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Dpt

Division / 
Section Division

Section / 
Sub-Section

Job Title

Category

Rqd for 2016 or 2017 Priority

Job specification

TED

HCD

NB

BLC/BS engineer for the HNBs

P

2017

This post is also jointly responsible for the procurement follow up of the BEAM LINE COMPONENTS, the NEUTRALISER, RID and calorimeter for MITICA and  support to the DNB manufacture.  Transitions to the HNB BLC manufacture

TED

HCD

IEC

Control Engineering technician

G

2017

One of 3 technician providing support to the EC control system TRO from the design phase all the way through operation, task includes integration of sub-system controllers with the EC plant controller and support services during EC plant commissioning and operation.

TED

HCD

IEC

HV Power supply engineering technician

G

2017

1 of 2 HV electrical engineers responsible for the HV PS procurements, installation and operation during commissioning and operation phases.

TED

HCD

IEC

ECRH System integration engineer

P

2017

EC system engineer providing support to the EC SL in management of the system level design, internal integration, commissioning, and EC plant maintenance management.

TED

INC

TBB

Project Engineer, TBM Program Technology

P4

2017

Responsible for the TBS technical documentation on assembly and interfaces for the 27 interfaces of PBS-56 with other ITER systems. 
Responsible for the production of the Task Description Forms and Process Description Forms (related to maintenance activities). 
Responsible for the reports on RAMI analyses. 
Assists in the following up of 6 TBM Arrangements signed with the ITER Members / DAs including the related manufacturing documentations and associated Deviation Requests. 
Checks the compliance with the System Requirements Documents at the various PBS-56 levels. 
Follows up the PBS-56 Defined Requirements (at all PBS-56 levels).

TED

VV

VVTS

VV Analysis assistant

G

2017

•  To prepare final structural integrity report for license 
•  To contribute structural thermal analysis for as built VV

TED

MAG

CSCC

CS Magnet Assembly Technician

P

2017

First CS coils due 2018. Technical support of the CS interface, use of the CS assembly tooling from US and assembly activity and supervision of some on site IO assembly team & contracts to support and execute main installation procedures. Coordination of CS interfaces tasks, preparation of assembly documentation and development/implementation of quality assurance and quality control.

TED

MAG

SSA

Technical RO for Instrumentation - HV

P

2017

Procurement contracts underway in 2016. Is first responsible of HV instrumentation procurement contracts, qualification and test, then shall deal with installation and cabling and further to commissioning and operation. Supervise the designers for his scope of activities. 
Shall also cover the functional specifications and the R&C activities related to the Magnet operation for the primary quench detection and the electrical monitoring. In this areas hall be able to make some electromagnetic simulations and can be RO some design and development contracts. 
Is later on RO for the application SW development for related conventional and interlock controls and testing up to the commissioning and operation. Supervises I&C support for this activity. 
This profile is critical for the Magnet design, commissioning and future operation and shall be performed by CT staff of P position. This profile is supported by technicians to meet the resource load as specified in the resource loaded schedule.

TED

MAG

SSA

Feeder on-site assembly RO

P

2017

Procedures needed before delivery starts in 2017/8 
- is responsible for Feeder on-site assembly planning and supervision 
- is responsible for drafting on-site assembly and inspection plan with supports by analyst and designers, 
- is responsible for interfaces with assembly teams and tooling DA to complete an integrated and resource-loaded feeder assembly plan, 
- This profile is critical for the on-site assembly of feeder during plant construction, which shall be performed by one CT P staff in 2015-2016 and increased to 2 P staff in 2017 before the start of feeder assembly.

TED

MAG

TF

TF Magnet Assembly Technician (workshop and assembly)

G

2017

Assembly related work underway in MIFI workshop. Technical management of the magnet workshop and supervision of the engineering work to support the qualification of assembly procedures for magnet components auxiliaries (including TF Feeders, TF coils). Coordination of magnet workshop tasks and resources, preparation of assembly documentation and development/implementation of quality assurance and quality control.

TED

PPD

CPPE

Diagnostic First Boundary Officer

P

2017

To develop and coordinate SIC and associated  designs, procurement (e.g. Windows). Follows-up the integration of SIC1 components within diagnostic ports. Provides engineering solutions that fulfil regulatory requirements.

