AREVA Learning Solutions - English version -

AREVA Learning Solutions - English version -

CoNTeNT 1 Foreword 2 Nuclear Energy Framework 3 Radioactive materials transport 4 Reactors and fuel cycle General knowledge of reactors technology TELEPERM XS Training Program EPR Technology Codes and standards Instrumentation & Control 5 Technical Interventions on site and Professional Trainings 6 Vocational Trainings 7 Training terms & conditions 2

FOREWORD AREVA, a world leader in nuclear power, is committed to meeting energy challenges of the coming years by producing carbon-free energy. New and existing nuclear power programs require resources which are perfectly matched to project requirements to guarantee the very highest level of safety and performance. The development of the nuclear industry as a whole necessitates responsible consideration of the challenges posed by human resources, training and skills. AREVA Learning Solutions benefits from the group's expertise in the nuclear sector and provides its customers and partners with an all-encompassing range of solutions designed to build up human capacity, underpinned by an extensive training offer. Our training solutions are proposed and rolled out by our three training organizations: AREVA University, Trihom and Corys. This document presents some of the training programs available in our catalogue, all of which can be taught in French or English in the country of your choice. A complete offer covering all phases of nuclear programs and projects A sound knowledge of a vast range of topics is essential if a nuclear program is to be rolled out successfully. Failure to ensure that indispensable skills and associated human resources are available at the right time can lead to bottlenecks. We offer training solutions in areas such as reactor physics, design and operation, fuel cycle physics and chemistry, material physics, waste management, facility dismantling, radiation protection and nuclear safety, and vocational and technical training required for field workers on customer sites and in nuclear facilities. We can meet your training needs at all stages of your nuclear program, whatever the level required. We have progressively extended our training offer to areas other than science and technology such as courses on behavioral skills, public acceptance, leadership, project management and international energy framework. Learning solutions with high value added to enhance skills at all stages of a nuclear program AREVA Learning Solutions also offers a complete range of Human Capacity Building services thanks to our ability to leverage AREVA experts in a variety of areas Human Resources Strategy Training Knowledge Management Academic partner networks and the resources available on our industrial sites. AREVA Learning Solutions training programs have also been incorporated into the general training offer proposed by France under the auspices of I2EN (International Institute of Nuclear Energy). 3

FOREWORD AREVA Learning Solutions can meet all your training requirements throughout the duration of your project, whether you are a newcomer country or an established nuclear operator: - Creation of resource development strategies ahead of the project launch and subsequent adjustment in light of the economic, political and industry-related contingencies; - Setting up of methods and tools to put strategy into action and adapt and manage it over time; - Performance of specific skills development actions in the field through coaching or training. AREVA Learning Solutions, leveraging excellence in international nuclear projects Key examples Poland - Training for 20 University professors organized by AFNI, I2EN, AREVA, EDF, CEA, IRSN, ANDRA: Technology training Site tours Experience and network sharing with French academic partners South Africa - Training provided for AREVA s Supply Chain Partners - Diploma course (Masters level) for 40 future project management leaders - Study tours organized by AREVA in France for the South African delegation of the FNR (National Fund for Responsibility Awareness) China - Taishan EPR: 166 training courses in EPR technology. 1, 284 Chinese engineers trained in Europe and China. - Contract signed with CNPE (CNNC Group): 40 Top Executives trained in Project Management Saudi Arabia - Close cooperation with AREVA's International and Commercial Organization to build up a regional network of academic and industrial partners - Plan to create a training center - Close cooperation between AREVA, EDF and I2EN to organize a learning expedition for university professors Partnerships with key learning institutions and leading industrial players around the world Canada France Belgium United Kingdom Germany Poland United States Italy China India Saudi Arabia South Africa Are you looking for a specific training program? Are you seeking to enhance skills through training? Are you launching a nuclear program and wondering about the human resources you will need? Find the answers to all these questions and more on our websites! www.areva.com www.trihom.fr www.corys.fr 4

NUCLEAR ENERGY framework

NUCLEAR ENERGY FRAMEWORK Nuclear Learning Tour Reactors regulatory framework Technical Nuclear Safety Probabilistic Safety Assessment Nuclear Project Management Supplier Excellence Silver 6

Energy Essentials Nuclear Learning Tour 2014 DURATION Pre e-learning + 8 days LANGUAGES English PARTICIPANTS 40 maximum per session LOCATIONS Sites in France (AREVA, CEA, EDF) DATES see next public session on our website Private customized session on demand PRICE see pricing conditions on our website PARTICIPANTS Engineers and executives recently recruited by Utilities or within the nuclear supply chain or nuclear services sector Experienced engineers and executives moving into a nuclear career Leaders and managers involved in civil nuclear energy development projects PREREQUISITE No specific background or training required Courses are in English, a good level of English is required for all participants OBJECTIVES Acquire a global vision of nuclear energy Understand the energy challenges of today Explain and illustrate nuclear basics and reactor physics Understand the importance of nuclear safety Gain a complete overview of the nuclear industry from uranium mining to fuel recycling CONTENT Atomic and nuclear basics, nuclear in energy mix Fission chain reaction, reactors and radiation Reactor types Nuclear fuel cycle Nuclear safety, reactor safety Fuel recycling, waste management Nuclear project management TEACHING & METHOD TOOLS e-learning Interactive classroom modules Balanced and progressive learning program Practical and guided exercises Operation demonstration with simulator Practical site visits: research centre, Nuclear Power Plant, fuel manufacturing plant, training & maintenance centre, EPR new build construction, recycling plant & waste management Conferences by top-level experts LEARNER BENEFITS Obtain a solid overview of the nuclear industry in a short time through intensive learning Enhance your understanding and memorization with site visits and a common thread Understand the interactions between different stakeholders in the nuclear industry Benefit from feedback of France s decades of experience in peaceful use of nuclear energy Expand your professional network Jean Bernard ROULEAU Competence and training projects Manager Mail: jean bernard.rouleau@areva.com Further information and registration on http://nuclear learning tour.areva.com 7

REGULATORY FRAMEWORK Many countries are considering launching or re-activating a nuclear power programme. A legal and regulatory framework needs to be implemented or adapted in these countries in order to ensure that nuclear energy is used in a transparent, safe, secure and peaceful manner. Many courses have been developed by IAEA but often dedicated to regulatory bodies. This training is dedicated to future nuclear operators, vendors and suppliers. DURATION 4 Days LANGUAGE English, French PARTICIPANTS 15-20 LOCATION According to customer s request You are Managers, salesmen, engineers involved in the design/construction/operation/ of a future nuclear power plant. Prerequisites Sufficient basic knowledge about mechanics. After the training you will be able to Evaluate the essentials of a legal and regulatory framework and how they interfere, depending on the adopted national regulatory approach, Support and facilitate a smooth licensing process with a good understanding of needed provisions in terms of regulation, codes and standards in a national legal and regulatory framework (this presentation is based on the experience built by AREVA through numerous international projects), Contribute to the elaboration of national nuclear regulatory framework and interact with other interested parties during process. Course strengths Lecture by international regulatory expert, Exchanges and share of experience through workshops. 8

REGULATORY FRAMEWORK AGENDA Day 1 Introduction Legal and regulatory framework for nuclear safety, IAEA documentation and services - International (binding and non binding) tools, The French legal and regulatory framework for nuclear safety, Main components of the pyramidal structure, Historical developments and difficulties - Roles of stakeholders - Licensing process. Day 2 Description of legal and regulatory framework in some countries US, UK, Finland, Benefits and drawbacks for interested parties resulting from the different approaches, Reflection on harmonization and standardization, benefits and issues. Day 3 The concept of applicable codes and standards, Translating the Safety classification into technical specifications (potential issues deriving from legal and regulatory provisions), Pressure equipments, European regulations, French regulations for conventional and nuclear pressure equipments, Mechanical codes and standards, Difficulties encountered in the application of these regulations ALARA, Legal and regulatory implications. Day 4 Environmental regulations, Principle of the best available techniques (BAT), Consistency of practices with conventional industrial installations, Strengthening of operator s responsibilities, Conventional health & safety regulations, Potential impact on design, Procurement, Manufacturing, Construction, Operation and maintenance of nuclear power plants. 9

TECHNICAL NUCLEAR SAFETY This Training provide the attendees with of Safety Approaches: Deterministic and Probabilistic DURATION 1 Day LANGUAGE English, French PARTICIPANTS 15-20 LOCATION According to customer s request TARGET GROUP Engineers and technicians that would like to add a safety related context, illustrated on EPR reactor, to their existing competence about Pressurized Water Reactor (PWR) technology. PREREQUISITES Knowledge about Pressurized Water Reactor technology. COURSE OBJECTIVES Name the main safety objectives and definition of nuclear safety, Show the main safety «actors» and their responsibilities, Explain the regulatory requirements in US and France, Describe the content of a safety analysis report, Explain the defense in depth principle, Show the classification of postulated initiating events (PIE), Explain the classification of safety functions, Describe the PSA role in design, construction and operation, Explain the safety improvements/reassessment, Show the technical solutions concerning nuclear safety, Name the safeguard systems of EPR reactors. TRAINING METHOD Lecture by specialists 10

TECHNICAL NUCLEAR SAFETY Agenda Day 1 Introduction Safety objectives Safety regulations Safety during design stage The Probabilistic Safety Analysis role in the design Safety during construction Safety during operation Safety improvements/reassessments Nuclear safety practical solutions Conclusion 11

Probabilistic Safety Assessment Training This training has been developed and implemented by AREVA Safety specialists to allow a good understanding of Probabilistic Safety Approach requirements, development and application in Nuclear Facilities. DURATION 4 Days LANGUAGE English, French PARTICIPANTS 10-17 LOCATION According to customer s request You are Engineers and Technicians involved in Design, Operation, inspection of Nuclear Power Plants. Prerequisites Professional English required During the training, you will Discover Probabilistic Safety Approach specificities Practice the tools involved in PSA Understand PSA applications After the training, you will be able to Describe Probabilistic Safety Approach and its main features Use the tools involved for its implementation, Recognize its application during Nuclear Facilities Operation Highlight the different factors which influence the risk acceptance Course strengths Based on our expertise and experience, this training has been specifically designed to help attendees reaching their objectives through two main approaches: 1st. Theoretical parts: explaining the position and the roles of PSA through its organization and management. 2nd. Practical exercises: to apply PSA tolls and methods and share our experience and best practices 12

