Program Holland@CERN
Transcription
Program Holland@CERN
Holland@CERN and CERN@Holland! As you have probably noticed, the Netherlands has a new government. One of the main priorities of the new coalition agreement is ‘innovation’, because - I quote – ‘strengthening the innovative power of industry is vital to future economic development. Good cooperation between industry, knowledge institutions, and government is of great importance. The relationship between knowledge, science, applied research and innovation policy will be strengthened.’ To this end the new government has even created a new Ministry of Economic Affairs, Agriculture and Innovation, which is sponsoring Holland@CERN. But that is about government. Most important for innovation are of course enterprises, academic and research institutions. Like the highly qualified 28 Dutch companies now attending this hightech exposition at CERN. A compliment to Nikhef - and my good friend Jos Engelen! - Stichting FOM/Plasmafysica Rijnhuizen and Dutch Scientific! CERN is one of the largest and most respected research institutions in the world. It has an outstanding academic and scientific reputation in particle physics. Achievements such as the discovery of W and Z bosons, the first creation of antihydrogen atoms and the discovery of direct CP-violation are direct results of experiments at CERN. CERN produced several Nobel Prize winners in physics – including three Dutchmen. Nowadays, we can all learn about such achievements on the World Wide Web – which started as a CERN project. For enterprises looking for innovative opportunities, CERN is certainly a place to be. So my advice to you: bring Holland to CERN and CERN to Holland. A win-win! I would like to welcome all participants to this exposition. And please do not hesitate to knock on my door in Geneva or call upon my colleagues in Bern or the ministry in The Hague if we can assist you. Boudewijn J. van Eenennaam Ambassador, Permanent Representative of the Kingdom of the Netherlands to the United Nations and other International Organisations in Geneva Fundamental science and business Holland, the Netherlands, was one of the signatories of the intergovernmental agreement by which CERN was founded in 1954. So in that sense: Holland is at CERN since 1954. There is, however, every reason to welcome this event, Holland@CERN, in 2010. The fundamental science pursued at CERN is aimed at pushing back the boundaries of knowledge. That has happened successfully in the past and the Large Hadron Collider, in operation since October 2009, holds great promises for the future. At CERN pushing back the boundaries of knowledge implies pushing back the boundaries of technology. A similar observation can be made for the European Synchrotron Radiation Facility, also involved in the organisation of this event. And this provides a natural connection between fundamental scientific research and innovative private enterprises: they need and can reinforce each other. Researchers define what they need – processors, fast electronics, light and strong materials, high current density superconductors, ultra high vacuum, sophisticated cryogenics, etc., etc. – and (common) R&D projects lead to the desired products, sometimes to immediate ‘business’ for the private party, sometimes to new products that bring benefits at a longer timescale. And of course there are also examples where high-tech advanced products are already available: also in that case an event like Holland@CERN can be very useful in bringing parties together. The ‘knowledge economy’ on which European, so also Dutch, wealth and well being will be based to an ever greater extent can only flourish if there is an open and lively innovation system. In such a system public and private R&D, researchers and private enterprises need to be in constant and constructive contact. May this event contribute to that contact! Jos Engelen Chairman of NWO, the Netherlands Organisation for Scientific Research Abstracts Harald Reichert: Upgrade plans ESRF (9 November 16:30 Auditorium) "At the Holland@CERN event, Harald Reichert represents Francesco Sette, Director General of the ESRF. A physicist who spent a major part of his career at the Max-Planck-Institute for Metal Research, Harald took office as one of two Directors of Research at the ESRF on 1 January 2009. His presentation on the ESRF Upgrade Programme will outline the four components of this 180 million Euro capital investment over 7 years (2009-2015), which will keep the ESRF at the forefront of synchrotron science worldwide: improvements to the accelerator complex, expanded experimental halls, development of eight new Upgrade Beamlines to enable new science, and advances in instrumentation. In line with the audience, his presentation will focus on the technological challenges of instrumentation, including data processing, and new beamlines." Jean-Michel Georgoux: ESRF purchasing service (9 November 16:00 Auditorium) The ESRF is funded by 19 member countries and scientific associates, but has its legal foundation as a private company operating under French law. Jean-Michel Georgoux is Head of the ESRF Purchase Service. His presentation will outline ESRF Purchasing rules and the main ESRF Purchasing sectors. He will give details on how to do business with the ESRF in practical terms. Thierry Lagrange: CERN purchasing procedures (9 November 16:00 Auditorium) At the foundation of CERN there was determined that all the goods and services will be obtained from the member states. To provide a level playing field the Purchase Department handles the procedures involved. The head of the Finance and Procurement Department, Thierry Lagrange is responsible for these procedures and will reveal its secrets. Wim Bras: 10 Years DUBBLE (9 November 17:45 Auditorium) The Dutch Belgian BeamLines at the ESRF have been officially operational since 5/6/2000. In June 2010 the 500th publication with data from these beam lines appeared. The DUBBLE project consists of two beam lines which use ESRF bending magnet radiation to perform different X-ray scattering and spectroscopy techniques. The beam time available for Dutch and Belgian users is complementary to the beam time available on the public ESRF beam lines. The main techniques in use on the beam lines are Small- and Wide Angle X-ray scattering and Xray absorption spectroscopy. Both these techniques find a wide range of applications in the Dutch- Belgian research community. This ranges from very applied research like the structure evolution in plastic films during the production of garbage bags to very fundamental work on density fluctuations in undercooled water. But also biologically interesting subjects like the structure of different spider silks under tension or pure physics in the form of the deformation of crystalline structure under 30 Tesla magnetic fields. In the presentation a brief introduction to the beam lines and history will be given. This will be followed by several examples for which not only the experiment but also the scientific context is understandable for the interested lay-person. Roger Ruber: The CLIC accelerator (9 November 17:45 Auditorium) Roger Ruber was born on the 20th of July 1966 in Grevenbicht, thirty kilometers north of Maastricht in the Netherlands' province of Limburg. After passing through Dutch secondary school (HAVO and VWO), he studied applied physics at the Technische Hogeschool Eindhoven. After his graduation in 1991 he acquired a one year grant from the Japanese Ministry of Education (Monbusho) to study detector magnet systems at the National Laboratory for High Energy Physics (KEK). After returning to Europe he took up research at the Department of Radiation Sciences at Uppsala University on the WASA detector set-up for meson rare-decay studies. In 1997 he passed his engineering licentiate degree specializing in the development of superconducting magnets and was offered a research engineer position at Uppsala University. In 1999 he was offered a senior research engineer position at the The Svedberg Laboratory (TSL) and was promoted the same year to a technical doctorate degree