TED

PPD

CPPE

Common Port Plug Analysis Engineering technician

G

2017

To support the development of the diagnostics and in particular take charge of the diagnostic systems from end to end 
To perform the engineering verification through design and analysis of common diagnostic port-based structures and related interfaces with the main tokamak components. To ensure the integrity of diagnostic systems through structural assessment and using common engineering practices. To prepare design of diagnostic systems for manufacturing and follow-up with industry.

TED

VV

VVTS

TS Manufacturing Engineer

P

2017

•  To manage manufacturing activities of the TS 
•  To manage deviations and non-conformities during manufacturing and assembly 
•  To prepare and perform factory acceptance tests

TED

MAG

Magnet manufacturing data base

G

2017

support Magnet Manufacturing Database, implementation with DAs, then assembly database, to evolve from an IT position to QA/QC follow up and data input

SD

SHS

OHS

Occupational Health & Safety Officer

P

2017

• Surveys the application of French regulations (and if necessary European, and other International regulations) concerning Employee H&S throughout the various phases of ITER project: design, construction, assembly, commissioning and operation; 
• Develops and carries out the H&S design requirements to be implemented within the integrated safety management system for ITER (including guidelines, procedures); 
• Supports and advices to all ITER design, engineering, procurement and construction activities in the domain of French H&S regulations (e.g. design review); 
• Participates in the organization and administration of H&S Program, 
• Contributes to supervising the general H&S conditions on the ITER construction site; 
• Health Safety representative for the Beryllium Management Committee

SCOD

OMA

RAMI Management Officer

P

2017

To coordinate the RAMI (Reliability, Availability, Maintainability and Inspectability) analysis process and to oversee the implementation of the RAMI analysis results through the design, manufacturing, installation, assembly, commissioning of plant and systems. 
• Manages the ITER RAMI strategy,  by overseeing the RAMI analysis process and analysis results implementation through the reviews of the plant and system design; 
• Manages the ITER RAMI strategy to ensure consistency with the ITER Operations Plan and with the ITER Maintenance and Inspection Program;

SCOD

CSD

PCI

Nuclear Safety Integration Engineering Officer

P

2017

Purpose: 
The candidate will work with the Central Safety System Responsible Officer and contribute to all activities linked to the design of the Nuclear Safety Control System (SCS-N), to the licensing of this system, to the procurement and commissioning of the SCS-N. 
Together with the Responsible Officer, he/she will ensure that the nuclear Safety Control System meets the project requirements and is delivered on time. 
He/she will contribute to the integration of the different systems composing the SCS-N by participating to the design of functional and physical interfaces with plant systems. 
Main duties / Responsibilities: 
• Participate to the procurement and the follow-up of contracts for the Nuclear Safety Control System; 
• Participates in the ITER licensing process for the nuclear Instrumentation & Control (I&C) topics; 
• Contributes to the Procurement and installation of the SCS-N, including its technical follow-up; 
• Manages the factory and site acceptance tests for the Safety Control systems, 
• Contributes to the standalone and integrated commissioning phases for the safety systems;
• Performs other duties linked to the above purpose upon management request, as necessary; 
• Maintains a strong commitment to the implementation and perpetuation of the ITER Safety Program, values and ethics.

SCOD

CSD

PCI

Interlock Systems and Dependability Engineer

P

2017

The candidate will work together with the Central Interlock System Responsible Officer on the construction, installation and commissioning of the ITER Central Interlock System. He/she will be in charge of coordinating the technical works carried out by the different industrial suppliers and lead the Factory and Site acceptance tests of their deliverables. The candidate will provide technical support to the different plant system responsible officers in IO (Central Team and Domestic Agencies) and their suppliers in ordered to ease and ensure the correct integration of all the ITER interlock components. 
The selected candidate will be also in charge of developing and maintaining the global dependability analysis of the ITER interlock systems, including all the in-fund and in-kind plant systems playing a role in the overall ITER machine protection strategy. 
Main duties / Responsibilities: 
• Supports the CIS Responsible Officer on the construction, installation and commissioning of the Central Interlock System; 
• Leads and validates the Factory and Site Acceptance Tests of the CIS components and sub-systems; 
• Maintains and propagates the ITER guidelines and standards for the implementation of interlocks across all the ITER Organisation; 
• Develops a complete dependability analysis of the Interlocks Control System providing input to the design, construction and operation of the CIS and the Plant Interlock Systems; 
• Participates in the ITER Machine Protection Panel as dependability expert and leader of the overall machine protection reliability analysis, providing technical support on the area to the involved plant systems when required; 
• Supports the CSD Division as interlocks instrumentation and controls expert during the reception and integration of the different Plant System I&C.

