Aea Technology

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	Excellence in combustion and heat technology research and application ECHTRA 2004 - 2008 Sujets : Education, Training, Regional Development, Coordination, Cooperation, Social Aspects, Scientific Research, Evaluation, Information, Media Other Indexes:Combustion in Swiri,Microgravity,Numerical Simulation,Unsteady Heat Transfer Type de contrat : Marie Curie actions-Transfer of Knowledge Participants : POLITECHNIKA LODZKA POLSKA POLITECHNIKA LODZKA Education DEPARTMENT OF HEAT TECHNOLOGY AND REFRIGERATION, MECHANICAL ENGINEERING, COMBUSTION LABORATORY Skorupki 6/8 POLSKA AEA TECHNOLOGY GMBH DEUTSCHLAND AEA TECHNOLOGY GMBH Industry CFX-CODE SUPPORT Staudenfeldweg 12 DEUTSCHLAND THE INSTITUTE OF MECHANICS - CHINESE ACADEMY OF SCIENCES CHINA THE INSTITUTE OF MECHANICS - CHINESE ACADEMY OF SCIENCES Research INSTITUTE OF MECHANICS/ NATIONAL MICROGRAVITY LABORATORY Bei-si-huba-xi Road 15 CHINA CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE FRANCE CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE Research LABORATOIRE DE COMBUSTION ET DE DETONIQUE, UPR 9028 CNRS Rue Michel Ange, 3 FRANCE UNIVERSITA DEGLI STUDI DI PALERMO ITALIA UNIVERSITA DEGLI STUDI DI PALERMO Education DIPARTIMENTO DI INGEGNERIA NUCLEARE Viale delle Scienze ITALIA CHALMERS TEKNISKA HOGSKOLA AB SVERIGE CHALMERS TEKNISKA HOGSKOLA AB Education DEPARTMENT OF THERMO AND FLUID DYNAMICS Chalmersplatsen 4 SVERIGE AEA TECHNOLOGY Germany AEA TECHNOLOGY Industry STAUDENFELDWEG 12 Germany Hide objective The research staff of the Department of Heat Technology of the Lodz University specializes in combustion of homogeneous swirling mixture and accompanying processes of heat transfer to the walls. Combustion in a swirling mixture has its important practical implications in different kinds of industrial burners and in some up-to-date combustion systems of spark ignition engines. The special subjects of interest are: 1) properties of flames propagating in a lean mixture (low pollution of NOX), 2) the mechanism of flame quenching under the action of highcentrifugal forces (flame quenching is potential source of pollution), 3) proper experimental measurements of related heat flux determined under unsteady conditions, 4) related numerical calculations of selected p roblems of heat transfer phenomena. To the best of our knowledge nobody is studying in detail the phenomena of flame propagation and extinction in a field of high centrifugal forces. The main objective of the proposal is to enhance all the elements of the described above research. In order to obtain visible quantitative and qualitative progress it is necessary to train researchers in more effective use of the existing in the Lodz laboratory PIV system (DANTEC), in more wide use of the visualization methods, in development of data acquisition systems, in more wide application of numerical calculation methods etc. Experienced researchers from some leading European research centres, during their visits to the Lodz laboratories, may train the local staff in expe rimental and numerical techniques in the process of the joint research work. Experienced researchers from the Lodz University sent to the selected European research laboratories are able to develop research capabilities in experimental techniques (e.g. PIV ) and in numerical methods (CFX, FLUID). The research team has a chance to intensify existing research programs by a transfer of the new knowledge to the laboratories of the Lodz University of Technology. Source : cordis   Experimental and numerical study of reactive flows in complex geometries with relevance to industrial safety for explosion protection EXPRO 2001 - 2004 Sujets : Safety, Social Aspects, Economic Aspects, Meteorology, Environmental Protection, Earth Sciences Type de contrat : Cost-sharing contracts Participants : UNIVERSIDAD CARLOS III DE MADRID ESPAÑA UNIVERSIDAD CARLOS III DE MADRID Other,Education DEPARTAMENTO DE INGENIERIA MECANICA Calle Butarque 15 28903 ESPAÑA FORSCHUNGSZENTRUM JUELICH GMBH DEUTSCHLAND FORSCHUNGSZENTRUM JUELICH GMBH Research INSTITUTE