in physics at Uppsala University. In 2000 he was invited to spend a sabbatical year as visiting scientist at KEK. A year after returning to Uppsala, he was asked to become on-site project coordinator for the installation and commissioning of the ATLAS detector’s Central Solenoid at CERN. This work, in parallel with development of instrumentation for the ATLAS Toroid magnets was completed in 2006 with the successful commissioning of the Central Solenoid and Barrel Toroid. Since then he is active at Uppsala University on the development of the CLIC and ESS accelerator. Now Roger is strongly involved in the CLIC project, the future of accelerators. (to be continued) HOLLAND @ CERN - 9 et 10 novembre l’après-midi (12H00 – 16H00) http://www.bigscience4business.com/engels Company name Short description Contact person e-mail address 3D www.3dworknet.nl 3D mass customization printing Kees Seldenrijk kees.seldenrijk@3dworknet.nl Bayard www.bayards.nl Innovative solutions in aluminium Dies Mackintosh dies.mackintosh@bayards.nl Boessenkool Machinery Manufacturer Ing. E.M. Osse info@boessenkoolbv.nl Cryogenic engineering Francesco Dioguardi f.dioguardi@cryozone.nl Full service cryo integrator www.demaco.nl Ronald Dekker rd@demaco.nl Dutch Space (EADS company) Develops complex systems for space, civil & defence applications www.dutchspace.nl Eric Boom e.boom@dutchspace.nl www.boessenkool.com CryoZone www.cryozone.nl DeMaCo ECM – www. Electrochemical Machining electrochemicalmachining.com Genius Klinkenberg Mechanical Engineering www.genius-klinkenberg.nl Heeze Hans-Henk Wolters wolters@electrochemicalmachining.c om Marco Klitsie m.klitsie@genius‐klinkenberg .nl Design and Precision Engineering Th. Van Tongerloo th.van.tongerlo@heezemechanics.nl Piezo system solutions Hein Schellens hein.schellens@heinmade.com Consultancy in robotics, mechatronics, high-tech systems Cock Heemskerk www.hitecsms.com High precision current measuring systems R. Lachminarainsingh R.lachmi@hitecsms.com Hositrad Vacuum and cryogenic technology Jurgen Tomassen jurgen@hositrad.nl High-voltage power supplies; AC/DC converters; klystron modulators Ben Wargers ben.wargers@imtech.nl www.heezemechanics.nl Heinmade www.heinmade.com HIT www.heemskerk-innovative.nl Hitec www.hositrad.nl Imtech www.imtech-vonk.nl c.heemskerk@heemskerk-innovative.n l INCAA Computers www.incaacomputers.com High-tech electronic equipment Bart Sijbrandij bart.sijbrandij@incaacomputers.com Irmco Experts in acoustic technology since 1966 Michael Koot michael.koot@irmco.nl Janssen www.jpe.nl High-tech mechatronic and optomechanic equipment/instruments Huub Janssen Huub.Janssen@jpe.nl S&T www.stcorp.nl Quality control software and scientific toolkits André Bos bos@stcorp.nl Schelde www.exotech.nl Fabrication and testing of high quality and complicated equipment Innovative cryogenic technology Arthur Borsboom Arthur.borsboom@exo.schelde.com Sumipro www.sumipro.nl High precision optical products and systems Ben Lubberman info@sumipro.nl Tecnovia Group BV www.tecnovia.nl Mechanical components, custommade machinery and tooling Jan Brus jan.brus@tecnovia.nl TNO www.tno.nl Connects people and knowledge to create innovations Ben Braam ben.braam@tno.nl VDL ETG www.vdletg.com Richard Zoeteweij richard.zoeteweij@vdletg.com Veenstra www.veenstra-glazenborg.nl High precision (mechatronic) modules, equipment and manufacturing systems High precision mechanical equipment Femme Nauta f.nauta@veenstra‐g la zenborg .nl Velmon www.velmon.nl Stainless steel (cryogen-) tubes solutions Marc Bosman marc@velmon.nl Vernooy http://www.vernooybv.nl/ Vacuum technology, vacuum parts and equipment Ruud Haakman haakman@vernooybv.nl Wijdeven www.wijdeven.com Magnetic fields - power generation for high-end applications René van den Heuvel rene.van.den.heuvel@wijdeven.com Stirling www.stirlingcryogenics.com Peter Eijsbouts p.eijsbouts@stirlingcryogenics.com Note: Toon Verhoeven: ILO NL pour ITER; Rob Klöpping: ILO NL pour CERN 3D- Worknet FOTO Kees Seldenrijk Sales Director www.3dworknet.nl Maxwellstraat 21 6716 BX EDE +31 (0) 318 769 077 kees.seldenrijk@3dworknet.nl 3D- Worknet - The 3D mass customization printing company Turnover: € 15 employees Product information The core business of 3D Worknet is building 3D models with advanced modeling technology known as rapid prototyping. Our “paid parts service” is very suitable for single on demand production as well as small series of customer specific parts. We can produce any possible design you may have. Whether it is a piece of art, an architectural model, any housing for electronics, a simple 3D design suffices to build your desired creation. Besides this 3D print service we can scan 3D objects and convert the data into a format used by Computer Aided Design software, for editing and further use. References Shapeways - Philips Consumer Lifestyle - Philips Lighting – KLPD- Robert Bosch Academisch Medisch Centrum - ESA / ESTEC LOGO FOTO Ing. Dies W.S. Mackintosh Managing Director www.bayards.nl PO Box 9 / Veerweg 2 2957 ZG Nieuw-Lekkerland +31 184 683000 dies.mackintosh@bayards.nl Bayards Aluminium Constructions is an internationally recognized and qualified company that is renowned for their innovative solutions in aluminium. Turnover: 25 m€ 125 employees Product information Bayards Aluminium Constructions is an internationally recognized and qualified company that is renowned for their innovative approach to design, fabrication and assembly of complex aluminium products and projects. Bayards has the expertise, know-how and technology to manufacture hi-tech aluminium products to an unrivalled standard of quality. Bayards production capabilities are endless, but to name a few: • Welding: We make use of the newest development in welding technology, e.g. Friction Stir Welding (FSW). • Milling: With our CNC 5-axes profile high speed milling machine, we are able to carry out precision milling activities on components with a length up to 18 meters. Furthermore, to facilitate fabrication and assembly processes, we have in our employment highly qualified welders. References • • • • CERN : production of bottom tray LHC Stork / Fokker : components for Patriot rocket Dutch space : parts for new generation Ariane rocket KEK, Japan : parts for particle accelerator Please visit our website for more information and track records. Machinefabriek Boessenkool B.V. Ing. E.M. Osse, CEO www.boessenkool.com Tufkade 13, 7602 PA, Almelo T +31 546 488800 info@boessenkoolbv.nl Machinery Manufacturer Boessenkool: knowledge, competence and facilities; engineering, steel structures, metal works, mounting facilities and mechanical machining. When needed also supplied with controls, electronics and final treatment. Turnover: 5 M€ 40 employees Product Beam pipe Bake Out Shell Revolver Mobile Undulator Carriage Galacsi Structure + Graal Tools Product & Utility Swivel Rotary Bottle Filling machine Compression Piston Rods Rollers & Shaft Test Bench Warehouse Stacker Crane Vacuum Vessel Bearings & Gears Services Milling Boring Turning Vertical Turning Fabrication Welding Machine-building Assembly Products Project-management Powder coating Hoisting Description Beam pipe for electrons, matter research Electron vibration tool , matter research Alu structure to mount mirrors for space research Off-shore FPSO (Oil Prod./Storage Unit) Bottle filling machine for the food industry Rods for high pressure compressor Rollers & Shaft for trucks diam. 5 m. Order picking for warehouses up to 40 m. For Wafer-Stapper production Bearing & Gear for Windmills 4 m. diam. Customer CERN (CH) E.S.R.F. (FR) E.S.O. (D) Bluewater E.S. Stork (NL) Thomassen Froude Hofmann FKI Logistex ww ASML (NL) Siemens/Flender Description Up to 10 meters x 4 meters x 2 meters Up to 10 meters x 4 meters x 2 meters Up to 6 meters length with a diameter of 1 meter Up to 5 meters diameter with a height of 4 meters To customer specifications Certified welding in all materials and thickness Hardware incl. electronics, pneumatics & hydraulics Up to 60 meters with weight up to 120 tons Project management incl. traceabillity Up to 4 meters long Hoisting capacity inside the factory is 120 tons Max. weight 60 tons 60 tons 20 tons 60 tons 120 tons 120 tons 120 tons 120 tons 120 tons LOGO CryoZone BV Francesco Dioguardi Commercial Manager www.cryozone.nl Ekkersrijt 4611 5692 DR Son +31 (0)40 2677 380 info@cryozone.nl CryoZone stands for expertise in the field of cryogenic engineering. We deliver custom-made cryogenic solutions that are ready for use as functional hardware. This makes our products and systems ideally suited for OEM system builders. 