SCOD

OMA

Operation Management Support Officer

P

2017

To support the ITER Operation Management activities to take into account the nuclear safety and licensing process requirements. 
To manage the ITER HOF (Human and Organizational Factors) integration program by for overseeing its implementation on the ITER plants and systems 
• Verify that the ITER Operations Management strategy is compliant with the ITER Project Requirements and scientific objectives, with the nuclear safety (including the RPrS) and licensing process requirements

PED

HVAC Process and Commissioning Engineer

P

2017

It is required to perform: 
• Commissioning Procedures for HVAC consistently with Design Development in charge to F4E; 
• Commissioning technical Specifications for HVAC integrating all the Design Performances evaluations. 
• Functional Analyses of HVAC Systems assuring area by area the dynamic confinement in terms of depressurization level. 
• Supporting F4E Tests of HVAC Systems / Components; 
• Commissioning of HVAC Systems Area by Area to assure the performances as listed in commissioning Technical Specifications harmonized with Commissioning procedures.

PED

Fire Protection Process and Commissioning Engineer

P

2017

It is required to perform the following: 
• Evaluate Fire loads area by area according to the Room book, system by system; 
• Develop the strategy how to manage fire detection and segregation for system having the rule to assure functionality during the fire events; 
• Develop the strategy how to manage fire detection and segregation for system where structural integrity is required during the accidental scenario evolution; 
• Commissioning  of FP systems according to the design Dossier and Functional with one analyse; 
• Functional Analyses to simulate and validate the global system performances.

PED

Piping and Support Structural Engineer

P

2017

• To assess the System final routing  inside the buildings by using the AVEVA PDMS 3D models through a holistic approach; 
• To perform the Final Design and Analysis of the structural supports for the piping system according to the required design rules ; 
• To prepare the detailed analysis and drawings using AVEVA PDMS 3D models of piping supports to transfer the structural loads to the buildings; 
• To provide solutions for the necessary spooling of concerned piping and preassembly before the final installation inside the buildings; 
• To check the feasibility of  pre fabrication sequence and in field installation welding process 
• To contribute to the procurement and the successful construction of the piping system in the framework of the centralized piping procurement; 
• Participate to the preassembly and pretesting of the piping system. 
• Produces static and dynamic stress analysis calculations and reports of the piping and equipment supports and structures. 
• Implement 3D model and process systematically all isometric drawings. 
• Maintain a fluent dialog with 3D designers and support designers to agree on the optimal required support configuration. 
• Produces loads reports in coordination with other sections and clients (Buildings, etc) 
• Supervise the structural analysis produced by industry or Domestic Agencies for the assigned systems. 
• Participates to the design and conformity assessment of the equipment according to the French regulations (ESP/ESPN) and following required design codes and standards as per Licensing Design Basis for all piping systems. 
• Full and fruitful involvement in the systems design, fabrication and modularization of Systems  equipment according to the prescriptions of the French Nuclear Regulator - Autorité de Sûreté Nucléaire (ASN) and also following the indications of the concerned Agreed Notified Body (ANB); 
• Assure fruitful and continuous integration in Systems commissioning issuing and supporting issues of commissioning technical specifications and procedures.

PED

Piping and Support Structural Engineering technician

G

2017

• To assess the System final routing  inside the buildings by using the AVEVA PDMS 3D models through a holistic approach; 
• To perform the Final Design and Analysis of the structural supports for the piping system according to the required design rules ; 
• To prepare the detailed analysis and drawings using AVEVA PDMS 3D models of piping supports to transfer the structural loads to the buildings; 
• To provide solutions for the necessary spooling of concerned piping and preassembly before the final installation inside the buildings; 
• To check the feasibility of  pre fabrication sequence and in field installation welding process 
• To contribute to the procurement and the successful construction of the piping system in the framework of the centralized piping procurement; 
• Participate to the preassembly and pretesting of the piping system. 
• Produces static and dynamic stress analysis calculations and reports of the piping and equipment supports and structures. 
• Implement 3D model and process systematically all isometric drawings. 
• Maintain a fluent dialog with 3D designers and support designers to agree on the optimal required support configuration. 
• Produces loads reports in coordination with other sections and clients (Buildings, etc) 
• Supervise the structural analysis produced by industry or Domestic Agencies for the assigned systems. 
• Participates to the design and conformity assessment of the equipment according to the French regulations (ESP/ESPN) and following required design codes and standards as per Licensing Design Basis for all piping systems. 
• Full and fruitful involvement in the systems design, fabrication and modularization of Systems  equipment according to the prescriptions of the French Nuclear Regulator - Autorité de Sûreté Nucléaire (ASN) and also following the indications of the concerned Agreed Notified Body (ANB); 
• Assure fruitful and continuous integration in Systems commissioning issuing and supporting issues of commissioning technical specifications and procedures.

