220l+.20l6 828{j - İskenderun Teknik Üniversitesi
Transkript
220l+.20l6 828{j - İskenderun Teknik Üniversitesi
-l I- ToBB |SKENDERuN TEKNiK ÜııiveRsİresİ Rektörlük rünxive İskenderun Teknik Üniversitesi Rektörlüğü Merkez Kampüs 31200 İskenderun/HATAY ODALAR VE BORSALAR einı_iĞi larih Sayı L J Konu , : : 220l+.20l6 828{j 02|l Yüksek Teknoloji Üniversite Sanayi İşbirliği İmkAnları (ESS Projeleri) Küreselleşen Dünyamızda ülkelerin artık birbirinden tümüyle bağımsız birimler olarak hareket etme imk6nı oıtadan kalkmış, ekonomik, teknolojik, araştırma -geliştirme, sosyal ve kültürel konular başta olmak üzere her alanda birbiriyle koordinasyon ve işbirliği halinde bulunulması bir zorunluluk haline gelmiştir. Ülkemizin kalkınma hedefleri arasında, orta gelir gurubu bir ülke olmaktan çıkarak yüksek gelir gurubu ülkeler arasına katılma hedefi bulunmaktadır. Bu da ancak yüksek teknoloji ürünler üreterek, bu konulardaki teknolojiyi yurdumuza transfer ederek ve bu konuda yüksek nitelikli eğitim vererek ulaşılabilecek bir hedeftir. Bu amaçla İsviçre'de yer a|an CERN'in ihtiyaç duyduğu ileri teknoloji de içeren ürünlerin ihracatını gerçekleştirebilmek için TOBB bünyesinde bir Türkiye Sanayi İrribat Ofisi kurularak faaliyete geçmiş olup ihalelere teklif verilmesine teknik destek sağlanmış ve ilk ihalemiz kazanı|arak bu ileri teknoloji projede Türkiye olarak yer almamz sağlanmıştır. Şimdi benzer bir imkAn İsveç'in Lund şehrinde kurulmakta olan European Spallation Source (ESS) için mevcuttur. 20l5 yılında Avrupa Komisyonu tarafindan Avrupa Araştırma Altyapıları Konsorsiyumu (European Research Infrastructure Consortium - ERIC) olarak devam etmesine karar verilen European Spallation Source (ESS), 20l0 yılında İsviçre ve Danimarka Hükümetleri himayesinde kurulmuş bir ortaklıktır. Daha sonra bu ortakhk Çek Cumhuriyeti, Danimarka, Estonya, Fransa, Almanya, Macaristan, |ta|ya, Norveç, Polonya, İsveç ve İsviçre'nin katılımı ve desteğiyle bir Avrupa Araştırma Altyapısı olarak yeniden şekillendirilmiştir. Söz konusu oluşumun merkezinin 2019'da faaliyete geçirilmesi planlanmaktadır. Alanında dünyanın en büyüğü olacak Merkez'de nötron saçılımı (Neutron Scattering) tekniğini kullanarak ileri seviye ma|zeme araştırmaları, yaşam bilimleri, enerji, çevre teknolojileri ve temel fizik alanlarında araştırmacılara katkı sağlanması hedeflenmektedir. ESS'ye katılım tam üyelik (membership) veya gözlemci üyelik (observer) olmak üzere iki şekilde mümkün olmaktadır. Düzenlenen bilgi günü ve katılım sağlanan toplantılarda yapılan görüşmeler neticesinde Türkiye'nin şu aşamada ilgili platforma "Gözlemci Üye" olarak katılmasının faydalı bir yöntem olabileceği soılucuna varılmıştır. Gözlemci üyelik için ESS Konsey Başkanı'na yazıIıb\r talep iletilmesi ve bu talebin ilgili ülkedeki araştırma camiasının altyapıya sağlayacağı katkıyı da içermesi gerekmektedir. Gözlemci üyelik ile elde edilecek olan ESS projelerinde ortak olarak yer alma imk6nı ve ESS merkezine insan kaynağı desteği sağlama hakkı ile araştırmalara katılım sağlanması; ilgili alanda nitelikli insan gücü yetiştirilmesine de imk6n sağlayacaktır. Ekte verilen metnin incelenmesinden de görüleceği üzere Türkiye'de Üniversite-Sanayi işbirliği ile ESS'ye katkı verilebilecek pek çok alan bulunmakladır. Üniversitelerimiz ve firmalarımızın ilgilerini çeken konularda ESS'nin talep ettiği mal ve hizmetleri sağlamanın yanı sıra elde edilecek bir başka fayda da ülkemize teknoloji transferinin sağlanması olacaktır. Bu mal ve hizmetlerin finansmanı konusunda çalışmalar bir taraftan yürütülmekte olup Türkiye Cumhuriyeti_1_0,Kalk_lnpa planında d4 yulguIqdığı gibi, bazı teknolojik yatırımlar Ayrıntılı Bilgi F o22l 1 Dumlupınar Bulvan No:252 (Eskişehir Yolu 9. Km.) 06530 /ANKARA Tel: +90 (3|2) 2|8 20 00 (PBX) O Faks: +90 (312)2l9 4090 -9| ,92 -93 e-posta : info@tobb.org.tr O Web, i,vrrı-ı,.tobb.orq.lr İçin: M.Hakan KIZILTOPRAK TELEFON : +90 (312) 218,2039 E-MAIL cern@,tobb. Birliğimizde ISO 900l:2008 org.tI kalite yönetim sistemi uygulanmaktadır SayfaNo1l2 lo1.07 .2003/1/06.06.201 3 ,; .