Probabilistic Safety Assessment Training Agenda Day 1 Day 2 Introduction Introduction to PSA Level 1 PSA Management and Organisation Initiating events analysis Event trees analysis Part 1 Event trees analysis Part 2 Reliability data and common cause failures Human reliability analysis Day 3 Day 4 Fluid systems reliability analysis I&C reliability analysis Internal and External Hazards Analysis Seismic Analysis Risk-Informed Analysis Part 1 Risk-Informed Analysis Part 2 Level 1 PSA quantification, Importance calculations and uncertainty analysis Sensitivity and cost-benefit analysis Debriefing 13

Nuclear Project Management Program. The program is a unique opportunity for future leaders of nuclear projects. They will develop and strengthen their project management competences and practice intensively on business cases derived from AREVA experience. AREVA experts will moderate the cases and share experience with the trainees. DURATION Up 6 weeks LANGUAGE English PARTICIPANTS Up to 20 LOCATION Europe Target population Experienced professionals (10 years) identified as high potentials for large projects management. Master s level or equivalent. Strong interpersonal capabilities. English spoken at negotiation level. Objectives Acquire project management fundamentals. Master the specificities of nuclear projects. Know how to apply PM processes and tools to manage risks and achieve on time delivery. Know how to implement project processes and organization through all project stakeholders. Know how to adapt to change. Content Mix of classroom training, exercises and business cases, nuclear site visits, sharing of experience and best practices. Learner benefits Strong participation and self involvement for enhanced know how. Access to decades of real life experience. Flexible program to adapt to trainees needs. Association of AREVA University training excellence and AREVA Engineering & Projects expertise. Possibility to establish pre-training to adjust program content, and posttraining assessments to measure trainees progress. Certification in nuclear project management depending on trainees results. 14

Suppliers excellence Silver training. Fundamentals for the Nuclear Projects The program is an asset for all suppliers willing to develop business in the nuclear energy sector. In a two-day session, they can grasp the fundamentals of nuclear quality and safety and know what they will have to implement to win and secure the execution of future contracts. DURATION 2 days LANGUAGE French / English PARTICIPANTS Up to 20 LOCATION Europe Target population Experienced professional with project management records. Having the willingness to develop activities in the nuclear energy sector. English spoken at negotiation level. Objectives Understand key characteristics of a nuclear project. Develop fundamentals of safety culture. Improve your understanding of Quality, Safety, and Procurement requirements for nuclear projects. Understand how, as a supplier you contribute to plant safety. Know what will be expected from you since bid preparation and until contract execution. Content Mix of classroom training and exercises drawn from real cases. Learner benefits Strong participation and self involvement for enhanced know how. Access to experts from technological and procurement fields. Capitalizing on the extended AREVA experience in contract management and partnership with international suppliers. 15

Radioactive materials TRANSPORT

RADIOACTIVE MATERIALS transport Radioactive materials transport training Port handling Vessel loading and unloading Radioactive materials transport training Maritime transportation Vessel loading and unloading Radioactive materials transport training Level 1 TMR1 Transportation training UF6 (Uranium Hexafluoride) 17

Transport TRAining Center TTRAC DURATION 1/2 day LANGUAGE French / English MAXIMUM NUMBER OF PARTICIPANTS 12 LOCATION AREVA offices, port facilities or other according to request RADIOACTIVE MATERIALS TRANSPORT TRAINING Port handling Vessel loading and unloading IMO7-1 Principal subjects : Identification of regulations and dangerous materials classes Class 7 : Properties of radioactive materials, packages and UN numbers Preparation of packages : Responsibilities and documents, Marking, labelling and placarding of packages & containers Handling and stowage : CSC, Handling / Stowage, Segregation / Quay side and interim storage areas Instructions and other documents regarding the emergency measures Protective measures : General measures, radiation protection programme, physical protection and instructions Practical complements : Placarding and marking of land vehicles and on board documents This IMO7-1 training is adapted for persons performing tasks linked to organization, preparation and carrying out of sea-port handling operations for radioactive materials. This training, validated at the end by a test of acquired knowledge, is in line with personnel training requirements of the IMDG regulation 1.3.1, of 1.3.1.2 and especially for the functions 8 and 10 listed in the tables 1.3.1.5 and 1.3.1.6 of the IMDG code. It also addresses where available national port regulations for radioactive materials (i.e. RPM for France, ) and local port regulation requirements. It integrates ADR and RID (or other equivalent land transport regulations) for loading of land vehicles. Contact(s) : DE BASTIANI Pascal & MESROUA Marie-Noëlle E-Mail : pascal.de_bastiani@areva.com & marie_noelle.mesroua@areva.com For registration, please contact us AREVA TN 18

Transport TRAining Center TTRAC DURATION 1/2 day LANGUAGE French / English MAXIMUM NUMBER OF PARTICIPANTS 12 LOCATION AREVA offices, port facilities or other according to request RADIOACTIVE MATERIALS TRANSPORT TRAINING Maritime transportation Vessel loading and unloading IMO7-2 Principal subjects : Identification of regulations and dangerous materials classes General provisions applicable to the transport of dangerous goods and in particular radioactive materials Class 7 : Properties of radioactive materials, packages and UN numbers Preparation of packages : Responsibilities and documents, marking, labelling and placarding of packages & containers Specific provisions regarding CSC, Handling / Stowage, Segregation / Quay side and interim storage areas Instructions and other documents regarding the emergency measures Protective measures : General measures, radiation protection programme, physical protection and instructions This IMO7-2 training is adapted for persons performing tasks linked to organization, preparation and carrying out of sea transportation of radioactive materials. This training, validated at the end by a test of acquired knowledge, is in line with personnel training requirements of the IMDG code 1.3.1.6 and 1.4.2.3 (safety) and especially for the functions 11 (Carrying the dangerous goods) and 10 (Loading/unloading the dangerous goods on board/from vessels), for the aspects concerning maritime transportations and the handling operations of radioactive materials. Contact(s) : DE BASTIANI Pascal & MESROUA Marie-Noëlle E-Mail : pascal.de_bastiani@areva.com & marie_noelle.mesroua@areva.com For registration, please contact us AREVA TN 19

Transport TRAining Center TTRAC RADIOACTIVE MATERIALS TRANSPORT TRAINING Level 1 TMR1 DURATION 1 day LANGUAGE French / English MAXIMUM NUMBER OF PARTICIPANTS 12 LOCATION AREVA offices, customer facilities/offices or other according to request Principal subjects : Identification of regulations and dangerous materials classes Actors involved and their obligations Risks related to radioactive materials General provisions applicable to transport of radioactive materials Classification of radioactive materials, UN numbers and proper shipping names, and required package types Limits of radiation intensity and contamination Labeling and marking of packages, placarding, signalling and marking of transportation means and containers Transport documents, instructions, notifications This TMR1 training is adapted for persons performing tasks linked to organization, preparation and carrying out of transportation of radioactive materials, by road, rail and/or sea. This training, validated at the end by a test of acquired knowledge, is in line with personnel training requirements of the ADR, RID and IMDG Code. This training is a prerequisite to the TMR2 level training adapted to personnel having a specific regulatory roles. Contact(s) : DE BASTIANI Pascal & MESROUA Marie-Noëlle E-Mail : pascal.de_bastiani@areva.com & marie_noelle.mesroua@areva.com For registration, please contact us AREVA TN 20

Transport TRAining Center TTRAC TRANSPORTATION TRAINING UF6 (Uranium Hexafluoride) Entities based at the Tricastin site DURATION ½ day LANGUAGES French/English MAXIMUM NUMBER OF PARTICIPANTS 12 PLACE AREVA TN or customer office facilities or other according to request Principal subjects : Identification of applicable national and international regulations Regulatory classification of UF6 and associated UN numbers Types of packagings and packages used (48Y, 30B) and related tests Package model approvals Regulatory labelling and marking of packages Regulatory limits (radiation levels, non contamination) Controls before departure Related transport means : labelling, signalling and equipment Obligations of main participants in transport Documentary aspects : on board documents, notifications, physical protection Safety instructions Focus on internal shipments at the Tricastin site This UF6 Transportation Training is adapted for persons performing tasks linked to preparation of packages and internal and/or external shipments of uranium hexafluoride. This training is in compliance with the requirements of paragraphs 1.3.2.1 and 1.3.2.2 of the ADR, RID and IMDG transport regulations for general and specific training of personnel on the subject of dangerous goods transport regulations. Contact(s) : DE BASTIANI Pascal (BE/LO) & MESROUA Marie-Noëlle (BE/LO) E-Mail : pascal.de_bastiani@areva.com & marie_noelle.mesroua@areva.com For registration, please contact us AREVA TN 21

Reactors and fuel cycle

General knowledge of reactors technology Nuclear Power Plant Basic PWR fundamentals using simulator Simulator training - PWR normal operation The human factor Materials on PWR 23

NUCLEAR POWER PLANT BASICS ILLUSTRATED ON EPR TECHNOLOGY This training is the first step to understand Pressurized Water Reactor concept. It is illustrated on EPR Technology DURATION 4 Days LANGUAGE English, French PARTICIPANTS 8-15 LOCATION Paris La Défense You are An engineer and/or technician starting to work on PWR technology Prerequisites Sufficient knowledge about nuclear theory (fission process, etc...) After the training, you will be able to List the basics of a nuclear power plant based on EPR Technology Describe EPR nuclear power plant specifications Course strengths Lecture by specialists, Share of experiences, 24

NUCLEAR POWER PLANT BASICS ILLUSTRATED ON EPR TM TECHNOLOGY Agenda Day 1 Introduction to Nuclear Safety and EPR Overview Nuclear Steam Supply System / Part 1 Day 2 Nuclear Steam Supply System / Part 2 Auxiliary Systems Day 3 Secondary Circuit Overview Instrumentation and Control Reactor Control Surveillance and Limitation System Reactor Protection System Day 4 Main Safeguard Systems Plant Operation Industry Events 25