PED

CSED

CWS

Transient Thermal Hydraulic

P

2017

To perform transient analysis mainly on VV-PHTS and Drying system in support to VV-PHTS and Drying system Final Design: Normal operation, baking, transition from normal operation to baking, incident and accidents, etc. 
Develop of a coupled model of VV-PHTS and IBED-PHTS to: 
a. Analyse TCWS first plasma configuration 
b. Serve as a basis for TCWS simulator 
Support developing operational procedures mainly for VV-PHTS and Drying system 
Support sizing of VV-PHTS and Drying system main equipment 
Support TCWS section for any activity related to dynamic simulations of TCWS subsystem

PED

CSED

CWS

Process Engineer for commissioning

P

2017

Develop commissioning procedures: from TCWS sub-system separate commissioning to whole TCWS commissioning to TCWS integrated commissioning within ITER plant. 
a. Furthermore develop TCWS commissioning procedures for TCWS configuration installed for first plasma, also proposing design solutions to fulfil first plasma cooling and baking requirements minimizing impact on the TCWS sub-system installed for first plasma. 
Review TCWS design, namely P&IDs, to make sure that features needed for commissioning are included, also taking into account phased commissioning 
Modify TCWS P&IDs if needed to insert features for commissioning, perform sizing of such features 
Develop procedure for testing of specific components which require periodic testing like for example safety isolation valves 
Follow-up commissioning tests in site

PED

CSED

CSE

Cryogenics process Engineer for commissioning

P

2017

In the frame of the four major Cryogenic Contracts and PAs: 
• LHe Plants direct contract by ITER Organization 
• LN2 Plants and Auxiliaries in collaboration with European domestic Agency (F4E) 
• Distribution System in collaboration with India Domestic Agency (II) 
• Cryogenic and Warm Lines in collaboration with India Domestic Agency (II) 
The Commissioning Engineer will consolidate Cryogenic System process and process control: 
• To review all Process related document (PFD, PID, Process Note, Functional Analysis…). 
• To review all Users (Magnets, Vacuum) Interface Document (Process, Process Control, Protection) 
• To contribute to the System Overall Process description in preparation for the commissioning. 
• To contribute to the development and tests of the Control System and Human Machine Interface. 
• To contribute to the development of a dynamic simulator. 
The Commissioning Engineer will prepare the pre-commissioning and commissioning activities: 
• To ensure that all documentation required for pre-commissioning, commissioning is available. 
• To review, compile and classify documentation related to equipment start-up and operation. 
• To evaluate the requirement in term of spare parts and operating supplies for Commissioning. 
• To elaborate strategy for spare parts and operating supplies procurement and storage. 
• To prepare the pre-commissioning and commissioning procedures, sequences and planning. 
The Commissioning Engineer will contribute to pre-commissioning and commissioning activities: 
• To contribute to coordination of installation, pre-commissioning and commissioning activities. 
• To provide process/equipment expertise during pre-commissioning, start-up and tuning. 
• To provide support to cryogenic System Users and Utilities during commissioning. 
• To contribute to the training, coordination and management of the Technical Engineers. 
• To prepare for system operation: operation file build during commissioning, operator training… 
• To prepare tests reports for plant acceptance certificate. 
The Commissioning Engineer will contribute to System/Plant operation: 
• To contribute to plant operation and maintenance management. 
• To provide process/equipment expertise during operation. 
• To ensure efficient management of operating spare parts and operating supplies. 
In general, the Commissioning Engineer: 
• May be requested to be part the project team and perform other duties upon management request; 
• Maintains a strong commitment to the implementation and perpetuation of the ITER Safety Program, values and ethics.