|r: ve araştırma-geliştirme (Ar-Ge) faaliyetlerinin sadece serbest piyasa mekanizmasıyla değil, kamunun yönlendirici, düzenleyici ve destekleyici yaklaşımlarıyla da geliştirilmesi amaçlanmaktadır. TOBB olarak üstlendiğimiz görev, Üniversite, Sanayi ve Kamu sektörü arasında oluşturulmaya çalışılan ara yüze ve ESS'nin ihtiyaçları doğrultusunda geliştirilecek projeler ve iş paketlerinin ortaya çıkmasına katkıda bulunmaktır. Bu çerçevede ESS'nin ihtiyacı bulunan teknik destek ve araştırma alt yapısında görev alabilecek akademik kadroların tespit edilerelg ülkemizin gözlemci üyeliğine karar verme aşamasında bulunan ESS'deki üniversite-sanayi işbirliği fırsatlarının belirlenmesini teminen, TOBB bünyesinde Yüksek teknoloji konularında Üniversite-Sanayi İşbirliğini gerçekleştirmek üzere kurulan ve rÜbİra« ile de etkin bir koordinasyon halinde çalışan TOBB CERN Sanayi İrtibat Ofisi koordinatörümüz Hakan KIZILTopRAK ile i ved il ikle irtibata geç i lme si n in önem arz ettiği değerlend iri lmektedir. Ülkemizin kalkınma hedefleri açısından son derece önemli olan bu konuya değerli vaktinizi ayırarak Üniversitelerimiz ve firmalarımızın birbirlerini tamam|ayarak yapılabilecek katkıların genel çeİçevesi hakkında irtibat ofisimizi bilgilendirmeniz halinde , tarafımıza ulaşan bilgiler bütünleştirilerek Üniversite ve SanaYicilerimizin yer alabileceği projeler belirlenecektir. Ülkemizin söz konusu resmi başvurusunun Haziran 20|6'da yapılması planlandığı göz önünde bulundurularak, İlgili Fakültelerinizle irtibata geçerek ESS,nin ilgi alanına giren konu başIıklarından Üniversitelerimiz ve firmalarımzın işbirliği ile sağlanabileceğini düŞündüğünüz iş paketlerinin velveya ilgili olabilecek akademik kadroların iletişim bitğilerinin .n g"ç l 8 Mayıs 20l6 tarihine kadar tarafımıza bildirilmesini arz ederiz. ırtibat ofisi: M. Hakan KIZILTOPRAK Başkanlık Özel Müşaviri Türkiye Odalar ve Borsalar Birliği (ESS/CERN - Türkiye Sanayi İrtibat Ofisi) hakan. kizi ltoprak@tobb.org.tr +90 3l2 2l8 2039 iş +90 530 EK: 5ll 7762 cep ESS Genel Sunumu ve İş Paketleri Dumlupınar Bulvarı No:252 (Eskişehir Yo|u 9. Km.) 06530 /ANKARA Birliğimizde Teı: +90 (3l2) 2l8 20 00 (PBX). Fak§: +9O (312)219 40gO -gl -92 -93 ISo9O0l:2008 e-posta : info@tobb.org,tr O Web : ıvrvrv.tobb.org.tr Kalite Yönetim Sisteıni _ İçin M.Hakan KIZILTOPRAK TELEFON : +90 (3 l2) 2|8-2039 E-MAİL: cern@tobb.org uygulanmaktadır lı Bilgi .2003/1/06.06.20 1 3 SayfaNo2/2 t^_-İ,:ı, - ,.: EuRoPEAN :ıİ,r[,,., ESS !K potential work packages Status:April 2016 ü" , .aLı =. Table of content lNTRoDucTloN To THE EURoPEAN sPA[[ATloN souRcE ERlc 3 oPEN ll(c oPPoRTUNlTlEs lN THC Acc€LERAToR 4 oPEN lKc oPPoRTuNlTl€s 8 lN THE NEuTRoN scATTERlNG sYsTEMs oPEN IKc oPPoRTUNlTlEs lN THE TARGET 10 OPEN lKC OPPORTUNlTlES İN THE lNTEGRATED CONTROL SYSTEMS 12 2 lntroduction to the European Spallation Source ER|C The world's most powerful neutron source for life sciences, energy, environmentol te ch n ology, cu ltu ro l h e rito ge and fundamental physics TYPE: Single site MEMBER COUNTRlES Denmark Fra nce Germany Hungary conditions. The Neutron Scattering systems (NSS) Project at ESS is responsible for the development and coordination of state-of-the-art instrument concepts for ESS, in collaboration with international partners. Around 40 concepts were developed by ESS scientists and our partners. of those, 1-6 concepts have now been selected and approved by the Ess steering committee for construction within the Nss project. our partners from the member countries will lead the construction of most of the instruments, and many wilI benefit from contributions from two or more participating organisations. The Nss project is coordinating the construction and installation of these instruments, and the associated support systems (such as sample environments and data processing Norway Poland Sweden switzerland OBSERVER COUNTRlES Belgium The Netherlands 5pain United Kingdom TlMELlNE o ESFRl Roadmap entry:2006 Preparation phase: 2008-2010 Pre-construction phase: 2OTO-Z01,2 . Construction phase: 2013-2025 ı ı operation phase:2025 Legal entity establishment: ERlc, 201,5 ESTİMATED COSTS o Capital value: 1.843 M€ . Operation: 140 M€/year HEADQUARTERS European Spal|ation Source ESS ERIC u6, SE-22]. 