PWR fundamentals using simulator Pressurized Water reactor design principle presentation and knowledge acquisition, sustained by lab work by running reactor normal operation on C-PWR training simulator. DURATION 3 days (21 hours) LANGUAGE French, English PARTICIPANTS 6 à 10 LOCATION CORYS Grenoble, France Other under request You are Staff involved in the nuclear industry without a specific knowledge in the area Looking forward being more fluent on nuclear vocabulary and general information about nuclear electricity production. Prerequisite Bachelor degree at minimum, this training course can be followed by all type of staff profile, with technical orientation or not. Comfortable with the use of software tools During the training, you will Discover the main PWR reactor systems Take up basic knowledge on core physics and fission reaction Understand the reactor main regulations design bases during plant normal operation Run plant start-up, follow up operation at full power and shut it down After the training, you will be able to Understand the PWR general design choices Understand the main step of PWR normal operations Course strengths The acquired theoretical knowledge is strengthened by practicing PWR operation on a training simulator by group of 2 trainees Possibility to organize the training on your site provided that the minimum participation (>6) is reached 26

PWR fundamentals using simulator Content Day 1 Welcome PWR Overall presentation Turbine island Turbine Condenser Feedwater system Nuclear Island main components Reactor vessel Steam generators Primary pumps Pressurizer Day 2 Nuclear Island hydraulic system Chemical and Volume Control system Residual Heat Removal System (RHRS), Presentation of the Pressure-Temperature diagram during main phases of plant start-up Simulator lab work: Shutdown states Reactor Core Physics Jour 3 Simulator lab work: Primary/Secondary interaction Simulator lab work : plant start-up Simulator lab work : plat normal operation at full power Plant safety systems Introduction to design-basis accidents 27

Simulator training - PWR normal operation Understanding the Pressurized Water Reactor design principle and introduction to the nuclear reactor normal operation, knowledge taken further by running lab work on C-PWR training simulator. DURATION 5 days (35 hours) LANGUAGE French, English PARTICIPANTS 6 à 10 LOCATION CORYS Grenoble, France Other under request You are Staff involved in the nuclear industry without a specific knowledge in the area Looking forward being more fluent on nuclear vocabulary and general information about nuclear electricity production. Prerequisite Master degree, this training session is recommended to engineers, or experienced technicians. Comfortable with the use of software tools During the training, you will Discover the main PWR reactor systems Take up basic knowledge on core physics and fission reaction Understand the reactor main regulations design bases during plant normal operation Run plant start-up, follow up operation at full power and shut it down After the training, you will be able to Understand the PWR general design choices Understand the main step of PWR normal operations Course strengths The acquired theoretical knowledge is strengthened by practicing PWR operation on a training simulator by group of 2 trainees Possibility to organize the training on your site provided that the minimum participation (>6) is reached 28

Simulator training - PWR normal operation Content Day 1 Welcome PWR Overall presentation Turbine island Nuclear Island main components Day 2 Day 3 Nuclear Island hydraulic system Chemical and Volume Control system Residual Heat Removal System (RHRS), Presentation of the Pressure-Temperature diagram during main phases of plant start-up Simulator lab work: Shutdown states Reactor Core Physics Simulator lab work : Divergence Simulator lab work : Physical testing Simulator lab work: Primary/Secondary interaction Day 4 Theoritical presentation of the reactor main regulation Simulator lab work : plant start-up Simulator lab work : plat normal operation at full power Day 5 Simulator lab work: Islanding Simulator lab work: plant start after reactor emergency shutdown (SCRAM) Plant safety systems Introduction to design-basis accidents 29

HUMAN FACTORS This training, implemented by our experts, highlights Human factors engineering in the design of nuclear power plants You are Managers, engineers involved in design, construction and operation of further Nuclear Power Plant (NPP). DURATION 5 days LANGUAGES French, English PARTICIPANTS 10-15 LOCATION According to cutomer s request Prerequistes None. During the training you will Study Human Factor Engineering (HFE) concepts applied to NPP design, Learn to manage Verification and Validation (V&V) requirements. After the training you will be able to Explain general HFE concepts and normative context, Apply HFE states and good practices, Describe HFE process and concepts in NPP design, Define V&V lifecycle and manage properly the documentation. Training method Lecture by specialists 30

HUMAN FACTORS Agenda Day 1: Introduction to Human Factors and Ergonomics (HFE) History and Definition, Scope (incl. Human Reliability, work conditions analysis, basics on Man functioning ), Codes and standards for Nuclear Power Plants. Day 2: HFE systemic approach and HFE program HFE systemic approach: - IAEA definition, - Principles and best practices - - HFE basic scope. Day 3: HFE integration in the design process and focus on I&C constraints HFE integration in overall engineering disciplines, Example through various design processes: - MCR, PICS, SICS, Radiation protection, Civil Engineering - Operating Documentation - Focus on I&C issues for HFE and defense in depth concept. Day 4: Operating Philosophy and main concepts Operating Philosophy, Main concepts (concept of alarm, operating documentation, automation ), Human Reliability, Functional Analysis, Task Analysis, Impact of HFE in technologies management and choices, HFE and cultural aspects in NPP design. Day 5: HFE Verification & Validation (V&V) process / Information management V&V cycle: - V&V team, methods, tools - HEDs tracking - Operating Experience Review Information management: - Overall documentation - How to navigate in HFE overall documentation. 31

The materials on Pressurized Water Reactor This training has been developed and implemented by AREVA mechanical specialists to allow a good understanding of technical requirements link to the design, the manufacturing and control of Pressurized Water Reactor components. DURATION 3 days LANGUAGE English, French MAXIMUM NUMBER OF PARTICIPANTS 15 per session LOCATION According to customer s request You are The attendees to the training will be engineers or technicians who want to acquire knowledge of Pressurised Water Reactor (PWR) component materials properties and specifications. Prerequisites Basic knowledge about mechanics. After the training you will be able to List the materials implemented on PWR specifications and their properties, Present constraints and strength of materials, Describe materials damage phenomenal on pressure water reactor plans, Explain manufacturing techniques of different components of PWR coolant system, Detail the non-destructive testing methods. Course strengths Lecture by experts Share of experience Illustrating examples 32

The materials on Pressurized Water Reactor AGENDA Introduction Introduction to metallurgy, Properties of metals and alloys, Materials testing and non destructive examination, The brittle fracture and the ductile to brittle transition. Materials of PWR Principles of selection of materials for PWR components, Effect of manufacturing processes on materials properties, Different form of aging of materials in PWR, Specifications for high quality materials. The Reactor Pressure Vessel (RPV) The RPV materials and manufacturing, Some metallurgical properties of heavy forgings, The welding of RPV, The effect of irradiation and the RPV irradiation surveillance. program The RPV Internals The RPV Internals materials and manufacturing, The effect of irradiation on RPVI materials, Case study: experience feedback, The Primary and auxiliary piping, Piping materials, and manufacturing, Pump casing materials, Different degradation mechanisms of piping materials, (corrosion, thermal aging, thermal fatigue), Case study: experience feedback. The steam generator (SG) The SG materials and manufacturing, The properties of SG tube material, and corrosion issues, Other mechanisms of degradation in SG. The case of Ni Based alloys (Inconel 600) Recall of Nickel base alloy properties, and applications, The corrosion properties of Ni Base alloys, Experience feedback with Inconel 600 and 690. Bolting, valve stems and valve seats Introduction, High strength low alloy steels, High strength stainless steels hard facing alloys, for friction and wear resistance. 33

Teleperm xs training program - Digital Instrumentation and Control - TELEPERM XS-Fundamentals Including Practicals (5 days) TELEPERM XS-Fundamentals Overview (3 days) TELEPERM XS-Fundamentals Compact (2 days) TELEPERM XS-Hardware 2nd Generation (3 days) TELEPERM XS-PYTHON Fundamentals (5 days) TELEPERM XS-PYTHON Advanced (5 days) TELEPERM XS-Maintenance HW2G/SMS (5 days) TELEPERM XS-Maintenance HW2G/DIMAS (5 days) TELEPERM XS-Maintenance HW2G/DIMAS (10 days) TELEPERM XS-DIMAS Fundamentals (3 days) TELEPERM XS-Python for TXS (2 days) TELEPERM XS-Engineering Detailed Design (5 days) TELEPERM XS-Engineering Detailed Design-Compact (3 days) TELEPERM XS-SIVAT-V1.8 Verification and Validation (2 days) TELEPERM XS-SIVAT-V3.6 Verification and Validation (3 days) TELEPERM XS-SYS ADMIN-LINUX Fundamentals (2 days) TELEPERM XS-QDS Applications (2 days) TELEPERM XS-FunBase Applications (3 days) TELEPERM XS-Test Bay and ERBUS (5 days) TELEPERM XS-SPECIAL BASIC/ENG/MAINT/OPERATION (10 days) 34

Training Center Germany TELEPERM XS-Fundamentals Including Practicals COURSE NUMBER L231.1 DURATION 5 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Personnel in charge of I&C system management or involved therein, as well as personnel engaged in sales/marketing of I&C equipment and licensing personnel CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the basic system architecture of TXS I&C systems and the tasks and functions of the system computers Identify the most important hardware modules of the system platform and their basic functions Explain the system properties with regard to the function of the TXS digital I&C system and its fault tracking options Explain the tasks of the TXS engineering process in detail Perform routine tasks using the engineering system SPACE Explain the possibilities and principles of maintenance This course provides the basis for the advanced courses TXS MAINT TXS-QDS TXS-HW2G TXS-SIVAT TXS-ADMIN CONTENT This course covers the overall concept of the safety I&C system platform TELEPERM XS (TXS). The course participants learn about the individual hardware and software components of a TXS system and acquire a general understanding of the TXS safety I&C system architecture in general and based on specific examples. The most important hardware modules of a TXS system and the system properties resulting from the application of digital I&C will also be explained. Furthermore, course participants will get an overview of the engineering process, including the function specifications, verification and validation methods, the SPACE engineering tools and maintenance of the system platform. The theory will be supplemented with practical exercises. The course covers the following topics in detail: Basics of the TXS system TXS functional computer and system architecture Overview of the most important TXS hardware modules TXS system properties Overview of the TXS engineering process and the function specification with V&V Detailed engineering (specification of a database) Engineering tools (SPACE tools) Maintenance (overview) PREREQUISITES General knowledge of automation technology for safety systems in nuclear power plants. 35