PED

EED

EPD

Electrical Engineer/Technician

G

2017

In 2017, many parts of the electrical distribution will be installed in parallel and tests and commissioning activities will be performed also in parallel, in particular SSEN and PPEN branches. This additional resource will be in charge of the PPEN network for the activities related to tests and commissioning. This position will evolve to integrated commissioning with other plant systems, after the completion of the internal commissioning phase

PED

EED

EPD

Electrical Engineer/Technician

G

2017

In 2017, many parts of the electrical distribution will be installed in parallel and tests and commissioning activities will be performed also in parallel, in particular SSEN and PPEN branches. This additional resource will be in charge of the PPEN network for the activities related to tests and commissioning. This position will evolve to integrated commissioning with other plant systems, after the completion of the internal commissioning phase

PED

EED

EPD

Electrical Engineer

P

2017

In 2017, the first electrical distribution branch will be delivered to IO-CT. We will have the responsibility to operate it and maintain it.  Even if we will be supported by a support contract for this scope, many procedures and documents will have to be prepared and approved. The team will need this additional resource to absorb the huge amount of paperwork that this first handover situation will cause. It will be the first PBS to be fully under IO-CT responsibility and the past experience shows that many issues will occur at that time, mainly compliance with regulations ITER project have to follow.

PED

EED

EPD

Electrical Engineer

P

2017

In 2017, the first electrical distribution branch will be delivered to IO-CT. We will have the responsibility to operate it and maintain it.  Even if we will be supported by a support contract for this scope, many procedures and documents will have to be prepared and approved. The team will need this additional resource to absorb the huge amount of paperwork that this first handover situation will cause. It will be the first PBS to be fully under IO-CT responsibility and the past experience shows that many issues will occur at that time, mainly compliance with regulations ITER project have to follow.

PED

EED

CPS

CPS Control engineer

P

2017

The Coil Power Supply system test and commissioning will start in 2018. It is foreseen the need of the in-field tuning of the I&C systems, in order to adapt to the different operation conditions set by the interfaced system (CCWS, CODAC, PCS, etc.), fully verify and characterise the CPS system. The combination of the knowledge in the area of the power conversion and computer control is required.  Later on, this resource is expected to provide important contribution in the operation and I&C maintenance and update

PED

EED

CPS

Coil Power Supply Commissioning Engineer

P

2017

The Coil Power Supply system test and commissioning will start in 2018. One CPS commissioning engineer is required to develop the CPS integrated commissioning procedure and performs the associated engineering work, including the computer simulation on the developed test scenarios. This resource will follow up the SAT, support of the handover of the components from suppliers and perform the integrated commissioning. Later on, this resource will enter into the operation

PED

EED

CMT

Electrical Technician (CMT-4)

G

2017

Electrical Technician in the nuclear areas providing in field engineering to produce Work Package and assistance on the field and participate in the integrated commissioning with the Systems. He is producing the entire documentation to the contractors related with procurement and installation in nuclear areas: cable tray execution drawings, cable pulling cards and cable termination. He collects all the cabling data from the contractors for the production of the cable routing cards and termination in nuclear areas. He verifies the consistency among the 2D and 3D data from the contractors

PED

FCED

TP

Tritium Integration, Operations, Testing and Commissioning

P

2017

Lead the Tritium Processing design/build team which is responsible for the Tokamak Exhaust Processing, Storage and Delivery, Isotope Separation, Analytical and Water Detritiation Systems, and for associated systems.  Work is performed directly by IO staff as well as contractors.  The work involves requirements definition and implementation, technical trade studies, gas processing system design, value engineering, interface management, safety analysis, control systems, document preparation, and contract management.  The person in this position will be responsible for setting priorities and goals for the Tritium Processing design/build team and for supervising the work. 
Responsible for setting priorities and goals for the Tritium Processing team 
Responsible for supervising work of the Tritium Processing team

PED

FCED

TP

DS Process Engineer

P

2017

Perform the design and manufacturing of ITER Tritium Plant systems including the Detritiation System. The work involves requirements definition and implementation, technical trade studies, gas processing system design, value engineering, interface management, safety analysis, control systems, document preparation, and contract management. 
• Responsible for functional analysis and optimization of Tritium Plant system requirements and design solutions considering safety, risks, costs, and other constraints 
• Responsible for compiling and maintaining design basis documentation and supporting documents using formal review procedures 
• Manages functional and physical interfaces insuring systems consistency and that the design results in harmonized, practical operation