8 people employed Product information CryoZone offers an extensive range of products such as cryogenic circulation fans, liquid gas pumps, heat exchangers for cryocoolers, cryostats, vessels and phase separators. Our expertise extends to everything that involves the control and circulation of cryogenic fluids and gases, such as LN2 and GHe, to cool and heat an application. We handle every aspect of the cryogenic process related to coding, cryogenics, pressure, heat and physical flow. Products Cryogenic fans for He and N2; Pumps for cryogenic gases; Cryostats; Vessels; Valve boxes. References TNO, Eindhoven, Netherlands - Cryogenic / high temperature system Florida State University, Tallahassee, USA - 20K cooling system for HTS ICARUS (INFN), Gran Sasso, Italy - ICARUS (INFN), Gran Sasso, Italy LOGO DeMaCo FOTO Ronald Dekker www.demaco.nl Oester 2, 1723 HW Noord-Scharwoude T: +31 226 332100 rd@demaco.nl DeMaCo Holland bv. is a full service cryo integrator with the capabilities of (pre)engineering, design, manufacturing, testing, packing, delivery, installation and commissioning of integrated cryogenic systems for liquid gases. Yearly turnover: € 10,000,000.- 80 employees: DeMaCo Holland bv. is a full service cryo integrator with the capabilities of (pre)-engineering, design, manufacturing, testing, packing, delivery, installation and commissioning of integrated cryogenic systems for liquid gases such as LIN, LOX, LAR, LCO2, LNG, LH2, LHe, Kr/Xe etc including conditioning equipment and applications. Range of products DeMaCo’s comprehensive range of products and systems consists of vacuum insulated piping, phase separators, valve boxes, multiple transfer lines, subcoolers, valves, monitoring & control systems, vacuum chambers, dewar filling stations and many other cryogenic related items. References CERN, European Organisation for Nuclear - Multiple Helium transfer lines for LHC, ATLAS and CMS - UHV chambers for LEP separators Deutsches Elektronen-Synchrotron DESY - HERA-Bypass NL / VFPS-project - Bunch compressor bypass pipeline II and 1 Endcap - Extension from TTF-transfer line ESA ESTEC - Valve boxes for LSS LOGO Dutch Space B.V. Dr. Eric W. Boom Business Development Manager http://www.dutchspace.nl P.O. Box 32070, 2303 DB Leiden, T +31 71 5245820 E.Boom@dutchspace.nl Dutch Space is the largest space company in The Netherlands. It develops complex systems for space, civil & defence applications and is a System Integrator for multidisciplinary, multinational programmes. Subsidiary of EADS Astrium N.V. European Robotic Arm under test at ESTEC Turnover: 52 M€ 210 employees Building on over 35 years of heritage, Dutch Space has acquired considerable expertise in the areas of both organizational/programmatic skills and in-depth engineering supported by advanced in-house tools and facilities, which can readily be applied to complex Earth-bound programmes. Typical space applications are: • the European Robotic Arm for the International Space Station • the main engine frame of the Ariane 5 launcher • various space instruments and subsystems for earth observation & astronomy Specific expertise includes: • Management of international multidisciplinary development projects • Engineering for vacuum, cryogenic and other complex/hostile environments: thermo-mechanical & thermo-dynamic analysis; coolers, hot structures & thermal protection systems; advanced materials & processes; complex mechanisms. • Control & robotic systems • Real-time simulation and data-processing s/w environments References Customers include ESA, ESO, NASA and large European space contractors. Dutch Space is a key player in the high-tech industrial and institutional networks in The Netherlands. FOTO ECM Technologies BV Hans-Henk Wolters, CEO www.electrochemicalmachining.com PO Box 7527, 8903JM Leeuwarden T +31 622 37 97 50 wolters@electrochemicalmachining.com ECM Technologies is specialized in the development of Electrochemical Machining processes. ECM is a non conventional metal machining technology based on electrolysis. Turnover: 1 – 1,2 M€ 5 employees Product information ECM Technologies develops electrochemical machining processes for metal products of complex geometry (i.e. Turbine blades) that can hardly or not at all be made by conventional machining processes. The ECM technology is very suitable for products of super alloys even in large series. Characteristics of the ECM process: • The product after processing is free of burrs • No-contact process principle, no mechanical forces • The process does not cause thermal or physical strain in the product • Unlike other machining techniques, no upper-layer deformation occurs • 3-Dimensional products can be processed in one single step • High surface quality level attainable (Ra < 0,02 µm) depending on material used • High dimensional accuracy attainable • Material strain which loosens during the process will be compensated where possible • Stainless steels are affected by various conventional machining techniques in the upper-layer, as a result of which local rust formation can occur. This is not the case with ECM • Using the ECM technique generates more freedom in design for a product • ECM is a technique with a high machining speed at relatively low costs. References ECM Technologies has developed ECM processes for companies worldwide in the field of Aerospace, Automotive, Medical, Energy market and for many other different applications. LOGO Genius Klinkenberg Int BV Marco Klitsie Senior Account Manager FOTO www.genius-klinkenberg.nl Rijder 2, 1507 DN PO Box 2058, 1500 GB Zaandam NL T +31 75 655 7023 m.klitsie@genius-klinkenberg.nl Genius Klinkenberg specialises in the development, manufacturing and assembly of (sub-) systems, build-to-print mechanical components and custom-made machinery and tooling. We focus on the international Defence and Aerospace Industry and highend mechanical engineering products. Both series production and one-off projects. Turnover: 6-8 M€ 50 employees Genius Klinkenberg offers as a key factor in their added value the high level of expertise in the fields of metalworking, welding and manufacturing engineering. This applies to all metal products, but particularly to armoured steel and high alloy aluminium. This expertise is shared with our customer’s specific requirements to guarantee efficient, tailor-made products. In addition Genius Klinkenberg offers one-stop-shop solutions including project management and supply chain optimisation and control. Procedures and systems are based on quality assurance, reliability and lean manufacturing. We comply to ISO 9001-2008 , AS/EN 9100, AQAP2120, VCA** and possess welding certificates for armoured steel and aluminium. Genius Klinkenberg have a large experience in the following markets: Aerospace, Defence, MRO, General Mechanical Engineering, Off-shore, Nuclear. The flexible organisation acts quickly in a targeted, innovative manner. References Major OEM’s and 1-tier suppliers such as EADS, Lockheed Martin, Krauss Maffei Wegmann, Thales, BAE Systems, Snecma Moteurs, Marshall Aerospace, Dutch Space, Fokker, Corus and Shell. The defence activities include participation in programs as the Fennek, Pantzerhowitser, CV90, Boxer, A400M, JSF, PAM and VLS MK41. Heeze Mechanics Th. van Tongerlo, Managing Director www.heezemechanics.nl Kapelstraat 10, 5591 HE Heeze T +31 40 2240178 th.van.tongerlo@heezemechanics.nl Design and Precision Engineering for R&D Institutes since 1966; manufacturing of microwave components i.e waveguides, parts for Clic, parts for long en short Yoke, cartridge plate for RAL and parts for Galaxy. Turnover: 800,000 € 5 employees Product information