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Lectures H
H1 - Monday morning
PRES 2004
Energy saving technology
Keynote lecture: Rethinking process development in fine and specialty chemicals. *Smith R.
(UMIST, Manchester, UK) [1499]
Energy recovery and environmental concerns addressed through emergy-pinch analysis. *Zhelev T.
(Univ. Limerick, IE) [1385]
Minimum energy expenditure in the thermal separation of hydrocarbon mixtures at low temperature. *Markowski M.,
Urbaniec K.,
Budek A.,
Grabarczyk R.
(Warsaw Univ. Technol., Plock, PL) [879]
Keynote lecture: Flexibility study of a utility system. *Chan P.,
Hui C.-W.
(Hong Kong Univ., HK) [1395]
Optimal specialty chemical plant retrofit with combined heat and power production. Gorsek A.,
*Glavic P.,
Bogataj M.
(Univ. Maribor, SI) [357]
Optimisation of a commercial olefin plant using pinch analysis. *Al-Rabiah A. A.
(King Saud Univ., Riyadh, SA) [1369]
H2 - Monday afternoon
PRES 2004
Emissions minimisation
Keynote lecture: High durability ePTFE membrane filtration and catalytic destruction of polychlorinated dibenzo-p-dioxins and dibenzofurans
long-term experience at European incineration plants. Pranghofer G. G.
(W. L. Gore&Assoc., Putzbrunn, DE) [1387]
Analysis of a power plant concept with inherent separation of CO2 - chemical-looping combustion. *Kronberger B.,
Luisser M.,
Hofbauer H.
(Vienna Univ. Technol., Wien, AT) [188]
Optimisation of energy requirements of a PSA process for CO2 recovering. Salhi D.,
Tondeur D.,
*Latifi M. A.
(CNRS-ENSIC, Nancy, FR) [1370]
Optimisation of integrated energy systems for remote communities considering economic and LCA factors as well as gaseous and
noise emissions with evolutionary algorithm. *Pelet X.,
Favrat D.,
Leyland G.
(EPFL, Lausanne, CH) [1504]
Modelling of the Lenzing SO2 recovery process and validation with plant data. *Steindl M.,
Wolfinger M. G.,
Sixta H.1,
Friedl A.2
(Wood K-Plus, Lenzing, AT;
1Lenzing R&D, Lenzing, AT;
2Univ. Technol., Wien, AT) [410]
Design of a DBD wire-cylinder reactor for NOx emission control - experimental and modeling. *Moscosa Santillan M.,
Vincent A.,
Amouroux J.
(UPMC/ENSCP, Paris, FR) [519]
Calorimetric measurements for modelling elimination of carbon dioxide by dissolution in aqueous systems. *Koschel D.,
Coxam J.-Y.,
Rodier L.,
Majer V.
(Univ. Blaise Pascal/CNRS, Aubiere, FR) [1307]
Pollutant emissions management in an existing plant by diminishing the production of undesirable compounds: the case of CHF3. *Pantzali M. N.,
Mouza A. A.,
Paras S. V.
(Aristotle Univ., Thessaloniki, GR) [362]
Use of LCA to investigate the environmental impact of carbon sequestration in the ocean. Tan R. B. H.,
*Khoo H. H.
(Nat. Univ. Singapore, SG) [196]
Techno-economic modelling and cost functions of CO2 capture processes. *Klemes J.,
Li B.,
Bulatov I.
(UMIST, Manchester, UK) [1437]
Integrated cement production with municipal solid waste incineration. Cheung W. H.,
Choy K. K. H.,
Hui C.-W.,
*McKay G.
(Hong Kong Univ. Sci. Technol., HK) [1415]
H3 - Tuesday morning
PRES 2004
Drying
Keynote lecture: Modeling, simulation and control; case study for wood drying systems (WDS) and clinker rotary kiln (CRK). *Tarasiewicz S.
(Laval Univ. Quebec, CA) [1258]
Mathematical modelling and computer simulation of heat and mass transfer during infrared processing (micronization) of yellow
peas. *Cenkowski S.,
Hong J. T.,
Scanlon M. G.,
Arntfield S. D.