PED

FCED

VS

Vacuum Technical Engineer

G

2017

As the construction of the ITER machine and plant begins on the ITER site further vacuum technical engineers are required to support the vacuum qualification of vacuum systems / components as they are assembled and subsequently installed. As many of the systems/ components are deemed as Protection Important Components (PIC) many of the tests to be performed are Protection Importance Activities (PIA) and hence must be under control / supervision of IO (Operator) staff with the required experience hence the engineer shall prepare / and review installation leak testing procedures in order to ensure effective leak testing by IO staff and contractors. The vacuum technical engineer is required to perform a co-ordinating role liaising with IO construction departments to ensure the required quality of leak testing across the project. In preparation for assembly phase II the engineer shall begin to define the remote handling tools required for the in-vessel qualification of vacuum boundaries (blanket, divertor) and define / execute the required test program.

PED

FCED

VS

Vacuum Process and Schematics  Designer

G

2017

An Electronic/Process Engineer providing support engineering for the development of vacuum instrumented processes controls and interlocks of the ITER Vacuum System from existing vacuum schematics, functional analysis and chosen engineering solutions. 
Development of the 100s of intelligent vacuum and cryogenic instrumented process schematics. Development of control software for vacuum and cryogenic processes, from specifications to implementation, and in insuring compatibility of interfaces to CODAC. The position would progress into HMI development and commissioning activities for first plasma and beyond.

PED

FCED

VS

Vacuum Cryo-pumping Engineer (FECD)

P

2017

A vacuum-cryogenic engineer to support the final design and manufacturing of the ITER and MITICA cryopumps and front end cryogenic distribution system. The engineer will deputies for the Responsible Officers of the extensive cryogenic pumping systems. More than 20 large custom cryopumps and 16 complex cryogenic distribution valve boxes will be manufactured before first plasma.  The post will support  following of this manufacturing and lead on to supporting installation and commissioning of the cryo-pumping systems.

PED

FCED

VS

Vacuum Roughing  system Engineer

P

2017

A vacuum mechanical/process engineer to take on the responsibility for the complete roughing systems following its conceptual design review. The position is for life cycle responsibility for the complete roughing system from design through commissioning for first plasma and through to commissioning for tritium operations. The roughing system is a complex mix of mechanical and cryogenic pumps mainly classified as Protection Important Components (PIC). Following the conceptual design review currently scheduled at the end of 2016 roughing system engineer will need to lead to PA preparation for issuing with the US DA. The US design work to final design will then need to be followed and integrated with the other parts of the Vacuum system and buildings.    The roughing systems is essential for first plasma.

PED

RHRM

HCI

Radwaste Design Engineering technician

G

2017

Ensures technical coordination and integration of the Radwaste process within the Hot Cell Complex environment, in particular the propagation and tracking of functional and safety requirements, 
- Develops the Remote Handling Systems associated to the Radwaste process, 
- Contributes to the Design Description, Process Flow Diagrams, Detailed Diagrams, Control and Instrumentation Documents, Design justification, qualification plan, 
- Develops the required safety analysis and documentation, from design to operation stage and supports the licencing activities in close collaboration with the Safety Department, 
- Contributes to the interfaces with the French Authorities and with the French disposal facilities, 
- Develops benchmarking, value engineering, technical and cost benefit analysis to anticipate the outsourcing of some Radwaste management activities, 
- Contributed to the decommissioning Plan, 
- Gathers, refines and updates the Radwaste database and the related interfaces with the clients, 
- Contributes and checks the proper implementation of Radwaste management plan, 
- Manages external contract, minimizing the risk of change and risk of claim

CST

CMA

Construction Quality Control Responsible Engineer

P

2017

Responsible for controlling and overseeing all QC activities for construction. Suerveillance of the CMA in their inspection and supervision activities.

CST

CMA

Construction Risk Coordinator

P

2017

Technical responsible for HAZOP and risk for construction. Supervise and undertake studies and analyis of risks, hazards and other threats to safe and efficient construction. Propose and design alternatives and solutions.