00 Lund and analysis capabilities) to ensure the highest quality outcomes for the European community. selection of the additional 6 instruments will occur once construction of the initial suite of 8 instruments is approaching completion. ıMPACT Ess wi|l be an attractive and environmentally sustainable large compound including industrial and laboratory buildings, office space, and guest accommodation facilities all housed within a significant architectural design that will make an impact on the world's stage. Before the expected worldscale scientific impact can be realised with the operation phase, the construction of the Ess does have a direct economic impact by generating growth and jobs, advance development and fuel innovation potential in the öresund region and across the Eu. with Ess being built as a collaborative project, the growth effect will be shared between the host countries (sweden and Denmark) and the Ess-ERlc partners. The realisation of ESS enables access to frontier technology, experienced technical and scientific staff as well as unique production facilities and technologies, which would otherwise be unattainable. ln addition, the Ess will be a key instrument for addressing the Grand challenges through novel insights on matter at the molecular and wEB slTE http://www.europeanspa ESS Data Management and Software Centre (DMSC) will be located in copenhagen (Denmark). The foreseen milestones include the beginning of the first on-site Accelerator installations (Sep 2016), facility ready for Accelerator beam on the Target (Dec 2019), the first call for user proposals (2022), the Machine installed for 2.o GeV performance (Dec 2022|, start user programme (2023}, and the completion of the ].6 construction phase instruments enabling neutron methods to study real-world samples under real-world ltaIy P.o Box transformative capabilities for interdisciplinary research in the physical and life sciences. ESS officially became a European Research lnfrastructure consortium (ERIC) in october 2015. The facility is under construction in Lund (Sweden), while the AcTıVlTY A total of ]_6 instruments will be built during the construction phase to serve the neutron user community with more instruments built during operations. The suite of Ess instruments will gain 10-1oo times over current performance Eston ia ı goal of building and operating the world leading facility for research using neutrons. The Ess will deliver a neutron peak brightness of at least 30 times greater than the current state-of-the-art, thus providing the much-desired (Dec 2025). Czech Republic . DESCRİPTlON The European spallation source is a research infrastructure committed to the i!ationsource. se atomic leveI and applications to energy, carbon sequestration methods, health issues at biology level as well as drug development and delivery strategies, plant water-uptake processes of relevance for agriculture, novel data storage materials, and more. 3 Within the Accelerator opportunities for lKc are requested in the following and other fields as described below and in the following table. High-Beta Modulotors roted for 660kvA . The type of RF amplifiers for the High Beta section of the Linac is not decided yet. Two options are open:- klystrons of the same type as the ones used in the Medium Beta or 'till is loT's. The choice expected to be made by end 2017. should the choice be klystrons, then ESS would require 21 klystron modulators, each modulator feeding 4 7o4MHz 1.6Mwpk klystrons in parallel. lf the choice would be loT's, 21 loT modulators would be required, each one capable of supplying 4 loT's in parallel. ln both scenarios the power rating of the modulators would be nearly the same (-660kVA, on the electrical power grid side); option 1)- K|vstron moduIators: o Ess is deveıoping a Stacked Muıti-Level (SML) klystron modulator concept and prototype, which will provide a scalable, compact and cost effective solution for Ess. The work package with open ln-kind potentaal requires production on a .'built-toprint" basis and testing of 9 units in autumn 2o16. The stacked Multi-Level (SML} modulatorl - Development roadmap 'un'ı3 ı| .