(Univ. Manitoba, Winnipeg MB, CA) [1202]
Modeling superheated steam vacuum drying of wood. *Defo M.,
Fortin Y.,
Cloutier A.
(Univ. Laval, QC, CA) [1229]
Mechanical effects in saturated capillary-porous materials during convetive and microwave drying. Kowalski S. J.,
Rajewska K.,
*Rybicki A.
(Poznan Univ. Technol., PL) [380]
A dynamic analysis of drying energy consumption. Menshutina N. V.,
*Gordienko M. G.,
Voynovskiy A. A.,
Kudra T.1
(Mendeleev Univ. Chem. Technol., Moskva, SA;
1CANMET, Varennes Que., CA) [426]
Drying of liquid and pasty products in a modified spouted bed of inert particles. *Kutsakova V. E.
(State Acad. Refrig. Food Technol., St. Petersburg, RU) [1113]
H4 - Tuesday afternoon
PRES 2004
Drying
Keynote lecture: Energy-saving mode of drying for vegetative materials. Snezhkin Y. F.,
Boryak L. A.,
Marchevsky V. N.1,
*Seminskyi A. O.1
(Inst. Eng. Thermophys., Kyiv, UA;
1Nat. Tech. Univ., Kyiv, UA) [1000]
Calculation of the effective diffusion coefficients by applying a quasi-stationary equation for drying kinetics. Efremov G.,
*Kudra T.1
(Moscow State Open Univ., Moskva, RU;
1CANMET, Varennes PQ, CA) [1245]
Microwave drying of porous materials. Koziol A.,
*Araszkiewicz M.,
Oskwarek A.,
Lupinski M.
(Tech. Univ., Wroclaw, PL) [1417]
Applications of MATLAB-based software to drying simulation. *Wang D.-C.,
Fon D.-S.1
(De Lin Inst. Technol., Tu-Chen, TW;
1Nat. Taiwan Univ., Taipei, TW) [1402]
Modeling of diffusion in ellipsoidal solids: a simplified approach to solving some drying problems. *Li Z. Y.,
Ye J. S.
(Tanjin Univ. Sci. Technol., CN) [1133]
Experimental and numerical study of a solar convective tunnel drier. *Khiari B.,
Ben Mabrouk S.,
Sassi M.1
(INRST, Hammam-Lif, TN;
1Ec. Nat. Ing., Monastir, TN) [126]
Thermal dewatering of residual sludge: modeling and simulation. *Mihoubi D.,
Vaxelaire J.1,
Zagrouba F.,
Bellagi A.2
(INRST, Hammam-Lif, TN;
1ENSGTI, Pau, FR;
2Ec. Nat. Ing., Monastir, TN) [137]
Solar energy linear focus optical concentrators for drying. *Avaliani J.,
Kordzakhia I.,
Avaliani Z.
(Res. Inst. Optica, Tbilisi, GE) [1099]
Drying of clay: modeling of the thermo-hydro-viscoelastic behavior and experiments. *Chemkhi S.,
Zagrouba F.,
Jomaa W.1,
Puiggali J. R.1,
Bellagi A.2
(INRST, Hammam Lif, TN;
1ENSAM, Talence, FR;
2ENIM, Monastir, TN) [99]
Microwave-enhanced adsorption heat pump. *Nikzat H.,
Suenaga T.1,
Kubota M.1,
Deguchi S.1,
Watanabe F.1,
Kobayashi N.1,
Hasatani M.1
(Aichi Sci. Technol. Found., Nagoya, JP;
1Nagoya Univ., JP) [173]
H5 - Wednesday morning
PRES 2004
Integrated & advanced design
Keynote lecture: Multicomponent separation by heat-integrated distillation column (HIDiC). *Iwakabe K.,
Nakaiwa M.,
Huang K.,
Nakanishi T.1,
Zhu Y.,
Rosjorde A.2,
Ohmori T.,
Endo A.,
Yamamoto T.
