3ème RV Business du Nucléaire Civil en PACA. ITER Organization Future Call for Tenders

Transcription

1 3ème RV Business du Nucléaire Civil en PACA ITER Organization Future Call for Tenders Disclaimer: The views and opinions expressed herein do not necessarily reflect those of the ITER Organization

2 Outline 1. ITER Project Procurement Key Principles 3. How to join ITER Project

3 ITER: Demonstrate the technological feasibility of fusion as an energy source DEMO: The next step will be to demonstrate commercial power generation

4 ITER An International Cooperation Seven Parties, representing more than half of the world s population, are involved in the ITER construction. 84% of the budget is In-Kind.

5 ITER Project Organization ITER Council Management Advisory Committee (MAC) Scientific &Technical Advisory Committee (STAC) ITER Organization In Cash Budget IO Suppliers Procurement Arrangements In Kind Contribution 7 Members: - China - Korea - Europe - India - Japan - Russian Fed. - United States Domestic Agencies In Kind Budget DA Suppliers

6 1. ITER Project Procurement Key Principles ITER Members In-kind Contributions: The Procurement Process starts with the signature of a Procurement Arrangement (PA) between IO and a DA, according to the Procurement sharing fixed by the ITER Agreement. Each PA defines the specifications, the schedule and interfaces at different steps of design maturity: Detailed Design Functional Specifications Built to Print FS DD BP In-kind contributions represent about 85% of the total budget of the Construction Budget for the ITER Project.

7 1. ITER Project Procurement Key Principles ITER Members In-kind Contributions (cont ) A total of 98 out of 140 PA signatures have been completed at the end of In addition 14 PAs were signed for Diagnostics. The total achieved signature value is 2566 kiua, representing 88% achievement of the total value of PAs.

8 1. ITER Project Procurement Key Principles ITER Project Procurement Procedures: The IO Procurement Process is based on International Public Procurement Rules, Most of the contracts are placed through a Call for Tender process starting by the call for nomination published through the DAs, The award criteria are of two types: Cheapest technically compliant offer Best value for the IO Other Procedures in place: Call for Expertise Request for Quotation Competitive Dialogue Restricted Tender 2012 Data

9 1. ITER Project Procurement Key Principles ITER Organization Procurement scope: IO overall scope of work: Overall Design, Integration and Management of the ITER Project, CODAC : Control and Data Acquisition and Communication, Magnets Feeders Sensors, Hot cells maintenance Equipment, Cooling Water System : engineering and on-site assembly, Part of the Thermal Shield, he Vacuum Pumping & Fuelling, Tritium Plant, Liquid Helium Plants, Heating and Current Drive, Diagnostics of the First Wall, Assembly Operations and Tooling.

10 1. ITER Project Procurement Key Principles ITER Organization Procurement scope (cont ): Some systems are provided by different Members, even the same component, IO is leading an important effort for standardization, Leads to a transfer of responsibilities or joint tenders with DAs in some cases, such as: Design and Manufacturing of the Port Plugs, Final design and manufacturing of the Tokamak Cooling Water Systems, transfer of procurement responsibility agreed at IC-13 (Nov. 2013), Test Blanket Modules (TBM) Pipings, transfer of responsibility agreed at IC-13 (Nov. 2013). Fast controllers, Valves, etc

11 Outline 1. ITER Project Procurement Key Principles 3. How to join ITER Project

12 Magnets (1/2) Supply Contract for Quench Detectors To provide electronics in order to perform quench detection system for magnet systems, including bus bars and current leads. Q Supply Contract for Current Leads Heater and related power supplies To provide heating elements and related power supplies for temperature regulation on current leads, including dedicated sensors at high voltage. Q Supply Contract for high voltage plugs To provide High Voltage Plugs at the level of the vacuum barrier supporting the HV cables Q Note: This information is indicative

13 Magnets (2/2) Low Voltage Cables Links connectors for the Cryostat To provide multi-wire low voltage cables and connectors which will be installed inside the cryostat and feeders. These cables connect patch panels to plugs, or vice-versa, and plugs to feedthroughs, they include special cold connectors. Q Design and Supply contract for Fuses To provide Cryogenic and RT fuses to protect the instrumentation wires Q Supply of High Voltage Connectors To provide high voltage connectors to be installed on the input patch panels of the cubicles, therefore being the termination of the warm cable routed from the HV feedthroughs to the cubicles containing the quench detector electronics Q Note: This information is indicative