Training Center Germany TELEPERM XS-Fundamentals Overview COURSE NUMBER L231.2 DURATION 3 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Personnel in charge of I&C system management or involved therein, as well as personnel engaged in sales/marketing of I&C equipment and licensing personnel OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the basic concepts of function computers and I&C system architectures Identify the most important hardware modules of the system platform and their basic properties Identify the system properties with regard to the function of the TXS digital I&C system and its fault tracking options Explain the most important tasks of the engineering process and its engineering tools (SPACE) Explain the possibilities and principles of maintenance CONTENT This course essentially covers the same content as L231.1, but in a more condensed form. Course participants learn about the different components of a TXS system, including the tasks of the function computer and the application of these tasks in I&C technology through the explanation of TXS I&C system architecture. Participants also acquire an overview of the TXS hardware components and the system properties of the digital I&C with TXS, in addition to an overview of the engineering process regarding function specification, verification and validation methods, SPACE engineering tools and possibilities of maintenance of the system platform. The theory will be supplemented with practical exercises. The course covers the following topics in detail: Basics of the TXS system TXS function computer and system architecture Overview of the most important TXS hardware modules TXS system properties Overview of the TXS engineering process and the function specification with V&V Engineering tools (SPACE) Overview of maintenance Practical exercises and test PREREQUISITES General knowledge of automation technology for safety systems in nuclear power plants. CONTACT training@areva.com www.areva-training.de 36

Training Center Germany TELEPERM XS-Fundamentals Compact COURSE NUMBER L231.3 DURATION 2 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Personnel in charge of I&C system management or involved therein, as well as personnel engaged in sales/marketing of I&C equipment and licensing personnel OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the basic concepts of the TXS system platform Identify the different hardware modules of the system platform and their most important properties Explain the system properties of the digital I&C system and the principle of the fault tracking options Explain the basic principles of engineering and maintenance CONTENT This course gives a condensed overview of the overall concept of TELEPERM XS. Course participants will learn about the individual components of a TXS system in general and based on specific examples. The most important hardware modules of a TXS system and the system properties as a result of the application of I&C technology will be explained, in addition to a short overview of the engineering process and the possibilities of maintenance of the TXS system platform. The course covers the following topics in detail (classroom training only, no practical exercises): Basics of the TXS system TXS function computer and TXS system architecture Overview of the most important hardware modules TXS system properties Overview of the TXS engineering process and TXS maintenance PREREQUISITES General knowledge of automation technology for safety systems in nuclear power plants. CONTACT training@areva.com www.areva-training.de 37

Training Center Germany TELEPERM XS-Hardware 2 nd Generation COURSE NUMBER L350.1 DURATION 3 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C engineering personnel, technical project managers, I&C test and commissioning personnel OBJECTIVES Upon successful completion of this course, participants will: Have a basic knowledge of 2 nd generation TXS hardware Understand the connection between the mechanical cabinet assembly and the conceptual requirements regarding the assembly of a TXS cabinet Have a basic knowledge of the structure and the function mode of cabinet modules of the power supply, circuit breaker and monitoring as well as cabinet connection techniques Have a basic knowledge of the creation of a cabinet arrangement diagram CONTENT This course includes an introduction and an overview of the TXS hardware of the 2 nd generation. The new properties of the TXS 2 nd generation hardware are presented, including the new properties of TXS modules. The course provides information about the purpose, structure and function of the new modules, including the cabinet power supply, circuit breaker and monitoring. The connection between planning technical specifications (identification concept, standard circuitry), cabinet assembly (mechanics) and the functionality of the cabinet modules is explained in line with the creation of a cabinet arrangement diagram. The course covers the following topics in detail: TXS basics of the hardware components - Cabinet structure, racks, mounting sets etc. Purpose, structure and function mode of the units for: - TXS cabinet power supply - TXS cabinet circuit breaker - TXS cabinet monitoring Non code-relevant analog and binary modules Code-relevant modules (computer, communication, input and output modules) Creation of a cabinet arrangement diagram with VISIO Consolidation of topics taught with theoretical and practical exercises PREREQUISITES Basic knowledge of I&C and of digital automation systems, TXS basic knowledge (basic course), basic knowledge of PC (VISIO) are desirable. CONTACT training@areva.com www.areva-training.de 38

Training Center Germany TELEPERM XS-PYTHON Fundamentals COURSE NUMBER L420.1 DURATION 5 days PARTICIPANTS 6-8 people LANGUAGE English / German LOCATION PTM Academy Nuremberg or AREVA Training Center Offenbach TARGET GROUP All employees working with TXS and I&C engineering OBJECTIVES Attendance of this course provides participants with an introduction to the concept of the interpreted, interactive and object-oriented PYTHON programming language. They will learn about the complexity and applications of this script language, and how these can be employed for this application development. For example the writing of test scripts for periodic tests and in the test bay as regards DIMAS (diagnostic and maintenance server) basics. CONTENT PYTHON is an imperative programming language with an object-oriented structure. Regular expressions as well as graphic user interfaces are clarified and understanding is further expanded with practical exercises. Attendance of this course allows participants a better introduction into the handling of the PYTHON programming language. The course discusses the following topics in detail: Overview, basic concept and functioning of PYTHON Data types: basic data types, sequential data types, dictionaries and sets Functions: strings, regular expressions, mathematical functions User interactions, standard inputs Modularization Basics of object-orientation PREREQUISITES Established knowledge of engineering or previous attendance of a TXS engineering course, as well as programming basics for structured and object-oriented languages. CONTACT training@areva.com www.areva-training.de 39

Training Center Germany TELEPERM XS-PYTHON Advanced COURSE NUMBER L420.2 DURATION 5 days PARTICIPANTS 6-8 people LANGUAGE English / German LOCATION PTM Academy Nuremberg or AREVA Training Center Offenbach TARGET GROUP All employees working with TXS and I&C engineering OBJECTIVES Attendance of this course allows participants to use PYTHON under observation of the newest code quality standards (object-orientation and graphic interfaces). They understand the concept of the PYTHON classes from a higher point of view and can thus write short and easily maintainable PYTHON code. The participants also learn about the design of graphic user interfaces with PyQt and QT Designer. CONTENT The modern, high-grade object-oriented programming language PYTHON allows a smooth transfer of small, simple scripts to highly complex applications according to the newest technology standards. PYTHON thereby never loses the clarity and maintainability of its code. The course focuses on the concept of the PYTHON classes and the object-oriented qualities of the language. A series of short introductions into several different special features of the language is also included, for example exception handling, as well as data and time functions. The Qt-GUI programming is finally discussed with the aid of a window and knowledge is expanded through the connection between QT Designer and PYTHON. The course discusses the following topics in detail: File access Exception handling Data and time Basics of the graphic user interface PyQt Short introduction to QT Designer Connection between QT Designer and PyQt PREREQUISITES Knowledge of TXS-PYTHON/1, basic knowledge of an operating system and a higher programming language. The knowledge from TXS-PYTHON/1 should have already been intensively used through an own script. CONTACT training@areva.com www.areva-training.de 40

Training Center Germany TELEPERM XS-Maintenance HW2G/SMS (5 days) COURSE NUMBER L531.1 DURATION 5 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C maintenance personnel and I&C test and commissioning personnel CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the concept and mechanisms of TXS maintenance Use the TXS service unit for maintenance Troubleshoot the TXS system and distinguish between hardware and software problems Monitor the TXS system, modify parameters and verify parameter changes Download and verify application software Isolate hardware failures and exchange components CONTENT In addition to a short introduction into the TXS basics and their plant specific applications, this course focuses on the function, application and handling of the TXS service unit used as a tool for diagnostics and troubleshooting in TXS systems. Further topics covered in this course include fault tracking in the cabinet and procedure and handling in case of module exchange. The course is based on the 2 nd Generation TXS hardware and the TXS Core Software Version 3.3.x with SMS and GSM as diagnostic tools. The course covers the following topics in detail: TXS basics Function computer and system architectures, 2 nd generation hardware and system properties TXS maintenance Basic annunciation and monitoring concept Monitoring computer, types of errors and error messages SPACE database (properties and function diagram editor) Navigation within a project database (practical exercises) TXS diagnostics with the service unit (SMS) Use of the service unit for troubleshooting Service Monitor Server (SMS), functionality and Online Error Messages TXS diagnostic with the service unit (GSM) Diagnostic with the Graphic Service Monitor (GSM) Introduction in SM-Scripts Change of operating modes and parameterization Practical exercises TXS diagnostics at the cabinet Fault tracking and repair Demonstration of module exchange and hardware parameterization Software loading with practical exercise PREREQUISITES Basic knowledge of I&C and experience in digital automation systems are desirable, TXS basic knowledge is an advantage, however, not requisite, general basic knowledge of PC. 41

Training Center Germany TELEPERM XS-Maintenance HW2G/DIMAS (5 days) OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the TXS basics, architecture and system properties Explain the concept and mechanism of TXS maintenance Use the different DIMAS clients on the SU for TXS diagnostics and maintenance Monitor the TXS system, modify parameters and verify parameter changes Explain module exchange procedure and module settings Download application software and verify it COURSE NUMBER L531.2 DURATION 5 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C maintenance personnel and I&C test and commissioning personnel CONTACT training@areva.com www.areva-training.de CONTENT This course has essentially the same concept as course L531.1 Maintenance of the 2 nd Generation (TXS-MAINT/SMS). The course is based on the TXS hardware of the 2 nd Generation and the 2 nd Generation of TXS Core Software with DIMAS clients as diagnostics tools. In addition to a short introduction into the TXS basics and their plant specific applications, this course focuses on the function, application and handling of the TXS service unit, used as a tool for diagnostics and troubleshooting in TXS systems. Further topics covered in this course, include fault tracking in the cabinet and procedure and handling in case of module exchange. The course will be complemented by practical exercises. The course covers the following topics in detail: TXS-Basics - System architecture - Hardware 2 nd Generation - System properties - SPACE function diagram edition (FDE) - Navigation in a project database (practical exercise) TXS-Diagnostic with the Service Unit (basics) - Annunciation and monitoring concept - Service unit and DIMAS introduction - DIMAS lients (TXSStatus, FDView, Eventlog) - Operating modes & parameterization - Practical exercises on some topics TXS-Diagnostics at the cabinet - Location and interpretation of indicators at the cabinet for troubleshooting - Module exchange and settings - Software loading - Practical exercises on some topics PREREQUISITES Basic knowledge of I&C and experience in digital automation systems are desirable. TXS basic knowledge is an advantage, however, not requisite. General basic knowledge of PC. 42