FOR SAFETY RESEARCH AND REACTOR TECHNOLOGY Postfach 19 13 Wilhelm-Johnen-Straße 52425 DEUTSCHLAND AACHEN UNIVERSITY OF TECHNOLOGY DEUTSCHLAND AACHEN UNIVERSITY OF TECHNOLOGY Education SHOCK WAVE LABORATORY 55,Templergraben 55 52056 DEUTSCHLAND UNIVERSIDAD POLITECNICA DE MADRID ESPAÑA UNIVERSIDAD POLITECNICA DE MADRID Education ESCUELA TECNICA SUPERIOR DE INGENIEROS INDUSTRIALES NUCLEAR ENGINEERING DEPARTMENT c/José Gutiérrez Abascal 2 28006 ESPAÑA AEA TECHNOLOGY GMBH DEUTSCHLAND AEA TECHNOLOGY GMBH Industry,Other DEVELOPMENT DEPARTMENT Staudenfeldweg 12 83624 DEUTSCHLAND NATIONAL NUCLEAR CORPORATION LTD. UNITED KINGDOM NATIONAL NUCLEAR CORPORATION LTD. Other REACTOR SYSTEMS AND ADVANCED TECHNOLOGY Chelford Road, Booths Hall WA16 8QZ UNITED KINGDOM AEA TECHNOLOGY Germany AEA TECHNOLOGY Industry STAUDENFELDWEG 12 Germany Hide objective This experimental/ theoretical/numerical project aims at revealing the physical-chemical mechanisms of explosion, and at deriving innovative methods for explosion protection. Both LES and VLES modelling strategies, with appropriate models for combustion and for multi-phase flows, will be incorporated into modern field codes using high-performance supercomputing for large-scale explosion simulations in complex geometries. Specific experiments and theoretical/numerical analyses, including fluid-structure interactions, will be performed in order to develop improved predictive capabilities. Experiments will be carried out in high-quality explosion facilities with various gas mixtures and additives for conditions relevant to industrial safety. The work will result in appropriate predictive tools, and the outcomes will be of practical use for the refinement and optimisation of prevention/mitigation measures. Source : cordis   Intelligent column internals for reactive separations INTINT 2000 - 2003 Sujets : Economic Aspects, Innovation, Technology Transfer, Industrial Manufacture, Safety, Environmental Protection Type de contrat : Cost-sharing contracts Participants : N/A N/A BASF AG DEUTSCHLAND BASF AG Other Carl-Bosch-Straße 38 67063 DEUTSCHLAND DSM RESEARCH BV NEDERLAND DSM RESEARCH BV Research,Other PO Box 18 1,Koestraat 3 6160 MD NEDERLAND LAPPEENRANTA UNIVERSITY OF TECHNOLOGY SUOMI/FINLAND LAPPEENRANTA UNIVERSITY OF TECHNOLOGY Education DEPARTMENT OF CHEMICAL TECHNOLOGY PO Box 20 Skinnarilankatu 34 53851 SUOMI/FINLAND University of Manchester Institute of Science and Technology (UMIST) UNITED KINGDOM University of Manchester Institute of Science and Technology (UMIST) Education Centre for Process Integration PO Box 88 Sackville Street M60 1QD UNITED KINGDOM S.C. SOCIETATEA NATIONALA A PETROLULUI 'PETROM' ROMANIA S.C. SOCIETATEA NATIONALA A PETROLULUI 'PETROM' Other DEPARTMENT OF OIL PROCESSING PO Box 22-109 Calea Victoriei 109 70176 ROMANIA INSTITUTE OF CHEMICAL ENGINEERING - POLISH ACADEMY OF SCIENCES POLSKA INSTITUTE OF CHEMICAL ENGINEERING - POLISH ACADEMY OF SCIENCES Research Baltycka 5 44 100 POLSKA SULZER AG SCHWEIZ/SUISSE/SVIZZERA SULZER AG Other Eduard-Steiner Str. 7 8401 SCHWEIZ/SUISSE/SVIZZERA POLYTECHNIC UNIVERSITY OF BUCHAREST ROMANIA POLYTECHNIC UNIVERSITY OF BUCHAREST Education CENTRE FOR TECHNOLOGY TRANSFER IN THE PROCESS INDUSTRIES (CTTIP) Polizu Street, Building A, Room A134 78126 ROMANIA JULIUS MONTZ GMBH DEUTSCHLAND JULIUS MONTZ GMBH Other Postfach 510 Hofstrasse 82 40723 DEUTSCHLAND INSTITUT DES SCIENCES ORGANIQUES DE SYNTHESE 'BLACHOWNIA' POLSKA INSTITUT DES SCIENCES ORGANIQUES DE SYNTHESE 'BLACHOWNIA' Research CONDENSATION PROCESS DEPARTMENT POLYHYDRIC ALCOHOLS SECTION Energetykow 9 47 225 POLSKA OSRODEK BADAWCZO ROZWOJOWY NATIONAL REFINERY POLSKA OSRODEK BADAWCZO ROZWOJOWY NATIONAL REFINERY Research CHEMICAL ENGINEERING DEPARTMENT Chemikow 5 09-411 POLSKA AEA TECHNOLOGY GMBH DEUTSCHLAND AEA TECHNOLOGY GMBH Industry,Other DEVELOPMENT DEPARTMENT Staudenfeldweg 12 83624 DEUTSCHLAND AEA TECHNOLOGY Germany AEA TECHNOLOGY Industry STAUDENFELDWEG 12 Germany Hide objective Processes combining reaction and separation into a single, integrated operation become ever more attractive for chemical, pharmaceutical and