14 Vacuum Vessel Manufacturing and testing of the In-Vessel Coil Detailed manufacturing design, fabrication and testing of the In-Vessel Coils, including conductor procurement, manufacture of the ELM and Vertical Stabilization coils and in-factory acceptance tests. This procurement will be split into multiple contracts, at least one for conductors and one for coil manufacturing and assembly. Q Additional Neutron Shielding supply Procurement and assembly of the Additional Neutron Shielding, which consists of about 1,000 shielding blocks to be attached to the VV thermal shields, including attachment systems Q VVPSS Condensation Study VVPSS Condensation Study to set-up of a test facility for sub-scale or fullscale demonstration of the condensation capabilities of the pressure suppression system spargers and to validate the analytical simulations, in order to meet the French Regulator requirements Q Note: This information is indicative

15 Control Systems (1/2) CODAC Core System, Phase 2. Framework Contract. Continuation of the development, maintenance and user support of CODAC Core System, the EPICS based framework software used by all plant systems. Good knowledge of Linux, EPICS, device drivers, communication software, real-time software, Java and Eclipse are required as well as user support. Q CODAC Network Infrastructure Supply. Supply of all passive network infrastructure components such as fibre optic cables, cupper cables, network cubicles and patch panels for the whole ITER site. It does not include any active components such as switches. Good knowledge of large IT network infrastructure is required. Q Integration and Control Integration Support This contract provides support for integration, testing and acceptance of plant systems arriving at ITER site. A total of 206 such systems delivered by 89 procurement arrangements with Domestic Agencies are expected. Good knowledge of instrumentation and control, ITER standards, site acceptance test methodologies as well as trouble shooting and problem solving skills are required. Q Note: This information is indicative

16 Control Systems (2/2) Central Safety System for Occupational Safety Final Design & Supply Final design and supply of the central occupational safety system instrumentation system (CSS-OS). This system allows central monitoring and coordination of all occupational safety functions on the ITER site. Good knowledge of personnel safety systems and associated standards and norms are required. Q Instrumentation and Control (I&C) Database support, Framework Contract. Continuation of the development and maintenance of the plant system profile database and its interfaces. This database captures all design and configuration data for plant system I&C and interfaces to other design and project management databases of the ITER project. Good knowledge of relational databases such as MS SQL, postgresql, MySQL or Oracle is required as well as SQL and Java programming language. Q Central Safety System Support, Framework Contract. To support the final design and implementation of the central nuclear and the central occupational safety systems. The contractor shall support IO staff in the execution of the supply contracts. Good knowledge of nuclear and occupational safety standards, functional analysis, qualifications and project management are required. Q Note: This information is indicative

17 Heating and Current Drive Framework contract for Technical support in Electron Cyclotron (EC) system installation. This contract is to get the support of technical expertise capable of installing the EC Transmission Line launcher components. The services will rely on an accumulated experience in installation of high vacuum equipment, precision alignment, high power microwave systems, high voltage power supplies, and commissioning of said systems. Q Note: This information is indicative

18 Diagnostics (1/2) Engineering Framework contract for Diagnostics Optical consultancy. Technical expertise on development analysis of optical design, advise, manufacturing, testing (mock up and prototype) of components and assembly of optical systems. Mainly in Visible and Infra red part of the spectrum. Nuclear environment. Q Engineering Framework contract for Diagnostics Remote Handling. Technical expertise to design and specify solutions that can be remote handleable. Design for mechanical structures interfaces of Diagnostics components with remote handling. Nuclear environment with safety relevant components. Q Engineering Framework contract for Diagnostics general engineering. General engineering support for Diagnostics engineering design, integration, assembly and testing. Concerns mechanical engineering, integration engineering, sytems analysis and engineering analysis. Q Engineering Framework contract for First Wall manufacture. To design, manufacture, test and deliver all the Diagnostics First Wall modules for ITER. Nuclear components. Q Note: This information is indicative

19 Diagnostics (2/2) EP#11 general overview Diagnostic First Wall Note: This information is indicative

20 Tritium Plant System (1/2) Tritium Plant Control System Tools Service contract requiring expertise in nuclear process control and deliver templates to organise control for each Tritium Plant System. Q Analytical System Preliminary Design Expertise in Tritium and gas analysis required for designing Analytical System (ANS). Q Tokamak Complex-Detritiation System - Final Design/Fabrication/Delivery/Installation Several Contracts related to Professional Engineering Services, Scrubber Column, Balance of System, Instrumentation and Control, and Installation. Q Detritiation System Qualification Test (component testing is separate) Contract to ensure that the Detritiation System design complies with nuclear safety requirements. Q Note: This information is indicative