CST

TAD

Lifting and Handling Specialist

P

2017

Responsible for advising, designing and supervising the implementation of all lifting and handlign operations on site. Responsible for the lifting and handling contract, crane operations etc. Contributes to all areas of assembly and installation where there are lifting and handling operations.

CST

TAD

Sub-Sector Assembly Engineer

P

2017

Engineer for the design of the sub-sector assembly process, writing CPD and surveillance of the implemenation. After sub-sector assembly, will move to re-inforce subsequence assembly activities, including in-cryostat and in-vessel.

CST

TAD

Cryostat Assembly Responsible Engineer

P

2017

Engineer responsible for in-cryostat and cryostat assembly - including surveillance of site works performed by INDA contractors.

CST

FLM

Material Management Technician

G

2017

Under the coordination of the Logistics, Materials and Storage Engineer, the work to be undertaken consists in supporting the Facilities, Logistics and Materials Division in the following tasks: 
• Aid bulk material procurement process with relevant stake holders through the use of Smart Plant Materials (SPMat) including: 
     o SPMat In-Cash Procurement Process; 
     o Identifying project material requirements from the engineering scope all information required to create and maintain a project master catalogue of bulk material items and tagged assemblies in SPMat;                        
     o Ensure catalogue has sufficient detail to track materials off site and on site, from strategic sourcing, purchasing, expediting, supplier quality surveillance, logistics and field material management, including goods return, transfers, changes, shorts and to minimise surplus; 
   o Maintenance of  ‘Add New Stock Item’ (ANSI) process within SPMat; 
   o Maintenance of Group and Part catalogue structure in SPMat; 
• Work with Procurement department to maintain SPMat catalogue items with Framework Agreements, Suppliers and price lists and ensure continual maintenance and alignment of data; 
• Work with relevant stakeholders to process Material Take Offs (MTO’s) / Purchase Requisitions within SPMat to support purchasing activities, budgetary approval and construction needs; 
• Work with the project Planning team to ensure latest Required At Site (RAS) dates are represented in SPMat; 
• Maintain and further development of key material reports 
• Carry out additional, related tasks upon FLM Division Head request.

CST

FLM

Storage and expediting Technician

G

2017

A person is required to act as logistics assistant for the reception and processing of all components and materials arriving at the ITER Site. ITER is required to accept the incoming goods (often coming from the DAs). 
Under the coordination of the Transport & Logistics Responsible Officer, the work to be undertaken consists in supporting the Facilities, Logistics and Materials Division in the following tasks: 
- Contribute to the planning, in conjunction with the Global Logistics Transport Company (Daher), of all deliveries such that they arrive in a coordinated manner at the ITER Site; 
- Prepare in advance the necessary paperwork for IO to inspect the incoming goods; 
- Liaise with IO technical officers to ensure they are present if necessary when the goods arrive; 
- Take part in the goods reception process in particular the condition survey of the goods and ensure appropriate forms are filled-in and the IO Logistics RO is contacted in case of damage; 
- Hand-over the goods formally to the on-site logistics company (Daher) for storage in the warehouse; 
- Complete and file all necessary & related paperwork; 
- Complete all necessary data entry into the Material Management system (SPMat); 
- Carry out additional, related tasks upon FLM Division Head request.

CST

TAD

PHTS Assembly Responsible Engineer

P

2017

Engineer responsible for the installation of TCWS components in the Tokamak, for the installation process (CPD) and surveillance of their implementation.

CST

CMA

Surveillance & Compliance Responsible Officer

P

2017

Lead and responsible for ensuring compliance with all construction codes, ensure the process of surveillance is correctly implemented, particularly for PIC and QC1 components.

CST

FLM

FMM

Facility Management Logistics Support Officer

P

2017

• Provides logistics support to contractors arriving on the ITER site, including access formalities, furniture supply, work authorisation formalities etc.; 
• Manages internal requests for logistic support through the ITER ticket system, including instructing the appropriate service providers and following up the requests; 
• Coordinates office removals; 
• Prepares orders for small supplies (office furniture, stationary, consumables); 
• Manages stock of small supplies; 
• Files contract related documentation and correspondence; 
• Performs other duties in support of the project schedule as described in the Detailed Work Schedule and the Strategic Management Plan; 
• Performs other duties linked to the above purpose upon management request, as necessary; 
• Maintains a strong commitment to the implementation and perpetuation of the ITER Safety Program, values and ethics.