Design and Precision Engineering for R&D Institutes since 1966. Manufacturing of Waveguide (FOM), parts for Clic (CERN), parts for long en short YOKE (CERN). Cartridge plates for RAL (Rutherford Appleton Laboratory). Parts for Galaxy (ESO). References CERN, ESRF, ESO, Rutherford Appleton Laboratory, TNO, OMT solutions, Rimas, Philips Research, FOM LOGO HEINMADE B.V. FOTO Hein Schellens Director www.heinmade.com High Tech Campus 9 5656 AE Eindhoven Tel +31-40-8512180 hein.schellens@heinmade.com HEINMADE develops and delivers piezo system solutions ranging from a single bulk piezo to servo controlled multiple axis motion platforms. With our long term experience and extended network, we are able to detect critical aspects, to control and solve these aspects and to provide reliable solutions. Turnover 1.0 MEuro 7 Employees. Product information Through collaboration with Noliac (DK), Nanomotion (Isr) and Piezomechanik (DE), HEINMADE offers a wide portfolio of standard products and system solutions. Over the years HEINMADE has extended this portfolio with developed custom made designs to meet the high demanding requirements of the high tech and medical industry. Some examples of systems in production are; multiple axis long stroke motions systems, transducers, sensors and active damping systems. Present R&D work is focused on active damping, accurate dispensing and high force high precision stages. HEINMADE supplies basically all piezo related components and (sub-) systems: • R&D work on piezo components and integrated systems • Design, engineering and supply of high precision metal parts like hinge structures, etc. • (Encaged) Piezo actuators and benders (high and low voltage) • Piezo motors and steppers • Short and long stroke piezo stages (actuator and motor based). • Drivers and controllers for piezo actuators and motors. • Active vibration dampers • Dispensing systems for low vapour pressure or high viscous substances. References Philips Apptech, ASML, ESO, TNO, TU Delft, TU Eindhoven, TU Twente, VSL (NMi), FEI. FOTO Dr. Ir. C.J.M. Heemskerk Managing Director www.heemskerk-innovative.nl Merelhof 2 2172 HZ Sassenheim (NL) +31 6 5134 0966 c.heemskerk@heemskerk-innovative.nl Heemskerk Innovative Technology offers strategic and operational consultancy in the areas of robotics, mechatronics and hightech systems, and primarily targets the European institutional market. Turnover: 400.000 € 7 employees Product information Innovation Management - Heemskerk Innovative Technology (HIT) blends innovation management, systems engineering, and people management to support research projects and to develop spin-offs into proof of concept and market readiness, working in close cooperation with Institutes, Universities, and industrial partners. Dexter - During operation, plasma facing components of the experimental fusion reactor ITER will get activated and contaminated with radioactive and toxic materials. Remote Handling maintenance is performed by master-slave telemanipulation techniques. In this context, Heemskerk Innovative Technology supports Oxford Technologies BV (OTBV) in the development of a next generation master-slave telemanipulator. FlexArrayer - Flexgen’s FlexArrayer is an instrument that allows for easy and quick design and synthesizing of custom DNA-microarrays (‘DNA-chips’). The arrays are suitable for a wide range of genetic analyses; SNP detection, sequencing, gene expression profiling and genomic selection. Heemskerk Innovative Technology supports the development of the next generation FlexArrayer. Virtual Slave - In an industrial partnership with Dutch Space and TreeC, HIT develops a simulation tool to simulate in real-time kinematics, dynamics and physical interaction of designs and environments imported from CAD software. The Virtual Slave system is multifunctional; it can be used to analyse the maintainability of components in the design phase, to validate maintenance procedures, to train operators and to provide operational support during maintenance operations. References Dutch Space, FOM Rijnhuizen, FlexGen, TNO, Oxford Technologies, VDL LOGO R. Lachminarainsingh General manager www.hitecsms.com PO Box 65 7600 AB Almelo, NL T +31-546-589589 info@hitecsms.com Hitec Special Measuring systems bv provides high precision current measuring systems for the research institutes and scientific applications all over the world. Turnover: 3 M€ 7 employees Hitec Special Measuring systems designs and builds Zero-flux current measuring systems Hitec Special Measuring Systems, part of the Hitec Power Protection Group, was the first to introduce a revolutionary high precision current measuring system based on the Zero-flux principle. The bipolar Zero-flux measuring system optimizes the concept of galvanic separated measurement of direct and alternating currents with exceptionally high precision. Today thousands of these systems found their way in scientific, HVDC, industrial and medical applications all over the world. Having a reputation of being the ultimate system for measuring electrical currents. References CERN, ABB, Siemens, ASML J.L.J. Tomassen (Jurgen) Director FOTO www.hositrad.nl De Wel 44 – 3871 MV Hoevelaken PO Box 144 – 3870 CC Hoevelaken T +31 33 2537210 info@hositrad.nl The Hositrad Team combines more than 45 years of experience in vacuum and cryogenic technology. We supply standard vacuum part CF, KF and ISO components from stock. Turnover: 4.000.000 € Personnel: 10 employees Hositrad Vacuum technologiy • have capabilities covering all areas starting from a standard flange up to designing a complete vacuum system, manufacturing, repair and after sales service of vacuum equipment. • are experts in TIG-Laser and Microplasma welding en He.leaktesting <1x10-10 mbar l/sec. • have our own production and an AutoCad design office in Holland and in the Far East. • make “Custom made specials” according customer drawing in our own workshop. • supply the following products: CF-KF and ISO vacuum components – Electrical feed throughs – Linear/Rotary Feedthroughs - Edge welded bellows – Isolators – View ports – Fiber Optics – Glass to Metal seals – Manipulators – Ferrofluidics feed throughs – All Metal Valves – Angle Valves – Gate Valves – Ion, Triode and Titansublimation pumps – Cryopumps – Cryostats. Hositrad Vacuum TEchnology represent: Ceramtec: Ceramic-to-metal sealing technology. Hermetically sealed electrical & optical components include feedthroughs, multipin connectors, coaxial conenctors, thermocouples, isolators, viewports and accessories. These components are ideally suited to support optical, gas, liquid, power, instrumentation and sensing applications. Extrel: Extrel is the world’s leading manufacturer of Research and Proces Mass Spectrometers, Residual Gas Analyzers (RGA’s), Quadrupole Mass Spectrometry Systems and Components. Thermionics: Manipulators, Valves, E-Guns, Ion Pumps, MBE Systems, Mechanical feedthroughs. References DESY, (XFEL, EMBL, Hasylab Hamburg), Helmholz Zentrum Berlin (Bessy, HMI), FZ Jülich, GSI Darmstadt, KIT Karlsruhe, GKSS, DLR, IPP Garching, PSI Villigen, ESA Noordwijk, ESRF Grenoble, ALBA Barcelona, Nikhef Amsterdam, FOM Nieuwegein and all Universities and Research Labs in Europe. LOGO Imtech Industry International B.V. Imtech Vonk Mr. Ben Wargers Manager Sales Power Electronics www.imtech-vonk.nl P.O. Box 57 7740 AB Coevorden T +31 524 59 92 22 info.vonk@imtech.nl Imtech Vonk is an international operating technical service provider with focus on Engineering & Contracting. Imtech Vonk, part of Imtech N.V.group* Imtech N.V. group: 4.3 Billion Euro 175 employees 25.000 employees * EuroNext Stock Exchange company Activities within the Power Electronics department are conceptual and detailed design, construction, assembly, factory testing, installation and commissioning of custom made Energy Conversion Systems for Scientific and Industrial applications. Imtech Vonk has the capabilities to develop custom made Energy Conversion Systems up to the following figures: • current : up to 150 kA • voltages : up to 100 kV • rated power : up to 20 MW (continuous) and 150 MW (pulsed) • frequencies : up