, AR) [1716]
P1.116 Catalytic wet oxidation of alcohols in trickle bed reactors with liquid flow modulation. Muzen A.,
Fraguio M. S.,
*Ayude M. A.,
Martinez O. M.1,
Cassanello M.
(Univ. Buenos Aires, AR;
1Univ. Nat. La Plata, AR) [1705]
P1.117 Lipase-catalysed synthesis of n-octyl oleate. A kinetic study. *Laudani C. G.,
Habulin M.1,
Knez Z.1
(Univ. Salerno, Fisciano, IT;
1Univ. Maribor, SI) [1686]
P1.118 Autocatalytic cobaltizing of ceramic support. *Bol'shakov A. M.,
Sergeeva O. V.,
Shpigun L. K.,
Lunina V. K.
(Kurnakov Inst. Gen. Inorg. Chem., Moskva, RU) [1683]
P1.119 Photocatalytic degradation of tetrachloroethylene in gas phase on TiO2 films: A kinetic study. Imoberdorf G.,
*Irazoqui H.,
Alfano O.
(INTEC, Santa Fe, AR) [1675]
P1.120 Phenomenological approach to understand the behavior of trickle bed reactors with liquid flow modulation. *Ayude M. A.,
Cassanello M.1,
Martinez O. M.2,
Haure P. M.
(UNMDP, Mar del Plata, AR;
1PINMATE, Buenos Aires, AR;
2UNLP, La Plata, AR) [1674]
P1.121 Modeling of annular photoreactor for the treatment of industrial effluents. Choudhury A.,
Park B. G.,
*Chung C. G.,
Chung J. S.
(Pohang Univ. Sci. Technol., KR) [1655]
P1.122 Steady-state and dynamic simulations of the water-gas shift reaction in a microchannel catalytic reactor. *Spatenka S.,
Fulem J.,
Fila V.,
Bernauer B.,
Germani G.1
(Inst. Chem. Technol., Praha, CZ;
1Inst. Rech. Catal., Villeurbanne, FR) [1636]
P1.123 CFD modeling of steady state and dynamic behavior of microchannel reactor for exothermic reactions. Fulem J.,
*Spatenka S.,
Fila V.,
Bernauer B.
(Inst. Chem. Technol., Praha, CZ) [1627]
P1.124 Xylene transformation over USY zeolite: A reactant converted catalyst decay model. Iliyas A.,
*Al-Khattaf S.
(King Fahd Univ. Petrol. Miner., Dhahran, SA) [1619]
P1.127 A key property for industrial catalysts: mechanical strength. *Pernicone N.,
Pinna F.1,
Signoretto M.1,
Melada S.1
(Consultant, Novara, IT;
1Univ. Venezia, IT) [1737]
P1.128 Simulation of the effect of recycling the unconverted residue in an "Ebullated" bed type hydrocracker. *Galiasso T. R.
(Univ. Simon Bolivar, Miranda, VE) [1651]
P1.129 Ethylene oxide production in an industrial catalytic reactor: Advanced modelling and optimisation. Ghaffari S.,
Ngian K.1,
Romagnoli J. A.,
*Gomes V. G.
(Univ. Sydney, AU;
1Huntsman Corp., AU) [1631]
P1.131 Degradation kinetics and mechanism of D-xylose in water at hydrothermal and supercritical conditions to recover useful chemical
intermediates. *Sasaki M.,
Saito T.,
Yamamoto K.,
Hayakawa T.1,
Adschiri T.1,
Arai K.1,
Goto M.,
Hirose T.
(Kumamoto Univ., JP;
1Tohoku Univ., Sendai, JP) [1545]
P1.133 Influence of partial neutralization on catalytic activity of ion exchange resin. Holub L.,
Hankova L.,
*Jerabek K.
(Inst. Chem. Proc. Fundam., Praha, CZ) [1523]
P1.137 Reaction kinetics associated with low temperature combustion of high ash South African coal chars. *Njapha D.,
Neomagus H.1,
Everson R.1
(Technikon Witwatersrand, Doornfontein, ZA;
1Potchefstroom Univ., ZA) [1532]
P1.138 Effect of UV light on polymer modified bitumen. Yerlikaya C.,
*Cirli O.,
Okutan H.
(Istanbul Tech. Univ., TR) [1646]
P1.141 Multi-functional unit combining a fuel cell and an enzyme electro-membrane reactor: Concepts, design, experiments. *Kukula R.,
Schultz T.1,
Schroder T.1,
Sundmacher K.1,
Hasal P.
(Inst. Chem. Technol., Praha, CZ;
1Max-Planck-Inst. Dyn. Compl. Tech. Syst., Magdeburg, DE) [1138]
Symposium on microreaction technology for process development and production
P1.146 Comparing different mixing principles using a homogeneous catalysed reaction. *Kober M.,
Marr R.,
Wojik A.,
Kirschneck D.1
(Tech. Univ. Graz, AT;
1Microinnova, Graz, AT) [493]
P1.147 Modeling of an immunoassay in a microstructured device. *Pribyl M.,
Snita D.,
Marek M.,
Hasal P.
(Inst. Chem. Technol., Praha, CZ) [808]
P1.148 Evaluation of electric potential distribution from the distribution of reacting ionic tracers in microchannels - tool for
experiments. Knapkova V.,
*Pribyl M.,
Lindner J.,
Marek M.
(Inst. Chem. Technol., Praha, CZ) [797]
P1.150 Development of a silica monolith-immobilized enzyme microbioreactor. *Kawakami K.,
Sera Y.,
Sakai S.,
Ono T.,
Ijima H.