21 Tritium Plant System (2/2)

22 Cooling Water Systems Transfer of procurement responsibility from the US-DA to the IO Final Approval at IC-13 Completion of the Final Design for Tokamak Cooling Water System (Call For Nomination launched) Q The purpose of this Contract is the Completion of the Final Design for TCWS including the Tokamak Cooling Water System (TCWS), the Component Cooling Water System (CCWS), the Chilled Water System (CHWS), and the Heat Rejection System (HRS). The TCWS is designed to reject all the heat generated in the plasma and transmitted to the in-vessel components to the intermediate closed loop Component Cooling Water System (CCWS-1) and then to the environment via the open Heat Rejection System (HRS). Note: This information is indicative

23 Cooling Water Systems

24 Centralized Procurement and Preassembly Piping Systems Q Cooling Water Systems Part 1: The purpose of this Contract is the Centralized Procurement and Preassembly of Piping Systems for ITER. The major ITER piping system is the Cooling Water System (CWS). The ITER Cooling Water System (CWS) consists of the Tokamak Cooling Water System (TCWS), the Component Cooling Water System (CCWS), the Chilled Water System (CHWS), and the Heat Rejection System (HRS) Test Blanket Modules Piping (Transfer of Responsibility From all DAs involved to the IO) Q Part 2: The purpose of this Contract is the piping required for the Test Blanket Modules (TBMs). Note: This information is indicative

25 Centralized Procurement and Preassembly Piping Systems Q Vacuum System pipework preassembly fabrication Part 3: To provide and preassemble the Vacuum System pipework. ITER will have one of the world largest and most complex vacuum systems composed of the several subsystems. A network of vacuum pipework of approximately 6kms length is designed to interconnect between vessels, vacuum pumps and vacuum services. The pipework is all stainless steel (304L) schedule 10 or 20 and of size DN25 to DN300. Due to the pipework servicing ultra high vacuum systems, confining radioactivity, transporting hydrogen isotopes, and being critical for the ITER machine operability high quality, cleanliness and integrity requirements are required in all stages of production. Q Atmosphere Detritiation System Part 4: To provide pipework preassembly fabrication for the Detritiation System (DS). ITER safety system includes the largest and most complex atmosphere detritiation system yet to be built. It consists of piping networks for Tokamak Complex and Hot Cell Facility. DS has a total pipework length of about 11.4 kms and includes about 340 of valve spools distributed throughout the Tokamak Complex and Hot Cell Facility. Note: This information is indicative

26 Centralized Procurement and Preassembly Piping Systems Q Diagnostic Systems Piping Part 5: To provide and assemble the piping required for the Diagnostic Systems that are required to ensure the operation of ITER throughout all campaigns and will be installed in multiple locations. In particular, many diagnostic systems will be installed in the Upper (10), Equatorial (8) and Lower (3) ports. It is also likely that several diagnostics may be allocated in 4 Upper ports above NB Cell. The assembled port plugs and diagnostic racks in the Lower ports themselves, as well as several diagnostics inside port plugs, will require active cooling during operation and will have to be baked before operation. Details of Piping network in the typical Diagnostic Lower port. Note: This information is indicative

27 Overall Assembly Contract Strategy IO Construction Management Group Industrial Construction Management Contractor Works Support Field Quality, Testing & Surveillance Management Mech anica l& Pipin g Work s Mach ine Asse mbly Elect rical, I&C and Cabli ng Spec ialis ed Wor ks Machining Services and Workshops Welfare Premises Finishing/Civil Works Site Materials & Logistics Management Scaffolding & Access Worksite Worksites Support to Worksites 1 6 Note: This information is indicative

28 Outline 1. ITER Project Procurement Key Principles 3. How to join ITER Project

29 3. How to join ITER Project IO Registration on the Procurement Portal More than 1100 companies registered as of to date, Possibility to update the data created initially, Register presentations and highlights. Survey of ITER Forthcoming Calls and other information Re-configuration of the IO Portal in order to develop further the information communicated to Industry on: On-going calls/forthcoming calls with a 3-Year visibility on significant contracts, Working Instructions, Visas and relocation supports, etc Watch F4E s portal for procurements

30 3. How to join ITER Project Recent Measures in favor of SMEs: Increase of the threshold for bank guarantees, Coming soon: information on companies which declared their interest. Follow us on: ITER Organization Web site : Procurement / General information/forthcoming calls iopcd@iter.org - IO Point of contact: - Fusion for Energy Web site:

31 Conclusion ITER s Success is Dependent on Industry and Innovation. ITER is providing unique opportunities for Industry to develop cutting edge technologies. The experience in industry will be a critical consideration for the eventual commercialization of fusion. IO looks forward to working efficiently with Industry and creative companies.

32 Thank you for Your attention