to 100 kHz • stability : down to 1 ppm The products & projects find their way into various applications for: • Enrichment processes • Nuclear fusion research • Particle accelerators / synchrotrons • Galvanic industry • Film processes • Electricity distribution grids • Fuel Cell processes References IPP Garching (D), 145 MVA Modular Thyristor Converter System for ASDEX upgrade IPP Garching (D), Extension of the Pulsed Power Supply Network of ASDEX by a set of Compact Modular Generators ( 8 MVA, 32 MJ ) HFML Nijmegen (NL), 20 MW DC Thyristor Converter System DESY Hamburg (D), Klystron modulator for the XFEL RF station Program Holland@CERN Monday 8/11 1100 Arrival airport, transfer to CERN and preparing stands Lunch 1400 Introduction to CERN, Jos Engelen (Council Chamber) 1500 Visits CERN experimental area’s • • • • SM18 Gijs de Rijk Atlas Herman ten Kate Clic Roger Ruber Linac4 Roger Ruber 1800 Drinks 1900 Transfer to hotels Program Holland@CERN Tuesday 9/11 0900 Welcome with coffee (entrance Council Chamber) 0915 Official opening (Council Chamber) • • • • Welcome Director Cern: Sigurd Lettow Director of Research ESRF: Harald Reichert Chairman Dutch NWO: Jos Engelen Ambassador UN: Boudewijn van Eenennaam 1030 Visit stands by Officials 1200 Stands with lunch buffet and B2B Matchmaking 1600 Plenary talks Purchase Departments (Auditorium): • • CERN (Thierry Lagrange) ESRF (Jean-Michel Georgoux) 1630 Plenary talk ESRF upgrade plans: Harald Reichert (Auditorium) 1715 break 1745 All Dutch night (Auditorium) • • 1900 Voordracht Wim Bras Voordracht Roger Ruber Stands met borrel & buffet 2200 vertrek naar hotels Program Holland@CERN Wednesday 10/11 0900 Plenary talk Knowledge & Tech. Transfer (Bernard Denis) 0930 Plenary talks Clic: Lucie Linssen 1000 Plenary talks Clic: Germana Riddone 1030 Coffee break 1100 Plenary talk LHC injector upgrade: Roland Garoby 1130 Plenary talk LHC-upgrade: Bernhard Holzer 1200 Stands with lunch buffet and B2B Matchmaking 1400 Parallel sessions with presentations from firms 1700 End of exposition with stands 1700 First companies leave for airport Program Holland@CERN Thursday 11/11 1000 B2B Matchmaking (conference rooms) 1700 Companies leave for airport LOGO INCAA Computers B.V. B. Sijbrandij Project manager www.incaacomputers.com Puttenstein 20 7339 BD Apeldoorn T +31 55 5425001 sales@incaacomputers.com INCAA Computers is a well-established company with over 35 years experience in design and manufacture of professional high-tech electronic equipment for industry, science, and OEM. We provide solutions for technical automation projects and take system responsibility. FOTO ~ 20 employees Business category: Electronics engineering, consultancy and manufacturing. Applications extend from industrial and scientific scalable data acquisition systems through transient recorders, timing systems, superconducting magnet test benches and power supply control modules to alarm and safety systems. HARDWARE Development: Modules can be designed from scratch or standard modules can be tailored to customers specific needs. Characteristic product properties are the high quality level and the relatively small to medium production volumes. SOFTWARE Development: Due to our in-house hardware expertise we know best to separate projects into hardware and software functions and how to interface them to build innovative fail-safe systems. Specialisations include system software, databases and graphical user interfaces. SYSTEM Integration: We not only deliver hardware modules and software packages but also integrate these with third-party components into complete functioning turn-key systems. References Our client base includes a wide selection of international organisations and companies: CERN, Sincrotrone Trieste, GSI, UKAEA, MIT, FZ Juelich, Alstom, ASML. LOGO Irmco bv Michael Koot Spoorstraat 19 4849 AR Dorst T +31 651 494 673 michael.koot@irmco.nl Experts in acoustic technology since 1966. Visualizing and monitoring of environments using acoustic technology (accurate temperature, humidity, turbulence). Measuring flow in pipeline systems avoiding pressure drop (no physical obstructions or moving parts). Involvement: We are involved in acoustic 3D vision in inaccessible spaces. Expertise: Participating in national and European collaboration programs by experience since 1966. References TNO, PHILIPS RESEARCH, BRUCKER BIOSPIN, RUTHERFORD APPLETON LABORATIES, ESO, CERN, ESRF. Janssen Precision Engineering B.V. Huub Janssen General Manager www.jpe.nl Azielaan 12, 6199AG Maastricht-Airport T +31 43 3585777 Huub.Janssen@jpe.nl Design and realisation of high-tech mechatronic and opto-mechanic equipment and instruments. JPE is an independent engineering group for development and realisation of high-tech machinery. Especially where accurate and stable performance is involved in the sub-micron area. 20 employees Projects, products and services: Equipment for semi-conductor industry, astronomical instruments and research instruments. Accurate positioning and control in vacuum and cryogenic environment. References ASML, Instituto Astrofisica de Canarias, Philips, Zeiss. LOGO Science and Technology BV A.Bos Director FOTO www.stcorp.nl Olof Palmestraat 14, 2616LR Delft T +31 15 2629889 bos@stcorp.nl Our scientific software support is based on understanding customer needs. We provide system health management for mission critical systems, near real-time 3D data visualization in unstructured environments, astronaut decision support tools. Our quality control software and scientific toolkits analyze terabytes of data with pinpoint accuracy. Turnover: 2 M€ 40 employees Avoid unnecessary downtime of complex systems using the Uptime product family. Uptime encapsulates state-of-the-art System Health Management (SHM) technology to reduce alarm rates, resolve imminent system failures before they affect process performance, reduce repair times, etc. S&T provide full-time, part-time and project-based scientific consultation and creative public relations services. We build the bridge from your scientific goals to quality results. S&T’s Uptime product-line encapsulates a whole range of System Health Management techniques to: • Early detect failures. • Generate relevant alarms. • Isolate Cause of Failure. • Protect system from effect of imminent failures. • Guide operators and maintainers. • Predict system health. • Repair faults. Uptime extracts useful system health knowledge by combining sensor data with device information and historical information. References ESA future launcher rocket propulsion - LOFAR radio telescope Schelde Exotech Mr. Arthur Borsboom, Sales Manager Jos Mols, Managing Director www.exotech.nl PO Box 531 - 4310 AM Vlissingen T +31 118 485953 / +31 6 51327601 arthur.borsboom@exo.schelde.com Schelde Exotech offers her clients design, fabrication and testing of high quality and complicated equipment. Schelde Exotech offers a wide range of products of Exotic materials like: Nickel Alloys, Copper Alloys, Cladded Steel, Aluminium, Titanium, Tantalum, Zirconium, etc. 100 employees; total capacity 240,000 man-hours Schelde Exotech has a rich history, based on last century companies: AKF Goes, Schelde Boiler Division and Schelde MT-Products. Schelde Exotech was founded in 1998 and is a member of the VE Group since 2009. Schelde Exotech is specialized in the design and manufacturing of ‘Special Products’. Special components Vacuum systems Heat exchangers Reactors Pressure vessels Airfin coolers Gasification burners Super heaters Repair and maintenance in Exotech facility Repair and maintenance at client’s site/facility Schelde Exotech has a fully staffed Design Departement and uses modern design tools like: AutoCad (2D design program) ; Mechanical Desktop (3D design program) ; Inventor (3D modeling-design program) ; PV Elite (ASME Code calculations, PD 5500) ; Scades (RToD) ; BabsyWin (EN 13445 Code calculations, AD 2000) ; Ansys . Besides special products and services Schelde Exotech is also a reliable partner for repairs and replacement projects. Schelde Exotech has a 24/7 helpdesk when it comes to emergencies. Schelde Exotech will mobilize a repair team at earliest possible convenience, usually available within a few hours. References Scientific experiments Nuclear energy Energy Particle physics Research Institutes / Universities Oil & Gas Defence Chemical and petrochemical industry Stirling Cryogenics BV FOTO Peter Eijsbouts Commercial Manager www.stirlingcryogenics.com Science Park Eindhoven 5003 5692 EB Son T +31 40 2677 300 info@stirlingcryogenics.com Stirling Cryogenics specializes in standalone cryogenerators and closed-loop cooling systems. Research centers, businesses, and industries all over the world rely on our expertise to provide them with a reliable, on site, supply of gases or cooling systems for all kinds of applications. 