(Nat. Inst. Adv. Ind. Sci. Technol., Ibaraki, JP;
1Kimura Chemical Plant, Hyogo, JP;
2Norwegian Univ. Sci. Technol., Trondheim, NO) [650]
Pinch analysis based conceptual design of heat-integrated distillation columns. Olujic Z.,
Gadalla M. A.,
*Sun L.,
de Rijke A.,
Jansens P. J.
(Delft Univ. Technol., NL) [676]
Process synthesis as a means for technology development. Halasz L.,
Niederl A.1,
*Narodoslawsky M.1
(Univ. Veszprem, HU;
1Graz Univ. Technol., AT) [693]
PRES Plenary: Most frequently used heat exchangers from pioneering research to applications worldwide. *Master B. I.,
Chunangad K. S.,
Boxma B.1,
Kral D.2,
Stehlik P.3
(ABB Lummus Heat Transfer, Bloomfield NJ, US;
1ABB Lummus Heat Transfer, The Hague, NL;
2Tenza Inc., Brno, CZ;
3Brno Univ. Technol., CZ) [1459]
Keynote lecture: Reducing CO2 emissions in heat-integrated distillation systems. Gadalla M. A.,
*de Rijke A.,
Olujic Z.,
Jansens P. J.,
Jobson M.1,
Smith R.1
(Delft Univ. Technol., NL;
1UMIST, Manchester, UK) [703]
Mathematical modeling and optimization of hydrogen storage in metal hydride beds. *Georgiadis M.,
Kikkinides E.1,
Athanasios S.2
(Imperial Coll. London, UK;
1Aristotle Univ., Thessaloniki, GR;
2Nat. Cent. Sci. Res Demokritos, Athens, GR) [384]
Conceptual design of radiant chamber and preliminary optimisation of process tubular furnace. *Jegla Z.
(Brno Univ. Technol., CZ) [226]
H6 - Wednesday afternoon
PRES 2004
Integrated & advanced design
Keynote lecture: Transient evaluation of process surfaces used in fouling applications. *Kukulka D. J.,
Devgun M.
(State Univ New York, Buffalo NY, US) [558]
Development of a method for analysing energy, environmental and economic efficiency for an integrated steel plant. *Larsson M.,
Wang C.,
Dahl J.
(Lulea Univ. Technol., SE) [1193]
The plate heat exchangers for high duties. Tovazhnyansky L. L.,
*Kapustenko P. O.1,
Perevertaylenko O.1,
Arsenyeva O. P.1
(Nat. Tech. Univ., Kharkiv, UA;
1SODRUGESTVO, Kharkiv, UA) [824]
Keynote lecture: Alternative design approach for multipass and multi-stream plate heat exchangers for use in heat recovery systems. *Picon-Nuez M.,
Lopez-Robles J. L.,
Miranda-Alvarez C.
(Univ. Guanajuato, MX) [1078]
Application of twisted tube heat exchangers technology in plants capacity up-rating. *Lutcha J.,
Ljubicic B.1
(Koch-Glitsch-Cee, Brno, CZ;
1Brown Finetube, Koch-Glitsch, Dudelange, LU) [1033]
Heat exchanger network retrofit by genetic algorithms. Bochenek R.,
*Jezowski J.
(Rzeszow Univ. Technol., PL) [217]
Optimal batch process design and operation under uncertainty. *Arellano-Garcia H.,
Wendt M.,
Li P.,
Wozny G.
(Tech. Univ. Berlin, DE) [662]
Metaheuristic multiobjective optimization approach for the scheduling of multiproduct plants. Bonfill A.,
Arbiza M. J.,
Canton J.,
*Guillen G.,
Mele F. D.,
Espuna A.,
Puigjaner L.
(Univ. Polit. Catal., Barcelona, ES) [806]
Heat integration of multipurpose batch plants using a continuous-time framework. *Majozi T.
(Univ. Pretoria, ZA) [1025]
Modelling, design and optimisation studies of batch and semi-batch reactors. Zheng X.,
Smith R.,
*Theodoropoulos C.