related industries. Such reactive separations show several important advantages like energy and capital cost reduction, increase of reaction yield and reduction of waste emission. Both feasibility and efficiency of reactive separation operations are predetermined by a correct choice of the column internals. Traditional design of reactive separations is ultimately linked with internals offered to the market by suppliers. However, these internals are far short of optimum and cannot provide optimal process functioning. The proposal is aimed at the creation of a principally novel methodology for the design of reactive separations. This methodology together with the relevant software tools and experimental techniques establishes a new relation suppliers-end user which enables process optimisation based on the development of new "intelligent", "tailor-made" column internals. This is an active way by which a column design approaches from both structural operational points of view. Hide achievements -Integrated Design System consisting of an expert system (ADVISER), a CFD tool (CFX-INTINT) and a process simulator (PROFILER) for homogeneously and heterogeneously catalysed reactive distillation and stripping*ADVISER including the case-based selector, GUI, the database of the accepted solutions (software code) and manual -PROFILER including the detailed rate-based model, model library for homogeneously and heterogeneously catalysed processes (software code) and manual -CFX-INTINT including GUI, grid generator, modelling capabilities for different internals geometries with relevant post-processing facilities (software code) and manual -Model library, database and input files for physicochemical properties and transport coefficients of the test systems (software code and description) -Experimental results on system-related model parameters (VLE, reaction kinetics) for five chemical systems -Experimental results on hydraulic and mass-transfer parameters for all catalytic internals -Manufactured column internals and their modifications -Commissioned experimental set-ups for reactive stripping and reactive distillation and pilot plant experiments for different systems in different equipment, for known and modified geometry -Methodology combining four steps, namely the pre-selection of the relevant internals class by ADVISER, a preliminary sensitivity study by PROFILER, the generation of new internals and their investigation (virtual experiments) by CFX-INTINT, and the completing analysis of the reactive separation unit by PROFILER -Demonstration of a number of industrial applications at pilot scale and establishment of standardised experimental techniques for the parameter estimation and scale-up -Experimental validation of PROFILER by the reactive distillation and reactive stripping experiments -Web pages summarising the results of the project Source : cordis   Standard software infrastructure for SCI-based parallel systems SISCI 1997 - 1999 Sujets : Information Processing, Information Systems, Electronics, Microelectronics, Innovation, Technology Transfer, Telecommunications Type de contrat : Cost-sharing contracts Participants : Dolphin Interconnect Solutions NORGE Dolphin Interconnect Solutions Industry PO BOBS 70 Olaf Helsets Vei, Bogerud 0621 NORGE CERN FRANCE CERN Site de Prévessin 01631 FRANCE Technische Universitaet Muenchen DEUTSCHLAND Technische Universitaet Muenchen Education Theoretische Chemie Lichtenbergstrasse 4 85748 DEUTSCHLAND CCLRC Rutherford Appleton Laboratory (RAL) UNITED KINGDOM CCLRC Rutherford Appleton Laboratory (RAL) Research Chilton OX11 0QX UNITED KINGDOM AEA TECHNOLOGY GMBH DEUTSCHLAND AEA TECHNOLOGY GMBH Other,Industry STAUDENFELDWEG 12 83624 DEUTSCHLAND University of Bergen NORGE University of Bergen Education Thormoehlensgt. 