ı. -E ı s., 'ı3 - M.r,ıa option 2)- |oT moduIators: o The topology and the procurement strategy for loT modulators i5 still under con5ideration. The deVelopment, procurement and production plan spans from 2018 untjl 2022. RF Ampliİiers . loT (lnductive output fubes) E55 is developing innovatave Multa-Beam lnductive output Tubes (MB-loT), a type of powerefficient source for generating radio frequency (RF) waves on the accelerator. Multi-beam loT is a novel development pioneered by Ess, where several electron beam' (in our case 10) are combined to reach high power. 2 prototypes have been ordered and decisions for an 84 tube order is scheduled for early 2018 with open ln-kind opportunities. 1.200 - |,000 *] 600 ö/ l .ıoo. l *f-J (9,** g=gg THALEs Medium-Beta Klystrons Ess has ordered 3 prototypes, which will be delivered and tested in Q2-Q3 2016. The Ess linac will have 36 medium beta klystrons. A tender will op€n towards the end of 2016 with possible ln-kind opportunities. ü." 9, .J n' İ6İı. aıİıx --t r: Accelerator WBS No. sub-section WP description Brief Description oİ lK lD I1,.7.7 II.7.|o Value start Date (k Eurol Beam cold Linac wire To design and built 16 actuators that move a Diagnostics Scanners wire through the proton beam, inc|uding all mechanical parts (l.e forks, linear drive, Beam Beam Diagnostics lnstrumentation for Target and motors...). Allvacuum parts shall be compliant with HUV vacuum and particle free. The detailed design, production. integration, 274 May-16 564 May-16 10965 Sep-16 261,35 Dec-15 installation, and commissioning of the aperture monitoring systems and the grid system. Tuning Beam Beam-line devices (sensors) and supporting Dump electronics are inc|uded as deliverables. The aperture monitor system consists of 4 devices, each containing an array of metal blades and thermocouples that intercept the edge of the proton beam. The grid system consısts of one device in the target monolith with over 100 wires that intercept the core of the proton beam. 11.8.5.6 RF Medium Beta Amplifiers Klystron s Medium beta amplifiers are high power RF klystrons providing up to 1.5 MW of peak RF power at 7o4.42 MHz frequency. Repetition rate is 14 Hz and pu|se width is 3.5 ms. The ESS linac wi|l have 36 medium beta klystrons. 11.8.5.7 RF High-Beta The high beta sources are either multi-beam Amplifiers Klystrons or lOTs lOTs or klystrons providing 1.2 MW peak RF power at the same RF frequency, repetition rate and pulse width as for medium beta. Multi-beam lOT is a novel development pioneered by ESS, where several electron beams (in our case 10) are combined to reach high power. Multi-beam lOT is the baseline. The fall-back solution is to use klystrons similar to the medium beta. The ESS linac will have 84 high beta lOTs or klystrons 13. 15 Electrica Support l Cab|es, Power Distribution Cabinets lnstallation of cables - cable pulling and termination of cables under ESS / (or ESS contractor) supervision. Design and Manufacture of power distribution cubicles and system; for example low voltage power distribution panels, rack power distribution units etc. Design work includes detailed design (layout, thermal and overload dimensioning, mechanical enclosures) and creation of schematics, drawings, Bil1-of-Materials, Test- & Assembly lnstructions, Q & A documentation etc. Manufacturing includes: Procurement of components, assembly, quality controls, testing and logistics support. 1600 J un-17 Accelerator WB§ No. Value (k Eurol or lK lD 11".16 Cooling su pport Design, construction, Piping design and installation for cooling-water pipes in the accelerator and tunnel: Design instaIlation of work inc|udes detailed design (layout, routing, piping components) and creation of drawings, and 2000 May-16 other documentation. lnstallation work includes installation planning, coordination, 11.16 Cooling Design, Cooling water skids: mechanical and electrical 5upport con struction, detail design of cooling-skids for accelerator installation of and neutron instruments, including design of demineralizer and degassing system. cooling skids May-16 Manufacturing includes procuring components, assembly, and testing (pressure TI.I7.5.7 Modulators High-Beta Mod u lators Production on a "built-to-print" basis and testing of 21 pulsed klystron or lOT modulators (depending on the choice of RF amplifier) rated for pulse voltage/current of 115kV/1OOA (klystrons) or 50kV/200A (lOT's) with pulse |ength of 3.Sms and a pulse repetition rate of I4Hz, 235o7 Dec-15 open lkc opportunities in the Neutron scatterinF svstems One of the main open lKC opportunities within NSS is the Bunker project. The Bunker is the common shie|ding of the instruments extending from the Target monolith (see drawing betow). The materials that will be mainly used in the bunker are concrete and steel. Another lKC opportunity is the Fast Slit Shutter Prototype package, where NSS needs an assessment of fast direct linear actuator technologies, like voice coils or linear motors. §-- iı,,l,ı F-. :| ,p -\*, t There are also opportunities for lKC with DMSC (Data Management and Software Centre) for the User Office and also within the Science Support Systems for Laboratories and Facilities as well as for Sample Environment Equipment. Project lnstruments Resources Status and lKC percentoge t r|tEılr t'uğtt'ı' tslı^ arıİ-,puİroıl^rİıharr ıt barirı ,cııoiııt! 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Hu lwl]ı.r) 't0llll*leDtralrtl ofO{ıot!İ|Cı|İ?|ıOüı ıl0 ş o6m]M$İı{}r(rı5otr| oaıtırıaroıo.norıİcıl D(Pllr§,ıO*ı{HtP9ırlru{wlGı.ı.o||İa oC{rıırıürlrlıİıiıı.?riı ıı|çı|il. lİiİİı ü|n !oellrllğİı.şrutıı*iulwiarşı.ݧ§ ı6th l9ac1ürlal€İ oı4* ğıİı hnta, ^etroı auirr 1 Cod tlıirt toa.İ ıi bunlıl irt?|, co.ı |İlıİt i. ,.1 ıı 9 , ıt ı ıı ıı ıı tı 9 ı, 1ı ıt ıı İı ıri o.al ,0İ tıı 0.a6 ıOoı ,ü ı,5o t6İ ıoo* ,rİ OJt l00* ,0İ oşI ıO9ı 0.rı ı,lo 9r* |}.60 ] ıılJ :i 6 ıor_5 o., tüı ııt ,ır., ğa!.t,": 8r.6r., ıO.ıt ].9ı lı,a, Neutron scatterıng system5 wBs No. sub-section WP description Brıef DesCİıptıon Value or ıK lD NlK 4#7 start Date (k Euro| DMSc user office WP to provide User Office Staff from Jan 20].8 1638 201,8 c. 500 TBD TBD TBD 100 20t6 15000 Q2-2016 1638 2018 to Dec 2021 to establish operations procedures and support functions for the DMsC. NA NA 5SS SSS Laboratories and To supply and fit out laboratory equipment for Facilities scientific users of Ess Sample Mechantronics, Software lntegration, environment Biological/Chemical equipment Deutration, Microscopes - cellgrowth, high temperatu re/pressure/magnetic field environments. Mixture of commerical equipment and some design effort. NlK 6.25 lnstrument Fast slit shutter To assess fast direct linear actuator #1 construction Prototype technologies (like voice coils or linear motors) in delivering the performance requirements of the fast slit and shutter systems. A prototype test rig is required to a|low testing of Various motion parameter5 and configurations prior to deployment on instruments. NA lnstru ment Bunker construction The Bunker is the common shielding of the instruments extending from the Target monolith. The maximum outside radius of the bunker wall will be 28 m. The materials will be mainly concrete and steel. The shielding blocks need to be easily movable for maintenance and to give access to the instrument beamlines. NlK 4#7 DMsC user office WP to provide User Office Staff from Jan 2018 to Dec 2021 to establish operations procedures and support functions for the DMsc. Target has open lKc opportunities namely in the design and procurement of monolith steel 5hielding, which i5 currently being broken down into severaI smaller work packages. Furthermore, pu.tn"r, needed for the design and procurement of shielding casks used to transfer highlv activated "re components from the monolith to the Active cells as part of the internal Casks and Handling Devices, as well as for the procurement of machine equipment for the activated components workshop, mock-up test stand, and complementary shielding. The uncommitted ln-kind work packages are summarised below. Uncommitted ln-kind Work Packages . Target monitoring plug (0.5M€j - Plut on downstream side of taİteı wheel wİh instfumentation to monitor ta.get health . Helium Atmosphere system (ı.3M€) . Monolith Shielding Systems U4.2M€} . P8w Primary cooling System (0.5M€) _ - Atmosphere within the monolith Breakint th|s into smaller packages - Hellum €oolant . lnternal casks and Handling Devices (3.3M€) . - For t.ensferrint activated components from the monolith to the active cells Remote Handlin8 support (1.2M€) - Mock-up ı€st stand, complementaıy shieldin& other items 10 Target wBs No. sub-section wP descrıptıon Brief Description or ıK ıD TlK 4.1 Value start Date (k Eurol Tar8et Monitoring Plug Design and prbcurement of a vertical stringer that is located just downstream of the target 483 Nov-16 1295 Nov-16 1,4227 May-15 528 May-16 3293 Sep-16 T2Io Dec-16 whee| with in5trumentation to diagnose the proper function of the target. TlK 4.7 He Atmosphere Design and procurement of the helium system atmosphere control system for the target monolith. TlK 4.8 TlK.5.4 Monolith Design and procurement of monolith steel ShieIding System shielding. This TlK is currently being broken into several smaller packages. Proton Beam Design and procurement of a helium cooiing Window Primary loop with a thermal capacity of about 3 kW. cooling system TlK 6.2 TlK 6.7 Internal casks and Design and procurement of shielding casks Handling Devices used to transfer highly activated components from the monolith to the Active cells. Remote Handling Procurement of machine equipment for the activated components workshop, mock-up test support stand, and complementary shieldins. 11 open ıkc opportunıtıes ın the ıntegrated controı svstems At this point lCS has identified 22% of the construction funding as possible lKC with the goal of reaching up to 5O%. Additional Work Package definitions are ongoing. The majority of value within lCS's scope during the construction phase is represented as manual labor, many of which are transient positions, namely in the following fields: . Software development services . . . Hardwaredevelopmentservices(electronics) PLC programming services "lntegration" Technicalscope for lcs ' . . . . lİle .,li.]l lJf tcllinİl..,lı"j( tji]i i,,r ]iı(,l i|]ı ı,,ji;llji..i:,,,,..üü::,j l]iif_.aii.,.l lı;,l ! i, ı;ı,ıt :,,,,'.t,:ı'i'i:; Safety and prcıtection systen]s lııfrastructure: networking, data centre contrcl _gc.EE ğ5gEuE ğ!EiğE 4giii[; ݧ§FşE ,E .9^Htg EşEgE :E,i=.65 i.*!dş,i ı^oı.ını Systemsiııtegration,lrıstallation Project ıııanagement and administratioıi 9E .ş .i.EE Eğ;b;opığ3 :E-iFEü,€ ğ;E".]_-E§ğ"-; ;_EH9UşiEiç s,9öEftüooAij 12 WBs No. or Sub- WP description Brief Description section Value {Euro) ıK ıD lCs L4,2 Development of lCS specific applications lcS 14.2 Software quality processes and Development of lCS specific applications such as our controls configuration database, lOC factory and others. Requires competence in JaVa, database, Web based Ul. Some applications are partially Start Date 250000 2000000 1H 2016 100000 300000 2H 2016 500000 1000000 2H 2oI8 200000 _ 1000000 IH 2016 500000 1000000 1H 2018 200000 500000 2H 2oL6 150000 _ 900000 2H 2016 1000000 3000000 2H 2016 250000 _ 500000 2H 2077 400000 700000 2H 201,6 completed environment lCS 14.2 software interlock system lCS lcS t4.3 DeVelopment and L4.3 enhancement of EP|CS v4 community software packaRes preventive Maintenance system lCS |4.3 calibration database lCS 14.3 Application for Save, compare and restore lCs 1,4.4 lntegration of instrumentation lC5 14,4 Robustness and availability analyses lcs 14.4 Small FMC carrier Studies and development of applicab|e software quality processes and environment. Support for applying continuous integration, test driven methodology and other techniques. Extension of the MPS to do proactive machine protection with advanced software technologies such as neural network analysis etc Development and enhancements of areas in Eplcs v4 that are identified as critical for Ess operations. Requires competence in C, C++ and Java MES-class application to manage maintenance of the machine. calculates wear, running time etc and schedules maintena nce. DeveIopment and deployment of application for storage and retreival of calibration data for devices with versioning 5upport. ldeas include integration with the configuration solution already under development in lCS. Storage of a set of pv Values, comparison functions with stored values, and restore of saved values. Current