57 people employed Stirling Cryogenics operates at the cutting edge of cryogenic technology. A recent achievement was the designing and building of a cooling system for the ICARUS project, which is being carried out by the INFN in Italy. This fully selfcontrolled system of ten 4kW cryogenerators was built to cool 400 liters of liquid Argon to exactly 94K with an uptime of 100% for at least 10 years. Stirling Cryogenics is also involved in innovative superconductivity projects such as the European Hydrogenie project, and in several national initiatives in China, South Korea, Russia, and the Netherlands. References ICARUS (INFN), Gran Sasso, Italy - 40 kW controlled temperature liquid Argon cooling system for large scale neutrino detector SNLS, Grenoble, France - 20K cooling system for packing of nuclear material R&D Power Engineering, Moscow, Russia - Controlled temperature liquid nitrogen cooling system for HTS pilot plant Sumipro BV www.sumipro.nl Bedrijvenpark Twente 323 7602 KL Almelo T +31 546 815 141 E-mail: info@sumipro.nl For over 15 years Sumipro supplies high precision optics for customers all over the world. Sumipro advises medical, aerospace and defense industries and designs and produces optical products and systems for them. Turnover: 1.5 m. € 9 employees Product information Sumipro realizes custom made solutions for your optical challenges: human contact lenses, optics for night vision systems or reflectors for all kinds of light sources, etc. Consultancy and design – Sumipro offers innovative solutions in design, engineering and rapid prototyping, choosing the right optical components and creating superior optical systems. Our engineers are specialized in designing aspherical and non rotational-symmetric optic components to achieve systems with high performance and less components. Quality optics - Sumipro develops and manufactures optical components and systems with competitive prices and a very high degree of accuracy.Our inserts have tolerances in focus lengths within 0.1% instead of the typical 1 till 5%. Mirror optics - Sumipro specializes in aspherical and diffrax surfaces for mirrors. Max. diameter 300 mm, Material: various aluminium alloys,copper, Arcap, or other machinable materials. Applications: Space, Imaging optics and Laser applications. Specifications for mirrors - Geometries realized: Spherical and aspherical surfaces; Fresnel and diffrax patterns; Off axis mirrors; Parabolas and ellipses. Form accuracies in general reach PV-values smaller than 350 nm with irregularity beneath 1 fringe (633 nm), depending on material and size. Coatings - gold, silver, alumimium enhanced or protective (non oxidizing) coatings. Infra red optics. Sumipro specializes in aspherical and diffrax surfaces for lenses, max. diameters 240 mm, most often realized in germanium, silicon and high purity float zone silicon (HPFZ): Applications: Night vision - Thermal imaging optics - Space applications. Specifications for IR lenses - Spherical and aspherical surfaces; Fresnel and diffrax patterns; Off axis; Parabolas and ellipses. Form accuracies in general reach PV-values smaller than 350 nm with irregularity beneath 1 fringe (633 nm), depending on material type and size. Roughness values (Ra) typically reach values of 5 nm or less. Coatings - Lenses are commonly supplied with AR coatings, ranging from 3-5 µm or 8-12 µm or variations. Reflectivity R < 0.5% or even smaller upon request. All IR coatings are compliant with most MIL-specifications. Besides AR we can supply front sides with DLC’s. Tecnovia Group BV Jan Brus Sales Engineer www.tecnovia.nl Reutummerweg 19, 7651 KJ Tubbergen NL T +31 546 803330 jan.brus@tecnovia.nl Tecnovia Group BV specialises in the development, manufacturing and assembly of (sub-) systems, build-to-print mechanical components and custom-made machinery and tooling. We focus on the international Defence, Aerospace, Analysing and Medical Industry and high-end mechanical engineering products. Both series production and one-off projects. Turnover: 12-14 M€ 120 employees The core competence of Tecnovia Group is the development, engineering, production and testing of high tech electromechanical systems. Machines and electromechanical systems are produced by Tecnovia for European OEM’s. Within the group, approx. 120 people are employed. Customers of Tecnovia can be found in medical, optical, semiconductor, construction of machines and devices, nuclear, aerospace- and defence. Tecnovia provides in-house prototyping and testing. Parts manufacturing takes place in the subsidiaries Tecnovia PSM en Tecnovia van den Akker and Tecnovia Inaxxion. All other components, needed for assembly, as well as special processes like heat treatment and surface treatment, are sourced by effective supply chain management. With Tecnovia Inaxxion the group introduces a 24/7 mechanical production facility which is unique in his kind in the Netherlands. Tecnovia houses various assembly facilities where products are put together. If needed, this can be provided under clean room conditions (class 100.000) as well. Tecnovia is certified against ISO-9001, AQAP 2110 and AS 9100 standards. Our capabilities summarized: Assembly of Electromechanical Modules Prototyping System integration Supply-chain management. Mechanical-machining 24/7 production. Own department sheet metal production for complex sheet metal assemblies. Engineering. Clean room References Major OEM’s and 1-tier suppliers such as Fokker, Terma, Thales, Krauss Maffei Wegmann, Rheinmetall Land Systeme, Marshall Aerospace, Dutch Space, Ruagg and Pilatus. The defence and Aerospace activities include participation in programs as the Fennek, Pantzerhowitser, CV90, Boxer, JSF, Chinook and Apache. TNO B.C.(Ben) Braam MSc. P.O. Box 155 2600 AD Delft The Netherlands Tel: +31 15 269 2180 Email: ben.braam@tno.nl Internet : www.tno.nl TNO connects people and knowledge to create innovations that boost the sustainable competitiveness of industry and well-being society. Income 2009 € 494,6 4,400 employees Product information High-end Opto-mechanical Instrumentation Instruments and mechanisms for space missions and ground-based astronomy demand the utmost opto-mechanical precision and stability. TNO’s unique multidisciplinary design process enables requisite picometer stability and sub-nanometer positioning accuracy. Our instruments reflect extreme specifications imposed by hostile operation environments and ultra-high accuracy and stability. TNO’s expertise from optics to mechanical engineering, control and electronics enables the development of a wide range of complex instruments and mechanisms. Our flexure or magnetic bearing-based mechanisms have low friction and zero hysteresis. We produce quality optics with low wave-front error from a variety of materials including Aluminium, Fused Silica and Silicon Carbide. References TNO’s experience in cryogenics is applied in HIFI for Herschel, metrology for Gaia and delay lines for Darwin. On space activities TNO has been playing important roles in the ESO programmes VLTI and E-ELT, and the ITER programmes. Important commercial customers of TNO in the field of high-end optomechanics are ASML and Zeiss. VDL Enabling Technologies Group Richard Zoetewey Program Manager www.vdletg.com Wekkerstraat 1 5652 AN Eindhoven T + 31 651534217 richard.zoeteweij@vdletg.com VDL Enabling Technologies Group operates as a supplier of parts, mechatronic modules