(Kyushu Univ., Fukuoka, JP) [528]
P1.151 Decomposition of methanol in the microreactor with direct resistance heating and a monolithic copper catalyst. *Andreev D. V.,
Makarshin L. L.,
Parmon V. N.
(Boreskov Inst. Catal., Novosibirsk, RU) [144]
P1.152 Direct resistance heating of copper catalyst in microreactor: features in the reaction of methanol decomposition. *Andreev D. V.,
Makarshin L. L.,
Parmon V. N.
(Boreskov Inst. Catal., Novosibirsk, RU) [145]
P1.154 Reconstruction of porous media from electron microscopy images. *Nevoral V.,
Salejova G.,
Kosek J.,
Marek M.
(Inst. Chem. Technol., Praha, CZ) [932]
P1.155 Synthesis of metal oxide in the capillary-tube reactor. *Miyake T.,
Ueda T.,
Sano M.
(Kansai Univ., Suita-shi, JP) [1301]
Symposium on electrochemical engineering
P1.158 Radiation grafted membranes for direct methanol fuel cells. Shen M.,
*Scott K.,
Kuhlman J. W.,
Roy S.,
Horsfall J.,
Walsby N. M.,
Lovell K.
(Univ. Newcastle, UK) [1050]
P1.159 Water balance of PEM fuel cell: model and experiment. *Grigoriev S. A.,
Baranov I. E.,
Kalinnikov A. A.,
Borisova E. V.,
Fateev V. N.
(Kurchatov Inst., Moskva, RU) [241]
P1.160 Activity of alternative anodes based on Nafion-polypyrrole-Pt composites for methanol oxidation reaction. Holzhauser P.,
*Bouzek K.,
Lange M.1,
Juttner K.1
(Inst. Chem. Technol., Praha, CZ;
1K. Winnacker Inst. Dechema, Frankfurt/Main, DE) [965]
P1.161 Current status and future prospects of fuel cell technology in Iran. Amirinejad M.,
*Rowshanzamir S.,
Eikani M. H.1
(Iran Univ. Sci. Technol., Tehran, IR;
1Chem. Ind. Res. Cent., Tehran, IR) [987]
P1.163 Use of the urine test on the evaluation of the nickel exposition. *Arce R.,
Andres A.,
Viguri J.
(Univ. Cantabria, Santander, ES) [773]
P1.164 Electrical conductivity and transport properties of inorganic membranes containing hydrated zirconium dioxide. Dzyazko Y.,
*Mahmoud A.1,
Lapicque F.1
(Inst. Gen. Inorg. Chem., Moskva, RU;
1CNRS ENSIC, Nancy, FR) [981]
P1.165 Electrochemical decomposition of nitrobenzene on an electrochemical reactor with graphite anodes and cathodes. Pinto A.,
Colina F. G.,
*Costa J.
(Univ. Barcelona, ES) [294]
P1.166 Electrochemical decomposition of nitrobenzene on a tubular electrochemical reactor with a Ti anode and Cu cathode. Pinto A.,
Colina F. G.,
*Costa J.
(Univ. Barcelona, ES) [293]
P1.167 Products and by-products in the electrolysis of drinking water with very low chloride concentration. *Bergmann H.
(Anhalt Univ. Appl. Sci., Koethen, DE) [114]
Chemical engineering education
P1.170 Development of the supply with information for creation of electronic manuals for remote training ("Methods of synergetics
in chemistry and chemical technology"). *Kulkov S. S.,
Koltsova E. M.,
Skitchko A. S.,
Jensa A. V.
(Mendeleev Univ. Chem. Technol., Moskva, RU) [344]
P1.171 Non-traditional laboratory experiments: olive oil manufacturing and testing. *Savelski M. J.,
Dahm K.,
Farrell S.,
Hesketh R. P.
(Rowan Univ., Glassboro NJ, US) [78]
P1.172 Guilt-free chocolate: introducing freshmen to chemical engineering. *Savelski M. J.,
Farrell S.
(Rowan Univ., Glassboro NJ, US) [81]
P1.173 Future of chemical engineering: integrating biology into the ChE curriculum. *Mosto P.,
Savelski M. J.,
Hecht G. B.,
Farrell S.
(Rowan Univ., Glassboro NJ, US) [578]
P1.174 Development and implementation of an integrate e-learning system for chemical engineering - challenges and opportunities. *Plesu V.,
Bita A.,
Onofrei R.
(Univ. Politehnica, Bucuresti, RO) [1215]
P1.175 Creation of web-based education tools: internet-portal for the education in pharmaceutics area. Menshutina N. V.,
*Shishulin D. V.,
Goncharova S. V.,
Leuenberger H.1
(Mendeleev Univ. Chem. Technol., Moskva, RU;
1Univ. Basel, CH) [507]
P1.177 Determination of flow patterns by using urban pieces of art. Salmi T.,
*Warna J.
(Abo Akad. Univ., FI) [789]
P1.178 Development of software for application in polymerisation processes in agitated and fluidised bed reactors. Massa R. S.,
*Tannous K.
(UNICAMP, Campinas, BR) [721]
P1.181 Computational calculation of residue curve maps: an additional teaching tool. Reis M. H. M.,
*Wolf-Maciel M. R.
(UNICAMP, Campinas, BR) [432]
P1.183 A general overview of the present situation of studies in forensic science and engineering in non-UK EU countries. Costa J.,
*Colina F. G.,
Martinez D.,
Caballero I.
(Univ. Barcelona, ES) [1707]
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