design ideas include "goIden snapshot" concept, grouping pv:s into request files and database storage of the information. May be partaally using open source components. lntegration of instrumentation systems into the lcs standardized electronic front-end platform. Requires competence in electronics, FPGA and low-level software Development of test environment for specialized and stress-testing of lCS 5tandardized'eIectronic front-end platform. Requires electronics, test and software competence Design and development of a small form factor FMc carrier board with cpu capability. Design conceptis inc|ude DlN-rail mountab|e unit. Ethernet connectivity required. 13 lntegrated Control Systems WBs WP description Value No. or ıK lD lCS (Euro) 74.1 Cyber-security assessment and enhancement to control system data network Assessment of cyber security of the control system infrastructure network inc|uding vulnerability and penetration testing, stress testing of equipment and software. Requires 80000 150000 2H 2076 lCs 14.8 Physics application 200000 500000 2H 2016 lcs Development and support for online physics model in OpenXAL framework (Java) for linear accelerator simulation5, 1,4.Io lnstallation of equipment and infrastructure lcS Automation software development Development of specialized automation software for control system application5, Competence in automation systems from 500000 1500000 100000 1000000 1H 201,8 I4.Io Control system installation services 14 2H 201,6 ea .'E o]E U cd5 :fo-o E g O } o ıı o t, aE CD LıJ 6 eı( §; ö §i E h ö,s ş i o oo 'İb §E §ş 3c Ş} o- o l- q ş - E§" 1 §§ E§§ O (l) .=,§ E §§ s§ üa\J5 ,-\ i= c) q o O f o o co ıO c) § N! o o a o|r, o C () (5 o o9 f o ş } } o (o :ryİ o ğ ü o E o o O E o o ıl 3 .rtr o o ,ü tF .9 m t 0 ğl İı ğı ı- oE o o l§ o tr 69 aL =*o o -ş §c L c +. e J, E) J '' I i Şı1 E\ oil o- En J Ik So o(E Fıı ğL I o ı.§ oo zfr E ,,l İ b* FtE t}" L- o ç İr {.' ? 3lı L o ...Y (E E o o G o- (E o. _E properties of neutrons for measurements Charge neutral Deeply penetrating _ İ-_--______. _rıo- ,.,,... Magnetic moment (spin) Directly probe magnetism _ |öf Li motion in fuel cel ls o-3 High-Tc superconductivity Scattering Sensitive to light elements &llYĞ,.ric ..9lo6 o' İArı Actives sites in proteins F-.-.-...-..-.... İ_.ta.r, .a^EıgE o' iff--**_-'- Help build electric cars Efficient high speed trains Better drugs 3 - Neutron facilities reactorS and particle driven /"-:\ (t@) ' \*_==;.. 1020 Reactor sources E c MTR 1015 NRX f F co 5 c €.) Spallation Sources l|l H|FAR ..rfi^, X-10 o o NlsT 5AfAR1-1 HoR !ss J_PARc ı*ıınıa onpxıt zlNG_p ıııp ıi K€N5 wNR IANsct i'ı a l8R-ll RsG lRR_3 HANARo *?u**-r,.?_,, ' oPAl cARR csN5 cl__o PlK - E 1010 (! E cP-1 0J -c oJ Berkeıey 37-iı(h cyclotrol] 105 a a A a 350 nrcı Ra-Be source aJ LlJ L 1930 Chddwick \940 1950 1960 L97o 1980 1990 2000 rticle d riven p u lsed particle d riven steadV state pulsed reactor pa Fission 2010 rea ctors 2o2o 2030 Year (Updated from NeUt on scotlelina, x. skold and D. L, Price, eds., Academic Press, 1986) 4 x1014 ESS 5 MW 2015 design to .l, Possibilities of pulse shaping A='1.5A o E O g4 .l' o O CJ -c ESS 5 MW 2013 design (TDR sNs ğ) mz 1-2 MW lSlS TS1 JPARC 0.3-1 MW 32 kW time (ms) cJ Host countries of sweden and Denmark l Construction 47.5o/o ln-kind Deliverables - 30^ Operations 15% Cash lnvestment - g7oA Lı / Non Host Member Countries Construction 52.5% Operations 85% ln-kind Deliverables Cash ()(}cb( )O ( ? ı - lnvestment - ]-' 30olo ılh lı7 )3ıı;ffiuCC o i;'V 70o/a ff ı ı construction nvestment EuRoPEAN 5PAtLATloN sOuRcE i Already committed Sweden (member) Denmark (member) * Germany (member) United Kingdom (observer) France (member) ltaly (member) Spain (observer) switzerland (member) Nonıay (member) Poland (membeO Czech Republic (member) Hungary (member) Lithuania (future member) Estonia (member) Total Czech Republic 35.0% 12.5% 11.o % 10,o% 8.0 o/o 6.0% 5.0 Yo 3.5% 2.5% 2.o o^ 2.0% 0.95 % o.45% Poland . ŞWtzerlano Lithuania Estonia To be determined _Norwavi 0.25% 99.15 % Belgium (observer) Netherlands (observer) Greece (future observer) lceland Latvia Discussions: Portugal, Tu rkey, Finland ' lncludes pre-construction costs tbd tbd tbd tbd tbd Denmark 7 Organisation Administıation & Fjnance committğe Praft. Vice-chajr , .