and systems, specializes in the manufacturing and engineering of high precision modules, equipment and manufacturing systems, based on customer specification or requirements. Turnover: 180 Mio € 650 employees VDL ETG focuses on strategic partnerships with its customers, based on long-term close working relationships. Products (ultra) Precision parts, mechatronical modules, industrial production equipment, prototyping for research & industry. Markets Lighting; Food and beverage; Electronic components; Medical; Semiconductor; Automotive; Tobacco; Packaging; Aerospace; Glass; Solar & Energy; Personal Care; Science (physics, optical). Services Parts manufacturing and dimensional control, from average complex up to ultra precision parts; Prototyping of parts and modules; Turn-key delivery of customized production and process equipment, from innovation up to global installation, cross-linking over 100 years of experience in different markets. References Lighting : Philips; Food and beverage: P&G; Electronics: Fuji, Liquavista; Medical: Philips; Semiconductor: ASML, Applied Materials, FEI; Automotive: Bosch; Tobacco: JTI; Packaging: P&G; Aerospace: ESA, ESO, TNO; Glass: EMGO; Solar & Energy: Applied Materials, Solyndra; Personal Care: SCA, P&G, Johnson & Johnson; Science (physics, optical): CERN, ESRF, ITER, TNO, VTT, Oxford instruments. Veenstra-Glazenborg Femme Nauta Director of sales www.veenstra-glazenborg.nl Zeefbaan 29 9672BN Winschoten NL T +31 597 471770 f.nauta@veenstra-glazenborg.nl Manufacturer of high precision mechanical equipment. Experience in milling and turning of high grade alloys and pure materials. Turnover: 4.6 m € 38 employees Products • Sampling probes for natural gas composition measurements (underground application) • Die cutters for hygiene industry (HSS powder + Tungsten carbide) • High pressure valves 10000PSI for upstream applications Highlights • Engineering rotating equipment and production tooling • 5 axis milling max weight 1200 kg, Machining off solid CAD/CAM • Milling and turning max weight 5 ton, dimensions 1.00x2.50m • 4 axis wire eroding and High speed milling max 45000-1 min • Grinding dept. for moulds and cutting dies • Certificates: ISO9001:2008 ; G0304 RtoD ; NEN3834 References SCA – GasUnie – Draka - Philips – Shell – Kernfysisch Versneller Instituut Velmon Lastechniek B.V. Marc Bosman ( IWT),Managing director www.velmon.nl De Trompet 1121 1967DA Heemskerk T +31 251 200776 lastechniek@velmon.nl Velmon Lastechniek BV is a company for all kind of stainless steel tubes solutions. Many years of experience with cryogen-, food- and pharmacy industries. Assembly and welding in workshop and on site! Velmon Lastechniek BV Velmon Group €.1,3 mln./jr. €.4,5 mln./jr. 10 employees 38 employees Manufacturing and orbital welding of stainless steel pipe sections and pipe joints. Orbital welding with closed chamber and open weld head, range from ø6mm until ø168.3mm. Series from 1 – 1000+, X-rayed, pressure test, helium leak-tests (max. 1x10ˉ9 Pa m³ sˉ¹) and oxygen clean treatment. ISO 9001 and ISO EN3834 (under construction) MIG-welding (GMAW), TIG (GTAW) certificated EN287-1 and EN1418. References CERN, Corus steel, TEVA Pharmachemie, Trelleborg, Klinger-Picoff, Kenz-Figee, Tekoma, Cofely. Vernooy BV Triumph Group Ruud Haakman – Managing director Fred Verkerk – Ass. Managing director http://www.vernooybv.nl/ Archimedesbaan 8 3439 ME Nieuwegein (the Netherlands) T +31 30 6031293 haakman@vernooybv.nl verkerk@vernooybv.nl Vernooy is a distinguished specialist in vacuum technology and in developing and manufacturing vacuum parts and equipment. Vernooy turnover: 4 million € Triumph Group: 20 million € 23 employees 120 employees Vernooy is specialized in vacuum engineering - process control, from design to final execution. Products are made according to customer's specifications or according to designs by Vernooy's engineers. For more than 60 years, VERNOOY Vacuum Engineering has developed and fabricated high quality vacuum- and vacuum related components for research, semiconductor, display and solar industry. Vernooy has a balanced and sophisticated machine shop with CNC lathe and milling machines, in combination with TIG- welding and robotic welding. It offers the following capabilities: Milling up to 6000mm x 1600mm x 2000mm Turning swing of 1500mm x 2000mm length TIG Welding by hand en robot Vacuum Leak testing Clean room packing All activities are executed by highly trained vacuum engineers. Flexibility and quick response are held in high esteem in the company. As a consequence of the great experience in designing, manufacturing, vacuum testing, clean room building and packaging of various vacuum components, Vernooy can be your valuable partner. References In October 2008 Vernooy realized and completed the delivery of most of the mechanical parts for Magnum-PSI for the FOM-institute for Plasma Physics Rijnhuizen (the Netherlands). They are completely produced by Vernooy Vacuum Engineering. Wijdeven Rene van den Heuvel Account Manager – Business Unit Motion www.wijdeven.com De Scheper 303, 5688 HP Oirschot T +31 499 320 130 rene.van.den.heuvel@wijdeven.com Wijdeven Group is a leading Dutch company in developing, engineering and manufacturing cutting-edge magnetic fields for both motion and power generation for high-end applications. Turnover: 20 M€ 110 employees Wijdeven Group provides innovative complete magnetic solutions building on more than 70 years of know-how and expertises in the field of advanced magnetic technologies. Wijdeven Group develops and manufactures motion and power magnetic components, (sub-)assemblies and systems that include various coils, permanent magnets and passive components like transformers and inductors. Wijdeven Group is a global company with her headquarters located in Oirschot (the Netherlands) and a joint venture in China, offering leadership both in costreduction and technology. In doing so we strive to provide exceptional values for our customers. Wijdeven group is a quality company with green mindset for our environment, with both ISO9001 and TS16949 certified. References ASML – Philips – NXP- GE security – Thales – Honeywell – BOSCH - XEROX Abstracts (continued) Bernard Denis: Knowledge & Technology Transfer (10 November 9:00 Council Chamber) CERN encourages knowledge and technology transfer, or generally speaking the access to technologies, expertise and industrial processes to industries, universities and laboratories. Different technology transfer modes are used to allow the access to CERN technology by industry. These include contracted and collaborative research, service and consultancy and the licensing of intellectual property. The presentation will describe CERN technological domains, the technology transfer modes, provide for examples of available technologies and business opportunities as well as a successful case of transfer from High Energy Physics to the X-ray material analysis instrumentation market. Lucie Linssen: The CLIC study of a Multi-TeV Linear Collider (10 November 9:30 Council Chamber) The talk presents the CLIC accelerator and detector studies. A future multi-TeV electron-positron collider will be the best tool to complement and extend the physics discovery reach of the LHC. To this aim R&D is currently carried out on the Compact LInear Collider (CLIC) technology and its physics detector concepts. CLIC is based on a novel two-beam acceleration with very high acceleration fields (up to 100 MV/m), allowing to reach collision energies of 3 TeV in an accelerator complex of some 48 km length. The technology is developed by a large international collaboration and uses several accelerator test facilities worldwide, among which the CTF3 test facility at CERN. The results of more than two decades of R&D are currently being laid down in a Conceptual Design Report. The present status and principal results of the R&D will be presented together with plans for the upcoming technical design phase. Germana Riddone Fabrication of CLIC RF structures and components (10 November 10:00 Council Chamber) The Compact Linear Collider (CLIC) study is focused on the