(UMIST, Manchester, UK) [1512]
Kinetic-induced noise effects and thermal response of a batch chemical reactor. Reverberi A. P.,
*Chiarioni A.,
Veglio F.1,
Dovi V. G.
(Univ. Genova, IT;
1Univ. l'Aquila, IT) [1396]
H7 - Thursday morning
PRES 2004
Industrial application & optimal design
Keynote lecture: An integrated multiobjective design tool for pulp and paper process design. *Manninen J.,
Hakanen J.1,
Kaijaluoto S.,
Hakala J.
(VTT Processes, Jyvaskyla, FI;
1Univ. Jyvaskyla, FI) [261]
Investigation of energy and feedstock saving production of isoparaffin fractions. Hancsok J.,
*Magyar S.,
Keresztury L.,
Nguyen K. V. S.,
Kallo D.1
(Univ. Veszprem, HU;
1Hung. Acad. Sci., Budapest, HU) [1453]
MOSAIC, a web-based approach to chemical process modeling. *Zerry R.,
Wozny G.
(Tech. Univ. Berlin, DE) [1162]
PRES Plenary: Utilising renewable resources economically - new challenges and chances for process development. *Narodoslawsky M.,
Niederl A.,
Halasz L.1
(Tech. Univ., Graz, AT;
1Univ. Veszprem, HU) [1494]
Keynote lecture: Challenge for industrial, building and residential heat pumps. *Thonon B.
(Greth, Grenoble, FR) [1052]
A heat piloted residential 5 kW fuel cell. *Lilien J. L.,
Marechal F.1,
Lerson S.,
Pochet N.
(Univ. Liege, BE;
1Ec. Polytech. Fed. Lausanne, CH) [1254]
Analysis of integrated flowsheets for biotechnological production of fuel ethanol. *Cardona C. A.,
Sanchez O. J.1
(Nat. Univ. Colombia, Manizales, CO;
1Univ. Caldas, CO) [463]
H8 - Thursday afternoon
PRES 2004
Energy saving technology
Keynote lecture: Structural optimisation of distributed energy systems. *Soderman J.,
Pettersson F.
(Abo Akad. Univ., FI) [271]
Audit for energy savings in sites with chemical processes. *Vaclavek V.
(Inst. Chem. Technol., Praha, CZ) [1274]
Keynote lecture: Chemical and process integration: Synergies from co-production of power and chemicals from natural gas, with CO2-capture. *Kaggerud K. H.,
Gundersen T.
(Norwegian Univ. Sci. Technol., Trondheim, NO) [342]
Reactive distillation towers: new strategies for start up. Repke J.-U.,
Reepmeyer F.,
*Wozny G.
(Tech. Univ., Berlin, DE) [1509]
Rate-based modelling of dividing wall columns - a new application to reactive systems. *Mueller I.,
Kloeker M.,
Kenig E. Y.
(Univ. Dortmund, DE) [1513]
Chemical reactors energy integration applied to SCWO. *Lavric E. D.,
Weyten H.1,
De Ruyck J.,
Plesu V.2,
Lavric V.2
(Vrije Univ., Bruxelles, BE;
1Vlaamse Instel. Technol. Onder., Mol, BE;
2Univ. Politehnica, Bucuresti, RO) [253]
Process intensification pathways in the treatment of incinerator flue gases. *Fino D.,
Russo N.,
Saracco G.,
Specchia V.
(Politech. Torino, IT) [692]
Unified approach for determining multiple flux distributions and pathways: maximization of acetate production. *Lee D.-Y.,
Fan L. T.1,
Park S.,
Lee S. Y.,
Shafie S.1,
Bertok B.2,
Friedler F.2
(KAIST, Daejon, KR;
1Kansas State Univ., Manhattan KS, US;
2Univ. Veszprem, HU) [914]
Pinch analysis - a tool for energy management within and across industrial plants. Iacob V.,
*Popescu D. C.,
Ivanescu I.1,
Plesu V.2
(PETROM, Ploiesti, RO;
1PETROM, Bucuresti, RO;
2Univ. Politehnica, Bucuresti, RO) [329]
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