\ enD "q EUROPEAN SPALLAT|ON SOURCE ERlC COUNClL M. schartf, chair N. lrııiı ' souRcE Technıcal Advlsory commıtt€e P. Lebrun, chaif L. Börjesson, CHA|R ln-kind Review committee M. Marazıi, chair . EuRoPEAN , spAtLATıoN EUROPEAN SPALLAT|ON SOURCE AB BOARO s. Landelius, cHAlR B. smith, VlcE-cHAlR science Advisory commitlee A, Mey€İ, chair s, Mcclaın. co_chaİr EUROPEAN SPALLATION Partners and growing ENVlRoNMENT. sAFEw HEALTH DlVısloN P. HEAD 345 & (5o3o) Jıcob3aon oF DlvlsloN ı]. A9n9k DEre T, Han§on F. Jörud L spaniğ B wnĞr ADM|N ll oıvısıoı.ı oueury l]| 1ıozo; Jl gpanM skil5, l or nıvısıou DlREcToR DIRECTOR PERSoNALAS9STANT DEPUW ll ll ]l ll ll PRooF MAcHlNE DlREcToRATE (3o0o) R. oaroby TEcHNlcAL DlREcToR READ|NG & TRANSLAT|oN T. Welandar ADMıN|STRAToR M. Herbst M. Po*€ll DlREcToR PERSoNAL AsslsTANT DEPUTY J, Haine§ (l) H. Fröderberg sclENcE DlREcToMTE D. oEPuw Argyriou {2oo0) sclENcE DlREcToR DıRECToR s. Kennedy Deıl Anno Boulton s. Ghatnekar Nılsson s. Peter§son Arsköld D. Adonls (A) M. LinÖberg (L) lvl. sENıoR ADVlsoR PERSoNAL AsslSTANT CONVENT|OML FAclLlTlEs DlvtsloN (5o10) K. H.dİı DMSION o. LG$ (c) sENloR ADV|soR HEAO OF K, Brcimğ L, Landön L.Lre$(c) A Thorg a (J ,/-- a-_ Transition to European Spallation Source ERIC , .r"oo.o, l./Zİ\ YilCrİr:D, , !!A!.1TıoN \\\-_ _/ >uuxlı Ess ERlc EsS AB l Swedish limited liability corporation - owned by the Swedish and Danish governments transfer of assets, obligations and personnel by Oct 1, 2015 European Research nfrastructu re consortium Sole governing body: the European Spallation Source ERlC Council, comprised of representatives from the Member and observer countries 9 Ground Break Event . . 2 September 2014 (200 guests) official start of the construction! \-.------l- Foundation Stone Ceremony . 9 October 2014 (700 guests) . . o Programme on site incIuding speeches, partner video, wolking tour and reception Science Symposium in Lund Mobilized partners and stakeholders for construction! ER|C P|ate Ceremony Handing over of the ER|G Plate . . . 8 September 2015 (60 guests) onsite Marks the transition from ESS AB to The European Spallation Source ERlC Speakers: . Robert-Jan Smits, DirectorGeneral for Research and lnnovation, European Commission . Helene Hellmark Knutsson, Swedish Minister for Higher Education and Research . Dr. Esben Lunde Larsen, Danish Minister for Higher Education and Science Road to realizing the world's lea.ding,. (n facility for research uSlng neutrQf]ıs'|''"',-,..,,,.'§ ;.:iİk*;;!',...,'..,-},.*.-.*...,...'*-,.% i] :İ:]._ .,."ş,:ı:, " {. r* ,].. \' | ..,-{ "'-'?'_.,]l EunoPEAN sPALLAT|oN souRcE ,,:,,..,r.r.."_ 2025 Ess construction complete Ş+-.{ / 2014 construction work starts on the site ESS starts user program 2009 ı-/ Decision: ESS will be built in Lund ,, 2003 First European design effort of ESS completed 2012 ESS Design Update phase complete 2019 First neutrons on instruments 2023 Key Project Parameters Deliver on the Technical Design Report performance and Steering committee commitments 5 MW accelerator capabllity Cost Book construction cost of 1.843 B€,o,, Cost Book annual operations cost target of 140 M€ro,, 22"public" instruments (16 included in the construction budget) Start w/ unconstrained resources (technically limited schedule) and develop credible project execution plans Comprehensive review of project baseline and execution plans Secure funding and resources and align schedules with the available resources - Ess construction cost baseline @,Şii,:|jfJ" (Jan 2013 pricing) conventional FaciIities CF scope supported by host countries 531.9 -93.0 Accelerator Systems 510.2 Target Systems 155.2 lntegrated Control System 73.o Design & Engineering 33.7 Neutron Scattering Systems 350.0 Project Support & Administration and Licensing 123,8 Contingency 158.2 Total Construction Budget and ESS Cost Book Value 1843.0 Construction cost: C 1.84 Blllion ln kind: 747.5 Million ı € € € € € € 600 €510M 500 €350M 400 ı Cash ı lKC 300 € 155 M 200 100 €00 Controls Target lnstruments (NSS) Accelerator 34 h L:_:' y C (§ r F t ,ı,lllıli A ş',