Training Center Germany TELEPERM XS-Maintenance HW2G/DIMAS (10 days) COURSE NUMBER L531.5 DURATION 10 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C maintenance personnel and I&C test and commissioning personnel CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the TXS basics, architecture and system properties Explain the concept and mechanism of TXS maintenance Explain the DIMAS functionality on the SU Use the different DIMAS clients for TXS diagnostics Use the TXS service unit for general and periodical maintenance Troubleshoot the TXS system and differentiate between hardware and software problems Monitor the TXS system, change parameters, secure and control the modifications Load and verify TXS software Perform independent troubleshooting on the TXS system Identify hardware problems and change the modules according the required procedures Document the fault fixing (e.g. fill out the return receipt correctly) CONTENT This course provides a detailed explanation of all necessary aspects and maintenance possibilities, with practical exercises and hands-on training for a deeper understanding. The main target is independent troubleshooting on a real system by replacing defective modules and subsequent setting up of the system. Troubleshooting starts as soon as an error appears (e.g. group alarm indication) and continues up to exchanging the defective module in the cabinet. The practical uses are first shown by the trainer. The participants then repeat what they have been shown under supervision and finally use what they have learnt in independent test tasks. The practical exercises aim to support what is learnt. The course covers the following topics in detail: TXS-Basics - System architecture - Hardware 2 nd Generation - System properties - SPACE editor TXS-Diagnostic with the Service Unit - Annunciation and monitoring concept - Service unit and DIMAS introduction - DIMAS clients (TXSStatus, FDView, Eventlog, DIMAS Shell) - Diagnosis with the service unit - Operating modes & parameterization - Scripts - Practical exercises on these topics TXS-Diagnostics at the cabinet - Location and interpretation of indicators at the cabinet for troubleshooting - Module exchange and adjustment - Software loading and PROFIBUS configuration - Practical exercises on these topics Diagnosis and maintenance at the training cabinet - Independent diagnostics at the service unit - Independent diagnostics at the training cabinet - Fault detection, module exchange, starting up the repaired system according to the actual TXS documentation rules. Technical documentation of the problem and preparing the defective module to the send back rules PREREQUISITES Basic knowledge of I&C and experience in digital automation systems are desirable. TXS basic knowledge is an advantage, however, not requisite. Python knowledge and general basic knowledge of PC. 43

Training Center Germany TELEPERM XS-DIMAS Fundamentals COURSE NUMBER L540.1 DURATION 3 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Customers and staff with a keen interest in the TXS safety I&C system and who want to acquire comprehensive knowledge in this field CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the co-operation between DIMAS (Diagnostic Maintenance Server), online system and the DIMAS clients Explain the basic functionalities of a service unit Explain the different operating modes Perform parameter changes Explain DIMAS clients and their functionalities Know about and work with DIMAS-PYTHON-API Implement DIMAS scripts based on Python programming language Implement graphical-service masks with DIMASQt. CONTENT This course handles the DIMAS functionality, Version 3.6.x, and explains which function DIMAS and the service unit perform. Including an explanation and practical exercises for the using, handling and performing of DIMAS clients. The Python programming interface is then explained with the help of DIMAS-PYTHON-API and practical exercises. The course covers the following topics in detail: Introduction to DIMAS Introduction to the service unit Principle of the TXS-service-concept (cooperation between DIMAS, Online System and DIMAS clients) Presentation of DIMAS-clients and their functionality (TXSStatus, FDView, EventLog and DIMAS-Shell) Introduction to the DIMAS-PYTHON-API (dimasutil) Introduction to operating modes and parameterization Implementation of Python scripts Implementation of graphical-service masks with DimasQt. Practical exercises PREREQUISITES Python knowledge is essential (e. g. Python basic course and/or Python advanced course). Basic knowledge of I&C and experience in digital automation systems are desirable, TXS basic knowledge is an advantage, however, not requisite, general basic knowledge of PC and LINUX. 44

Training Center Germany TELEPERM XS-Python for TXS COURSE NUMBER L540.2 DURATION 2 days PARTICIPANTS 6-8 people LANGUAGE German / English LOCATION AREVA GmbH Offenbach a. Main TARGET GROUP All employees working in the fields of Detail Design, V&V and commissioning on the TELEPERM XS system OBJECTIVES After attending this course, participants will be in the position to understand the basic concept, handling and the use of the object-oriented programming language PYTHON in connection with TELEPERM XS Core Software version 3.6.x and higher. Participants will be able to implement simple scripts with Python and carry out tasks in the software-oriented fields of engineering (Detail Design and V&V), commissioning and maintenance of I&C systems with TELEPERM XS equipped with Core Software Version 3.6.x or higher. In addition to the entry-level into the Python programming language, this course can be used as the basis and prerequisite for further courses, such as TXS-DIMAS, V&V, Test Bay and Maintenance. CONTENT After a basic introduction to the function and applications of the higher, interpreted and object-oriented programming language Python, the first steps for working with the different modules (DIMAS & Python-DB) and their functions are explained in the course. Furthermore, the different data types, control structures, operators, error handling and user interactions, up to basic script structure are investigated. The theoretical knowledge learned is consolidated by practical exercises. Thereby, reference is always made to the application of Python in the TELEPERM XS system so that participants can transfer what they have learned into practice. The course covers the following topics in detail: Overview, basics and operation of Python Data types (e.g. basis data types and dictionaries) Functions (e.g. strings, regular expressions, mathematical functions) User interactions Error handling DIMAS connection Basics of Python scripting Basics of the Python DB module Practical exercises PREREQUISITES General basic knowledge of PC and LINUX. Basics of programming for structured and object-oriented languages are desirable. Basic knowledge of engineering and/or maintenance of TELEPERM XS I&C is useful, but not necessary. CONTACT training@areva.com www.areva-training.de 45

Training Center Germany TELEPERM XS-Engineering Detailed Design COURSE NUMBER L631.1 DURATION 5 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C engineers, IT personnel QM and Training personnel, Qualification personnel CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the basic properties of TXS I&C systems with respect to system design, hardware and software Explain the most important process engineering steps and tools necessary for the engineering of TXS I&C systems List the tasks and contents of an I&C system requirements specification Independently generate application software with the SPACE engineering system and, in doing so, apply all SPACE tools requisite for the documentation, testing, verification and/or validation CONTENT In addition to a short introduction into the TXS basics, this course covers the most important elements of the TXS engineering process. It gives an overview of how to implement an I&C system specification, detailed engineering with software generation, verification and validation of the individual process steps and the accompanying engineering tools (SPACE tools). The validation tool SIVAT is also examined more closely. The course covers the following topics in detail: TXS basics - System architectures (system-specific applications) - Hardware and software - System properties TXS engineering process (overview) Overview of I&C system specification (level 1-4) SPACE function plan editor in detail SPACE database design (coding concept) Generation of an I&C system specification - Hardware specification with practical exercises - Software specification with practical exercises Application software coding by means of all SPACE tools necessary for the software detail planning (with practical exercises) Validation of the application software via SIVAT (overview and practical exercises) PREREQUISITES Basic knowledge of I&C and experience in digital automation systems is desirable. TXS basic knowledge (such as the prior completion of a TXS basic course) is not mandatory. 46

Training Center Germany TELEPERM XS-Engineering Detailed Design-Compact COURSE NUMBER L631.2 DURATION 3 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C engineering personnel, I&C test and commissioning personnel who have already attended TXS engineering course OBJECTIVES Upon successful completion of this course, participants will be able to: Explain the basic functions of the TXS function computer and the design of system architectures Explain the most important processes and tools necessary for the engineering of TXS I&C systems Explain the tasks of a process engineering and I&C function specification and implement it in a TXS system specification Independently generate application software with the SPACE engineering system and, in doing so, apply all SPACE tools requisite for the documentation, testing, verification and / or validation CONTENT This course is a refresher course and designed for those who have already participated in the engineering course L631.1 and who want to brush up the most important characteristics of TXS engineering in condensed form. The topics covered are essentially identical, however, they are addressed in a more condensed manner. The course covers the following topics in detail: TXS basics (refreshment of your knowledge about function computer, system architectures and system properties) TXS engineering process (concept) SPACE function plan editor Generation of an I&C system specification (hardware and software) Application software coding by means of all SPACE tools requisite for the SW detailed planning Practical exercises PREREQUISITES Good knowledge of the TXS system required and good skills in the field of TXS hardware and system design. CONTACT training@areva.com www.areva-training.de 47

Training Center Germany TELEPERM XS-SIVAT-V1.8 Verification and Validation COURSE NUMBER L632.1 DURATION 2 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP This course is targeted to I&C engineering personnel OBJECTIVES Upon successful completion of this course, the participants will be able to: explain the field of application of SIVAT in the engineering process and the concept and function of SIVAT generate a simulation code by using SIVAT create simulation scripts test and validate I&C functions by using the generated SIVAT code and simulation scripts CONTENT This course covers the function of SIVAT (Simulation based Validation Tool) and the generation of the SIVAT code. In addition, the course participants will learn how to work with SIVAT. They will learn to test and validate the engineered I&C functions in the software environment of SIVAT by using scripts. The course covers the following topics in detail: The purpose, principle and requirements of the SIVAT simulation Generation of simulation code for an exemplary project of simulator structure Graphical user interface of SIVAT Work with simulation scripts Signal manipulations and simulation of malfunctions Practical exercises PREREQUISITES A basic background in I&C and in electrical engineering. Experience with digital automation systems is desirable. TXS basic knowledge (such as participation in a TXS basic course) is mandatory, prior attendance of a TXS engineering course desirable. CONTACT training@areva.com www.areva-training.de 48