design of an e- e+ linear collider at colliding beam energy of 3 TeV with a luminosity of 2·1034 cm-2 s-1. CLIC is based on the innovative two-beam acceleration scheme, in which the RF power is extracted from a low energy but high-intensity drive beam, and transferred to a high energy accelerating beam, called main beam. The accelerating structures of the main beam operate at 11.9942 GHz with an accelerating gradient of 100 MV/m. The two linacs (each about 21 km) are equipped with two-beam modules, housing all the main RF and focusing components. To fulfil the CLIC requirements, the different parts of the RF structures should be fabricated and aligned with a precision of few microns. The presentation focuses on the engineering and fabrication issues of the RF structures and RF components. The main steps of the fabrication process, including machining, surface treatment, alignment and bonding, are reviewed together with the present achievements. This challenging work in carried out in collaboration with several international industrial partners and institutes. Special effort is still required to enlarge the market and qualify new European companies. The talk ends with the presentation of the future CLIC needs and perspectives for industrialization and mass production coming phases. Roland Garoby: Plans for the Upgrade of the LHC Injector Complex (10 November 11:00 Council Chamber) An accelerator complex made-up of 2 linacs and 4 synchrotrons (Linac2, Linac3, LEIR, PS Booster, PS and SPS) is being used to provide proton and heavy ion beams to the LHC. These accelerators, which were designed and built many decades ago, have been modified to meet the needs of the Collider (the oldest one being the PS, which accelerated beam to high energy for the first time in 1959). Until now, they have performed excellently and with a remarkable flexibility. Extensive consolidation will however be mandatory for reliable operation until ~2030 (the expected end of life of the LHC), in combination with major upgrades to allow for pushing the LHC performance as well as its discovery reach as far as possible. The technical solutions for the upgrade will be defined and implemented before ~2017 in the frame of the “LHC Injectors’ Upgrade” (LIU) Project. Large investments will have to be made in many different types of equipment (RF, kickers and pulsed high voltage systems, power converters, magnets, etc.). The three major fields of my activity at CERN are: The optimisation of the new LINAC 4 accelerator, which is under construction at the moment, The upgrade study for the LHC interaction regions to improve the collision rate Teaching activities in Accelerator physics. The theoretical part of my work is related to the behavior of charged particle beams in the magnetic fields of an accelerator, and the specification of the magnet field quality in our storage rings. Mainly the layout of new machine structures (so-called magnet-lattices) and the influence of their (multipole-) field errors on the particle stability is my daily work. Bernhard Holzer: LHC-Upgrade (10 November 11:30 Council Chamber) The presentation gives a short introduction to the layout of the LHC, its main components and the corresponding parameters of the colliding particle beams. The key aspect - the so-called luminosity of the collider - reflects the collision rate of the two beams. It is besides the particle energy the most important parameter and at the same time the focus of the actual machine operation and the LHC upgrade program at CERN. The luminosity will be discussed in detail and its design goal will be compared to the present machine performance. Based on these considerations we will present the concepts that are studied at CERN to increase the particle collision rate: what do we have to do, to improve the luminosity? What are the new technical challenges that we face and which are the efforts in research and technical development that will be needed to reach the goal: Key words are new s.c. magnet design (Nb3Sn technology) to achieve large aperture / high gradient magnets, additional or more effective He-cooling, transverse deflecting rf cavities ("crab" cavities) to overcome the geometric luminosity reduction factor and the increase of the single proton bunch intensity by more effective acceleration in the pre-accelerator chain. I am working in the group of accelerator physicists that describes theoretically the behaviour of charged particle beams in storage rings. The understanding of the main beam parameters of LHC and other operating machines at CERN, as well as the improvement of their performance is presently a top issue for us. In addition we are responsible for the design of new accelerator projects. Collective Promotional Activities programme (CPA) NL Agency is a department of the Dutch ministry of Economic Affairs responsible for the implementation of sustainability, innovation and economic development programmes for various governmental bodies. It is the contact point for businesses, educational institutions and government bodies for information and advice, financing, networking en regulatory matters. The division NL EVD International stimulates international business and cooperation and promotes a positive image of the Netherlands abroad. As a division of a State agency and a partner to businesses and public-sector organisations, NL EVD International aims to help them achieve success in their international operations. A growing network of organisations, government institutions and companies have come to rely on NL EVD International for information about foreign markets, governments and trade and industry. One of the services the division NL EVD International provides is the Collective Promotional Activities programme (CPA). CPA promotes the organization of incoming en out-going trade missions, collective trade fairs and international promotional activities on behalf of Dutch companies. Each year, there are about 90 CPA activities, which can take place within any sector and / or country. For further information about the CPA programme: P +31 (0)88 602 8289 E cpa@info.agentschapnl.nl Agency NL NL EVD International P.O. Box 20105 2500 EC The Hague The Netherlands T: +31 (0)88 602 9500 E: evd@info.agentschapnl.nl I: www.hollandtrade.com Epilogue Holland@CERN is an important opportunity for Dutch highly technological firms to show themselves to physicists and technicians. Good communication is crucial for doing business and this is supported by an exposition like Holland@CERN, a benefit for both suppliers and buyers. A pied à terre for firms from the Netherlands formed by the locally working Dutch employees is another aim of this event. Doing business with Big Science stimulates innovation and with the knowledge and technology transfer are proofs of valorization. This First Holland@CERN in almost 15 years would not have been possible without the CPA sponsor contract of NL EVD International. We, the organisation of Holland@CERN, want to thank all the people involved in realising this sponsorship. We also would like to thank the CERN organisation for hosting the event, especially Karine Robert who has been our local coordinator was of essential support. Merci Karine! Another word of acknowledgment goes to all the talks and excursions in a varied program during Holland@CERN. Thank you all very much. We as initiators were enormously inspired by the enthusiasm we encountered during the months we have been busy with the organisation of Holland@CERN. We are looking forward to the event itself and seeing you there and may this Holland@CERN be the first of a new series of Dutch exhibitions from industries working for Big Science. Robert Klöpping, CERN ILO and PA for ESRF Toon Verhoeven, ITER ILO Piet van Otterloo, Head of Dutch Scientific Map of Exhibition area 1. Demaco 2. Sumipro 3. Boessenkool 4. Dutch Space 5. Exotech 6. Hitec 7. TNO 8. INCAA 9. Janssen Precision 10. Imtech 11. Heinmade Map of Exhibition area 12 Tecnovia 13.Hositrad 14.ECM 15.VDL/ETG 16.3D worknet 17.HIT 18.Heeze Mechanics 19.Vernooy 20 Bayards 21.Veenstra Glazenborg 22.ITER-NL 23.Stirling 24.Cryozone