55 5020 NORGE Emu Unterwasserpumpen Gmbh DEUTSCHLAND Emu Unterwasserpumpen Gmbh Industry Heimgartenstrasse 1-3 95030 DEUTSCHLAND Scali As NORGE Scali As Industry Hvamstubben 17 2013 NORGE Kongsberg Informasjonskontroll As NORGE Kongsberg Informasjonskontroll As Industry Hvamstubben 17 2013 NORGE AEA TECHNOLOGY Germany AEA TECHNOLOGY Industry STAUDENFELDWEG 12 Germany Emu Unterwasserpumpen Germany Emu Unterwasserpumpen Industry Heimgartenstrasse 1-3 Germany Dolphin Interconnect Solutions Norway Dolphin Interconnect Solutions Industry PO BOBS 70 Olaf Helsets Vei, Bogerud Norway Kongsberg Informasjonskontroll Norway Kongsberg Informasjonskontroll Industry Hvamstubben 17 Norway Scali Norway Scali Industry Hvamstubben 17 Norway Hide objective The IEEE/ANSI/ISO standard 1596-1992, Scalable Coherent Interface (SCI), defines a high-speed, scalable, bus-like interconnect to hook up nodes: processors, memories, peripheral devices, commodity Work Stations (WS) or PCs; in a high-performance parallel system. Hide general information An SCI interconnect enables a standard WS or PC cluster to be operated and conveniently programmed as a shared-memory parallel machine. Given proper application programming environments, SCI provides unprecedented flexibility and performance for parallel processing on "commercial-off-the-shelf" WS or PC clusters. The SISCI project will provide programming environments for SCI-based parallel systems. The project will develop and test on industrial applications the following formal or de facto standard software environments: the Message-Passing Interface communication library (MPI); the Parallel Virtual Machine programming library (PVM); a POSIX-compliant thread package that will operate across machine boundaries Source : cordis   Standard software infrastructure for SCI-based parallel systems SISCI 1997 - 1999 Sujets : Information Processing, Information Systems, Electronics, Microelectronics, Innovation, Technology Transfer, Telecommunications Type de contrat : Cost-sharing contracts Participants : Dolphin Interconnect Solutions NORGE Dolphin Interconnect Solutions Industry PO BOBS 70 Olaf Helsets Vei, Bogerud 0621 NORGE CERN FRANCE CERN Site de Prévessin 01631 FRANCE Technische Universitaet Muenchen DEUTSCHLAND Technische Universitaet Muenchen Education Theoretische Chemie Lichtenbergstrasse 4 85748 DEUTSCHLAND CCLRC Rutherford Appleton Laboratory (RAL) UNITED KINGDOM CCLRC Rutherford Appleton Laboratory (RAL) Research Chilton OX11 0QX UNITED KINGDOM AEA TECHNOLOGY GMBH DEUTSCHLAND AEA TECHNOLOGY GMBH Other,Industry STAUDENFELDWEG 12 83624 DEUTSCHLAND University of Bergen NORGE University of Bergen Education Thormoehlensgt. 55 5020 NORGE Emu Unterwasserpumpen Gmbh DEUTSCHLAND Emu Unterwasserpumpen Gmbh Industry Heimgartenstrasse 1-3 95030 DEUTSCHLAND Scali As NORGE Scali As Industry Hvamstubben 17 2013 NORGE Kongsberg Informasjonskontroll As NORGE Kongsberg Informasjonskontroll As Industry Hvamstubben 17 2013 NORGE AEA TECHNOLOGY Germany AEA TECHNOLOGY Industry STAUDENFELDWEG 12 Germany Emu Unterwasserpumpen Germany Emu Unterwasserpumpen Industry Heimgartenstrasse 1-3 Germany Dolphin Interconnect Solutions Norway Dolphin Interconnect Solutions Industry PO BOBS 70 Olaf Helsets Vei, Bogerud Norway Kongsberg Informasjonskontroll Norway Kongsberg Informasjonskontroll Industry Hvamstubben 17 Norway Scali Norway Scali Industry Hvamstubben 17 Norway Hide objective The IEEE/ANSI/ISO standard 1596-1992, Scalable Coherent Interface (SCI), defines a high-speed, scalable, bus-like interconnect to hook up nodes: processors, memories, peripheral devices, commodity Work Stations (WS) or PCs; in a high-performance parallel system. Hide general information An SCI interconnect enables a standard WS or PC cluster to be operated and conveniently programmed as a shared-memory parallel machine. Given proper application programming environments, SCI provides unprecedented flexibility and performance for parallel processing on "commercial-off-the-shelf" WS or PC clusters. The SISCI project will provide programming environments for SCI-based parallel systems. The project will develop and test on industrial applications the following formal or de facto standard software environments: the Message-Passing Interface communication library (MPI); the Parallel Virtual Machine programming library (PVM); a POSIX-compliant thread package that will operate across machine boundaries Source : cordis