Training Center Germany TELEPERM XS-SIVAT-V3.6 Verification and Validation COURSE NUMBER L632.2 DURATION 3 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Customers and staff members with a keen interest in the TXS safety I&C system and who want to acquire comprehensive knowledge in this field CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Describe the purpose, principles and requirements of the SIVAT simulation Use the SIVAT user interface (3.6.x) Explain SIVAT Python API (3.6.x) Explain the cooperation between DIMAS and SIVAT objects Validate SIVAT test cases Write SIVAT Python test scripts CONTENT This course covers the function of SIVAT (SImulation based VAlidation Tool), release 3.6.x. Course participants will learn about the function fulfilled by SIVAT and how it is used in the engineering process. The SIVAT programming interface available in Python is subsequently explained by way of example. Based on this, the participants will validate an I&C function using the generated SIVAT code and SIVAT/Python test. The course covers the following topics in detail: Explanation of the field of application of SIVAT in the engineering process as well as the concept and function of SIVAT Writing of Python scripts by means of the SIVAT Python API Description of the cooperation between DIMAS and SIVAT objects Testing of I&C functions by using SIVAT Simulation of malfunctions Automation of test cases Operating principles Inclusion of external models Practical exercises PREREQUISITES Python knowledge is essential (e.g. Python basic course and/or Python advanced course). It is also recommended to attend the DIMAS course L540.1. Basic knowledge of I&C and experience in digital automation systems are desirable, TXS basic knowledge is an advantage, however, not requisite, general basic knowledge of PC and LINUX. 49

Training Center Germany TELEPERM XS-SYSADMIN-LINUX Fundamentals COURSE NUMBER L633.1 DURATION 2 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Technicians responsible for the administration of a TXS system OBJECTIVES The course emphasis lies on the tasks typically performed by system administrators, such as the tracking and repair of system problems or network administration. Upon successful completion of this course, course participants will be able to: Understand the basic functions of the TXS service unit and define and administer the necessary TXS hardware and software for a TXS service unit Independently execute and test TXS service unit software installations Carry out basic administrative tasks at a TXS service unit, such as the independent installation and configuration of users and printers, network configurations, administration of project data bases, updating of TXS software releases. CONTENT This course is built around the basics of the LINUX operating system and TXS software releases, higher than 3.3. By means of the TXS system (service unit and / or engineering system) course participants will learn how to set up and administer user, printer and licenses with LINUX and TXS. Furthermore, they will learn how to install a SUSE LINUX operating system and configure TXS software packages, create TXS user and groups with YaST system administration and work with the K Desktop Environment (KDE). The course covers the following topics in detail: Overview of TXS and LINUX Installation of SUSE LINUX KDE and LINUX concepts Installation of TXS user, groups and TXS software Configuration of TXS Installation testing Practical exercises CONTACT training@areva.com www.areva-training.de PREREQUISITES A basic background in I&C and computer technology as well as in the system administration of the operating system LINUX are mandatory. Experience with digital automation systems is desirable. Basic knowledge of TXS (such as the attendance of a TXS basic course) is necessary and prior completion of a TXS engineering course is desirable. 50

Training Center Germany TELEPERM XS-QDS Applications COURSE NUMBER L635.1 DURATION 2 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP I&C personnel, electrical, simulator and operator personnel OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the concept and mechanism of QDS Handle QDS, including the connection to a TXS system Use engineering tools such as QtDesigner, QDS_Gen, QDS_HMI and QDS_SU Monitor the connected TXS system Modify the parameter Download application on QDS hardware CONTENT This course offers an overview of the concept and function of a TXS QDS (Qualified Display System). Course participants will learn how a QDS system is integrated in TXS, and will design a QDS application using the QDS tools QDS_GEN, qtdesigner, QDS_HMI and QDS_SU. They will finally download their applications onto the QDS hardware which is connected to a TXS training cabinet. The course covers the following topics in detail: Hardware architecture Software architecture QDS in SPACE Engineering tools Designing displays Connecting of signals and HMI QDS service unit Practical exercise PREREQUISITES Basic knowledge of I&C and experience in digital automation systems are desirable, TXS basic or TXS engineering knowledge is an advantage, however, not requisite, general basic knowledge of PC. CONTACT training@areva.com www.areva-training.de 51

Training Center Germany TELEPERM XS-FunBase Applications COURSE NUMBER L640.1 DURATION 3 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Engineering staff, customers and regulatory boards who need to know how to produce and read level 3 and 4 documentation CONTACT training@areva.com www.areva-training.de OBJECTIVES After successful participation in this course, participants will gain a knowledge of: Structure, scope of functions and handling of the FunBase Connections of the functions with the production of the documentation Installation procedures and settings Handling of FunTools for function specifications with the user interface Design of flow charts Handling of FunQueries for specification of enhanced user data CONTENT This newly developed course provides an introduction and overview of the engineering tool FunBase (functional specification database). Participants gain a knowledge of the structure, functionality and handling of the tool and the connections between process engineering and instrumentation and control function engineering, which are generated in this new, own developed documentation form. Knowledge is expanded through practical exercises with the different project and documentation steps. The course discusses the following individual topics: Structure and scope of functions of the FunBase Scope of application Program installation and settings Explanation of flow chart symbols (overview) Definition of basic functions Functions for the production of level 3 - documentation Functions for the production of level 4 - documentation Functions for the production of documentation for modules and submodules Navigation in the documentation Practical exercises PREREQUISITES Basic knowledge of instrumentation and control technology and digital automation systems. Basic knowledge of TELEPERM XS (basic course) is desirable. General PC knowledge. 52

Training Center Germany TELEPERM XS-Test Bay and ERBUS COURSE NUMBER L720.1 DURATION 5 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Customers and staff with a keen interest in the TXS safety I&C system in Test Bay and who want to acquire comprehensive knowledge in this field OBJECTIVES Upon successful completion of this course, course participants will be able to: Carry out the Test Bay (concept and setup, test programs and test procedures) Determine the general ERBUS (Test System) concept and setup Explain the function and performance of the ERBUS - Simulation Control Unit (SCU), the Test Machine (TM) and the TEC (Test Equipment Controller) Introduce the ERBUS software tools for system tests Operate tests with ERBUS and DIMAS-PYTHON-API Implement I&C functionality test with ERBUS scripts based on Python programming language CONTENT The training course contains topics on the Test Bay, platform, resources required, test plan and procedure, test executions and conditions, expected results and how to perform the test itself. One of the main course key topics is the ERBUS Test system (Simulation Control Unit and TM), which is the main test system in the Test Bay. The trainee will learn the function and performance of the ERBUS and how to use the ERBUS system to simulate and record I/O signals and data for a TELEPERM XS I&C System under test (SUT). To do this, knowledge of the ERBUS hardware and software application is required, such as using the ERBUS Command Shell and the Python programming interface with the help of DIMAS- PYTHON-API as an example. I&C function test examples are discussed and carried out. The training course is based on ERBUS software version 3.6.x (SCU). The course includes theoretical and practical exercises for all the main topics in addition to the theoretical lessons. The course covers the following topics in detail: Test Bay concept and setup Test Bay equipment Test programs, procedures and implementation ERBUS Introduction, Test Machine (TM) and Simulation Control Unit (SCU) Hardware connection ERBUS and DIMAS using the ERBUS Shell Test of Signal Connections and I&C functionality with the help of Python scripts Theoretical and practical exercises CONTACT training@areva.com www.areva-training.de PREREQUISITES Python knowledge is essential (e. g. Python basic course and/or Python advanced course). Basic knowledge of I&C and experience in digital automation systems are desirable. TXS basic knowledge is an advantage, however, not requisite, general basic knowledge of PC and LINUX. 53

Training Center Germany TELEPERM XS-SPECIAL BASIC/ENG/MAINT/OPERATION COURSE NUMBER L831.1 DURATION 2 sessions of 5 days PARTICIPANTS 6 to 8 people LANGUAGE English / German LOCATION AREVA Training Center Offenbach TARGET GROUP Customers and staff members with a keen interest in the TXS safety I&C system and who require comprehensive knowledge in this field CONTACT training@areva.com www.areva-training.de OBJECTIVES Upon successful completion of this course, course participants will be able to: Explain the basic properties of TXS I&C systems with respect to system design, hardware and software Explain the most important process engineering steps and tools necessary for the engineering of TXS I&C systems List the tasks and contents of an I&C system requirements specification Work with the SPACE engineering tools and independently generate application software version 3.6.x Take first steps with the validation tool SIVAT Comment on the tasks of the service unit, work with the service tools (DIMAS/client applications) and carry out system diagnosis and maintenance Describe the basic characteristics of the test bay CONTENT This course offers a detailed insight into all fields of TELEPERM XS and is the most comprehensive TXS course in our range of courses offered. The following core topics will be dealt with: TXS basics, engineering, validation with SIVAT and maintenance with the service unit and an overview of the test field. The course duration is two sessions of 5 days, with a break of at least one week in between. The course covers the following topics in detail: Part 1 (first week) TXS basics (function computers and system architectures, 2 nd generation hardware; system properties) TXS engineering process (basics) Introduction to the I&C function specification (level 1-4); Using the SPACE function diagram editor FDE SPACE project database with hardware and software coding concepts Design rules in the SPACE project database Practical exercises to the hardware and software specification in the project database Software coding by means of the SPACE tools, practical exercises Part 2 (second week) TXS maintenance (annunciation and monitoring concept; diagnostics at the cabinet; introduction service unit and DIMAS; TXSStatus; diagnostics with the service unit; FDView, DIMAS Shell; operation and parameterization; EventLog; modul exchange and settings; software loading and verification; practical exercises) SIVAT introduction (SIVAT tasks and principles; graphical user interface; using SIVAT; visualizing and plotting results; automating a test case, practical exercises) TXS test bay (concept and setup, test programs and test procedures) PREREQUISITES Basic knowledge of I&C and experience in digital automation systems is desirable, TXS basic knowledge is an advantage, however, not requisite, general basic knowledge of PC and python knowledge are essential. 54

Training Center Germany Organization and Information Do you have specific training requirements? We can arrange a course for you according to your specific requirements. We are your point of contact, and offer help with questions about courses and organization. Course offer options It is essentially possible to add learning performance monitoring to all offered courses. Details of the possible options are available on request. Online offer/registration Information on course dates and prices can be found in our current course catalogue, at http://www.areva-training.de Please complete the registration form, and return it to us by e-mail, fax or post. AREVA GmbH Training Center Germany Kaiserleistraße 29 63067 Offenbach E-Mail: training@areva.com Tel.: +49 69 2557 34567 Fax: +49 69 2557 31868 Our website offers tips on travel and accommodation near the training location. 55