CIO

CMD

Interface Management Engineer

P

2017

Is responsible for the review of interface definition documentsto ensure the global coherence of the interface definition as well as the relevance of the content; 
Is responsible for  the  improvement of the current interface management procedure, interface management system and deployment of the interface management module in the PLM project in particular ensuring a systematic check of the completeness of the interface description 
Provides guidance and support to the technical responsible officers about the content of interface description and  prepares relevant training materials and training sessions; 
Supports the configuration manager and the configuration control division head in all matters concerning the consistency of the interface definition within the baseline; 
Supports the responsible officers in the impact evaluation of a change, in particular in the potential impact on the interfaces.

CIO

DIN

Construction & Integration Engineer for Tokamak

P3

2017

• Ensures that, construction/assembly processes and associated work packages are promptly implemented to fix the technical construction baseline;  
- manages and coordinates configuration control activities along the construction/assembly phase through a strong interaction with Construction and Tokamak Engineering Departments; 
• Issues and Manages project change request, deviation request, tolerance impact assessment and other integration/construction transverse activities all along the preparation and the development of the Tokamak construction phase; 
• Applies coordination procedures through the construction management plan to ensure the effective management of the as designed and as built configuration of the Tokamak Machine;

CIO

AS

Structural Analysis Mechanical Engineer

P2

2017

Support the completion of the assembly tools justification files by performs analyses and/or independent verification of calculation notes; 
Act as independent reviewer of VV analysis documents for the completion of the justification file to be presented to ANB; 
Proposes solutions for the demonstration of compliance of components with the design criteria for nuclear or non-nuclear safety equipment; 
Prepares finite element (FE) or computational models of ITER components; 
Provides effective support to the Responsible Officer  to perform structural (mechanical and thermal) analyses for the verification of the structural integrity of the ITER mechanical components following methodologies and procedures applied to nuclear or non-nuclear safety equipment;

CIO

IT

IT Operation Manager

P3

2017

Is responsible for the operation of the ITER IT systems. These include specifically systems for standard IT services (i.e. web, e-mail, storage), in-house developed applications (i.e. IDM), business applications (i.e. SAP), engineering applications (i.e. Enovia), and data bases. Assures the stability of the IT systems including change management of evolutions, new development and systems. Carries out high level user support projects in relation with the IT system operation.

Department

Job Title for Council

Job Code

Initial Grade

CIO/IT

IT security and policy RO

CIO-038

P4

CIO/IT

Network administrator

CIO-039

G5

CIO/IT

PLM Administrator

CIO-040

G5

CIO/DO

AVEVA Applications Administrator

CIO-041

P2

CIO/AS

CFD and safety analysis

CIO-042

P2/P3

CIO/DIN

Fire protection system Engineer

CIO-043

P3

CIO/DIN

Plant Systems Construction & integration Engineer

CIO-044

P2

CIO/CMD

Quality control (QC) Engineer

CIO-045

P3

CIO/CMD

Quality control Engineer

CIO-046

P3

PED/FCED

Tritium process Engineer

PED-023

P3

PED/CSED

Structural and layout configuration

PED-024

P2

PED/CSED

Quality control Engineer

PED-025

G5

PED/EED

Electro-Mechanical Engineer

PED-026

G5

PED/RHRM

Remote Handling Engineer

PED-007

P3

PED/RHRM

Hot cell integration Engineer

PED-027

P4

SD/EPNS

Nuclear safety engineer (buildings)

SD-006

P3

TED/MAG

Magnet Workshop & Assembly engineer

TED-041

P4

TED/MAG

Thermal hydraulic Engineer

TED-042

P2

TED/HCD

Neutral Beam Source Mechanical engineer

TED-043

P3

TED/PPD

Technical RO for steady state sensors

TED-044

P3

TED/PPD

Techinical RO for Terminal Port Plug components

TED-045

P4

TED/VV

Cryostat coordination engineer

TED-030

P4

TED/VV

Quality Control engineer (CIO)

TED-046

G4

TED/VV

Welding engineer

TED-031

P2

TED/VV

Quality Control engineer (CIO)

TED-032

P2

PCO/SCP

Projecvt Control & Planning Officer

PCO-010

G5

TED/VV

Manufacturing Engineer

TED-033

G5

CST/CMA

Construction Interface management Officer

CST-026

P4