Epr technology SYSTEMA EPR ELECTRA EPR PHYSICA EPR EPR 2 days EPR 5 days EPR 6 weeks (Reactor Design and Operation) 56

SYSTEMA EPR TECHNOLOGY This training provides the basic knowledge of principal systems of the EPR It is dedicated to a large public who need a global knowledge of the EPR. DURATION 5 Days LANGUAGE English, French PARTICIPANTS 8-12 LOCATION Paris La Défense AREVA Tower You are An engineer and/or technician involved in studies or activities relative to the normal or accidental conditions. Interested by a practical training on simulator Prerequisites No technology prerequisites Professional English. It is the 1 st training of the serial SYSTEMA / ELECTRA / PHYSICA After the training, you will be able to Describe the architecture of the reactor EPR Describe the design principles of the main systems and circuits (primary, auxiliary, secondary and safeguard) of the reactor EPR by explaining their role in normal and accidental conditions Course strengths Lecture by specialists, Share of experiences, Practical training on simulator SOFIA Visualisation on 3D-Model 57

SYSTEMA EPR TECHNOLOGY Agenda Mornings Theoretical courses: Reactor coolant system, Auxiliary systems : CVCS, RHRS. main regulations. operating mode, safeguard systems : SIS, CHRS, EFWS, EBS. Design principles of the NSS protection system Afternoons Applications on SOFIA simulator: Operation from cold shutdown to hot standby Practical exercise on regulations Load follow up (T operating mode) Systems operation in LOCA (Loss of Coolant Accident) Systems operation in SGTR (Steam Generator Tube Break). 58

ELECTRA EPR TECHNOLOGY This training provides a good knowledge of EPR operation in case of normal and abnormal condition. You are An engineer with 1 year experience of PWR and involved in studies or activities related to reactor control. DURATION 5 Days LANGUAGE English, French PARTICIPANTS 8-12 LOCATION Paris La Défense AREVA Tower Prerequisites Basic knowledge of PWR systems Professional English Basic knowledge of ECS (EDF Coding Systems) code is desirable During the training, you will Understand EPR reactor Normal Operation features Practice on Engineering Simulator After the training, you will be able to Analyse plant status according to Operating Technical Specifications Describe different actions to operate EPR reactor between cold shutdown to 100% PN Course strengths Lecture by specialists and experts, Share of experiences, Practical training on simulator SOFIA 59

ELECTRA EPR TECHNOLOGY Agenda Content All main steps from cold shutdown to 100% power. Reactor control and technical operations Reactivity control mode T Normal operating procedures Specific regulations Criticality 60

PHYSICA EPR TECHNOLOGY This training provides a good knowledge of the physical phenomena during the accidental transients of the EPR reactor. DURATION 5 Days LANGUAGE English, French PARTICIPANTS 8-12 LOCATION Paris La Défense AREVA Tower You are An engineer and/or technician with a good experience of Pressurized Water Reactor requiring to increase their knowledge of the physical phenomena during the accidental transients. A design and/or safety engineer, trainer or operating engineer Interested by a practical training on simulator Prerequisites Sufficient knowledge of PWR technology Professional English Basic knowledge of EPR systems is desirable (SYSTEMA EPR ) Basic knowledge of ECS (EDF Codding Systems) code is desirable It is the 3rd training of the serial SYSTEMA / ELECTRA / PHYSICA After the training, you will be able to Describe the dynamics of the EPR by studying the physical phenomena and the interactions between the systems in abnormal or accidental conditions Course strengths Lecture by specialists, Share of experiences, Practical training on simulator SOFIA Visualisation on 3D-Model 61

PHYSICA EPR TECHNOLOGY Agenda Content Accidents of the primary circuit : LOCA (Loss of Coolant accident), LOCA at shutdown Accidents of the secondary circuit : SLB (Steam Line Break), FWLB (Feed Water Line Break) and SGTR (Steam Generator Tube Rupture) Accidents of reactivity Perturbation of primary flow Asymmetric states PSA (Probabilistic Safety Assessment) Severe accidents 62

EPR Technology- 2 days This training is dedicated to a public who knows Generation II PWR and interested to EPR reactor specificities. DURATION 2 Days LANGUAGE English, French PARTICIPANTS 8-15 LOCATION Paris La Défense Lyon External places You are An engineer or technician having good knowledge of the systems and the equipment of pressurized water reactors, and avid to acquire the knowledge linked to the specificities of the EPR reactor Prerequisites Sufficient knowledge about PWR technology After the training, you will be able to Describe the main design characteristics of the EPR reactor Acquire the knowledge linked to the main design characteristics of the EPR reactor Course strengths Lecture by specialists, Share of experiences, 63

EPR Technology- 2 days Agenda Day 1 Day 2 EPR reactor design basis Core Design and Control Primary Component Design Auxiliary Systems Safeguard Systems I&C Systems EPR reactor design basis 64

EPR Technology 5 days This training provides EPR reactor features. It is dedicated to a large public who has a basic knowledge on PWR and interested by new build projects. DURATION 5 Days LANGUAGE English, French PARTICIPANTS 10-15 LOCATION Paris La Défense You are an engineer who participates in all phases of new build projects: design, construction, commissioning, maintenance & operation an engineer with experience in pressurized or boiling water reactor technology who wants to discover EPR reactor specific features Prerequisites Sufficient knowledge about PWR technology After the training, you will be able to Describe the function and operating modes of EPR reactor systems and their main components Outline EPR reactor safety concept Course strengths Lecture by specialists and experts, Share of experiences, 65

EPR Technology 5 days Agenda Day 1 Safety and design philosophy Fundamental safety objectives Fundamental design principles Role of probabilistic approach in design Safety during operation Nuclear technical solutions of EPR TM reactor Day 2 - Primary circuit Primary system overview Advanced EPR TM reactor components Nuclear reactor Functionality of pressurizing system Operating modes of the primary system Day 3 - Heat transfer between primary and secondary circuit Power interface steam generator Operation of the steam generators Main associated systems Overview of Chemical and Volumetric Control System Day 4 - Auxiliary system Part 2 Fuel pool cooling and purification Overview of EPR TM reactor safeguard systems Loss of coolant accident events Other safety relevant systems Day 5 - Electrical production and distribution Design requirements for electrical production and distribution in a NPP Auxiliary power supply in a NPP Interruptible emergency power supply Overview I&C architecture EPR TM reactor Instruments and actuators 66

EPR REACTOR Design & Operation This training provides the large knowledge of the EPR. It is dedicated to design, safety and control engineers. You are DURATION 30 days LANGUAGE English, French PARTICIPANTS 6-12 LOCATION Paris La Défense AREVA Tower design, safety, control or commissining engineers needing a detailed view of the EPR. This 6 week course is illustrated on Olkiluoto-3, Flamanville-3 and Taishan-1 & 2. Prerequisites Sufficient knowledge of PWR technology. Technical English After the training, the trainee will be able to Describe nuclear energy in detail (theory of neutronics, physics, thermal, thermodynamics and chemistry). Describe all main circuits and auxiliary and safeguard system, with their operation and control of the EPR. Course strengths Lecture by specialists, Illustrating Examples, Share of experiences with specialists. 67

EPR REACTOR Design & Operation Agenda Day 1 Day 2 Day 3 Day 4 Day 5 Day 6 Day 7 Day 8 Day 9 Day 10 Presentation of EPR reactor Identification system for plants-kks Commissioning Revision of nuclear physics, interaction neutron-matter Reactivity, power distribution Parameters acting in reactivity: reminder, long term effects Parameters acting on reactivity: mid term, short term effects Core design-the core and its surrounding Learning progress control Core design- the core and its surrounding Reactor kinetics and residual power Core instrumentation-needs for core instrumentation Core instrumentation- Core instrumentation in EPR (ex-core detectors, in-core detectors and aeroball measurement system) Plant life management (transient accounting) Technical specifications reactor modes Nuclear safety Fuel Core loading Fuel Handling systems The core physic test Reactor cooling pumps 68

EPR REACTOR Design & Operation Agenda Day 11 Day 12 Day 13 Day 14 Day 15 Day 16 Day 17 Day 18 Day 19 Day 20 Fundamentals of thermodynamics Steam generator Water chemistry nuclear island Secondary side chemistry Thermal hydraulics Reactor cooling system Primary and secondary control channels T mode core control Safety Injection System, Residual Heat Removal System, In-containment Refueling Water Storage Tank Containment Heat Removal System Loss Of Coolant Accident Main Steam Supply System Main Feedwater System Main Steam Line Break Extra Borating System Fuel Pool Cooling and Purification System Electrical Power Supply system Instrumentation and Control: level 2 Reactor pressure vessel measurement system 69

EPR REACTOR Design & Operation Agenda Day 21 Day 22 Day 23 Day 24 Day 25 Day 26 Day 27 Day 28 Day 29 Day 30 Emergency feedwater system Steam generator blowdown system and demineralizing system Steam Generator Tube Rupture Chemical Volume Control System Reactor Boron and water makeup system Coolant Degasification System Coolant Purification System Coolant Supply and Storage System Coolant System Treatment Gaseous Waste Processing System Heating Ventilation Air Conditioning Turbine hall and its control channels Shutdown and startup operation EPR restart-up procedure Component Cooling Water System Essential Service Water System Reactivity accidents Functional aspects of the protection system: Primary and Secondary Hardware back-up system Post-accidents I&C functions DEC-A functions Primary and Secondary limitation functions Core related I&C functions Protection systems: core related functions Severe accidents Emergency plant operating procedures Round table: analysis of the training session 70

CODES AND STANDARD Introduction to the RCC-E Introduction to the RCC-M Introduction to the code ASME Introduction to the RCC-MRx IEEE 71

RCC-E (Codes and Standards for Electrical Equipments) This 1-day training describes the different chapter of RCC-E and highlights its specificities DURATION 1 Day LANGUAGE English, French PARTICIPANTS 15-20 LOCATION According to customer s request You are Engineers that are dedicated to the design of the nuclear island, involved in the rules of study and manufacturing for the electrical components. Prerequisites Sufficient basic knowledge about electricity and electronic. After the training you will be able to To distinguish RCC-E Code specificities and its standards To describe RCC-E Code structure, its concept of qualification and its specificity of design. Course strenghts Lecture by AFCEN certified specialists Global view of code specificities Label 72

RCC-E (Codes and Standards for Electrical Equipments) AGENDA Day 1 General presentation of RCC-E Why RCC-E has been issued? History of RCC-E, Presentation of AFCEN, Evolution, modifications and interpretation of RCC-E, Structure of RCC-E, For whom is intended the RCC-E? RCC-E scope, applicability of RCC-E, Book of project data, Applicable standards. Quick overview of each section Section A General and quality requirements, Section B Qualification and approval, Section C Functional system design, Section D Installation, Section E Constituent parts of equipment, Section MC Verification and testing methods. RCC-E qualification concept Conditions for using an equipment for a safety function, Processing of equipment modification after qualification, Required conditions for qualifying an equipment, Qualification methods and qualification practices, Qualifications procedures (Normal conditions, K3, K2, K1 and SA), Environmental conditions, Tests defined in section MC. Qualification documentation according to RCC-E Identification and reference files, Qualification programme, Test and qualification reports. Design requirements of RCC-E Software requirements, Earthing (design requirements, earthing network, installation), Marking and identification for cables. Answer to questions 73

Introduction to the RCC-M code This training provides the basic knowledge of the RCC-M code (Design and Conception Rules for Mechanical Components of PWR Nuclear Islands). It is dedicated to a large public who needs to use the code. You are DURATION 4 days LANGUAGE French, English PARTICIPANTS 10-15 LOCATION According to customer s request Engineers working on mechanical components of the nuclear island. Managers, technicians and sales engineers needing to understand the RCC-M code s applications. Prerequisites No prerequisite. After the training, you will be able to Explain the codified rules origin, Describe the RCC-M code organization, Describe the relations between the different rules, how they are linked to the technical specifications and how they can evolve, Browse the code to find the appropriate rules. Identify the differences between the RCC-M code and other codes and standards. Label Course strengths Lecture by specialists, Share of experiences, Illustrating examples and exercices. 74

Introduction to the RCC-M code Agenda DAY 1 _ General introduction and design Introduction, generalities and code s organization, Design rules and Failure modes. DAY 2 _ Focus on materials and manufacturing Materials and procurement, Manufacturing and welding. DAY 3 _ Focus on quality and other codes Comparison RCC M-ASME, European Standards, Codes and examples, Quality Assurance. DAY 4 _ Focus on non destructive testing and Code evolution Non Destructive Examination, Evolution and implementation of Code. 75

Introduction to the ASME Code This training provides the basic knowledge of the ASME code (ASME Boiler and Pressure Vessel Code). It is dedicated to a large public who needs to use the code. You are DURATION 4 days LANGUAGE English, French PARTICIPANTS 10-15 LOCATION According to customer s request Engineers working on mechanical components of the nuclear island. Managers, technicians and sales engineers needing to understand the ASME code applications. Prerequisites No prerequisite. After the training, the trainee will be able to Describe the ASME Boiler and Pressure Vessel Code organization, Describe the relations between the different rules and how they are linked to the technical specifications, Browse the code to find the appropriate rule, Present the interaction between the code sections, in particular those applied to Nuclear Pressure Equipments, Identify the differences between the ASME code and the other codes and standards. Course strengths Label Lecture by specialists, Illustrating Examples and quizz, Share of experiences with specialists. 76

Introduction to the ASME Code Agenda PART 1 _ General introduction and design Overview of ASME, Overview of the ASME B & PVC, Section III Rules for Construction of Nuclear Facility Components-NCA & NB 8000, Section III Rules for Construction of Nuclear Facility Components-Nx 1000-3000-7000. PART 2 _ Focus on materials and manufacturing Materials Section II, Materials Section III Nx 2000, Manufacturing Section III Nx 4000, Welding Section IX. PART 3 _ Focus on inspection and testing Examinations Section V, Overview of In service Inspection and Testing (ISI and IST), Overview of Section XI. PART 4 _ Focus on pressure vessels and other codes Overview of Section VIII Construction of Pressure Vessels, Comparison of ASME with RCC-M, ASME Code integration in AREVA. 77

Introduction to the RCC-MRx code This training provides the basic knowledge of the RCC-MRx code (Design and Construction Rules for mechanical components of nuclear installations applicable for high temperature structures and ITER vacuum vessel). It is dedicated to a large public who needs to use the code. DURATION 3 days LANGUAGE English, French PARTICIPANTS 10-15 LOCATION According to customer s request You are Engineers working on mechanical equipments and irradiation experimental devices used in Research Reactors. Managers, technicians and sales engineers needing to understand the RCC-MRx code s applications. Prerequisites No prerequisite. After the training you will be able to Explain the codified rules origin, Describe the RCC-MRx code organization, Describe the relations between the different rules and how they are linked to the technical specifications, Browse the code to find the appropriate rules. Course strengths Label Lecture by specialists, Share of experiences, Illustrating examples. 78

Introduction to the RCC-MRx code Agenda DAY 1 _ General introduction, safety General presentation of RCC-MRx Code and of its context, Link between Safety Class and quality level of the Code, General design and analysis rules. DAY 2 _ Focus on design, materials and procurement Piping and piping support design rules, Product Supplying part 1, Product Supplying part 2, Characteristics of materials and welded joints. DAY 3 _ Focus on manufacturing and testing Welding, Fabrication, Examination Methods, Practical use and encountered difficulties. 79

IEEE (Institute of Electrical and Electronics Engineers) This 2-day training describes the different chapter of IEEE Code and highlights its specificities DURATION 2 Days LANGUAGE English, French PARTICIPANTS 15-20 LOCATION According to customer s request You are Engineers dedicated to the design of the nuclear island, involved in the rules of study and manufacturing for the electrical components. Prerequisites Sufficient basic knowledge about electricity & electronics. After the training you will be able to Estimate IEEE code specificities, its standards, its structure, its concept of qualification and its specificity of design. Course strengths Lecture by specialists, Global view of the code. 80

IEEE (Institute of Electrical and Electronics Engineers) AGENDA Day 1 Introduction to Course Overview of IEEE (organization, not standards) Overview of IEEE Standards Overview of Basic Nuclear Standards Day 2 Continue Overview of Basic Slides, w/focus on EQ Rule and Regulatory Requirements European and US Global Code Comparisons Integration: How we integrate this into our work at AREVA, specifically to address the US EPR Questions / Answers 81

Technical interventions on site and professional trainings

Technical interventions on site And professional trainings Cleanup and dismantling Knowledge Management Measure Non destructive control Operations on nuclear sites Ventilation Welding 83

Cleanup and Dismantling PROFESSIONAL TRAINING PATH CLEANUP DISMANTLING GLOVE BOX «PPADBAG» A training path aiming to acquire specific skills allowing to access one or many specialities of the job Intervention Worker and to acquire the required basic knowledge (classical and radiological risks prevention, waste management, dress/undress techniques, Radioprotection/detection basics, different types of confinement, contained handling, dismantling techniques and tools, cleanup operations, glove box drilling and panel change, decontamination criteria and techniques, use and management of operations documentation) Trainings developed in this training path: Decontamination processes Nuclear containment Contained handling Dismantling techniques Cleanup operations and glove box panel drilling Glove box panel change Intervention in a hostile environment Cleanup and dismantling operation documentation study Radioprotection and detection Waste management - AREVA CEA sites CQPM N 222 - DECONTAMINATION AND DISMANTLING TECHNICIAN IN THE NUCLEAR SECTOR (Criticality, safety culture, dress and undress techniques MAR 95, radioprotection and detection, dismantling techniques, documentation management, waste management, decontamination techniques, remote monitoring operations, glove box techniques) CQPM N 224 - CLEANUP OPERATOR IN A SENSITIVE ENVIRONMENT (Criticality, safety culture, dress and undress techniques MAR 95, radioprotection and detection, dismantling techniques, documentation management, waste management, decontamination techniques) 84

Knowledge management KNOWLEDGE MANAGEMENT TUTOR (COMPANIONSHIP) Tutor Experienced master Tutor for trainee Tutor companionship Tutors TRAINER Occasional trainers Trainers EXPERTS Build your expertise transfer project 85

MEASURE MEASURE Theory and implementation of ISO 11929 standards with GENIE 2000 software Physical principles and introduction to spectrometry ALPHA Physical principles and introduction to spectrometry GAMMA Algorithm used with GAMMA spectrometer 86

Non destructive control - CND - NON DESTRUCTIVE CONTROL Non destructive control welding technology Liquid penetrant inspection PT1 Liquid penetrant inspection PT2 Re-training liquid penetrant inspection PT2 Magnetic particle inspection MT2 Re-training magnetic particle inspection MT2 Ultrasonic inspection TOFD Ultrasonic inspection UT2 Mod. 1 Ultrasonic inspection UT2 Mod. 2 Re-training ultrasonic inspection UT2 Visual inspection VTI2 CQPM N 0186 CONTROL OPERATOR IN THE INDUSTRY OPTION (CND) NON DESTRUCTIVE CONTROL 87

OPERATIONS ON NUCLEAR SITES CQPM N 263 (Certificate of joint qualification in metallurgy) - OPERATOR ON NUCLEAR SITES LEVEL 1 Qualifying knowledge path certified by the metallurgy occupational branch aiming at providing basic knowledge in the nuclear sector (regulatory and safety aspects, knowledge on various technical interventions on site, understanding and respecting applied procedures and rules on safety). Examples of trainings provided: Nuclear site and outages Fuel technology Intervention organization - Level 1 Welding materials technology and Non destructive control Plan reading initiation CQPM N 0156 - (Certificate of joint qualification in metallurgy) WORK SUPERVISOR IN THE NUCLEAR SECTOR LEVEL 2 Qualifying knowledge path certified by the metallurgy occupational branch aiming at providing basic knowledge in the nuclear sector (regulatory and safety aspects, knowledge on various technical interventions on site, understanding and respecting applied procedures and rules on safety, implementation and coordination of works on site, team management). Examples of trainings provided: Intervention organization - Level 2 Nuclear tank lid Opening and closing Nuclear steam generator maintenance Isometric representation reading Nuclear quality safety Radiological cleanliness Radioprotection et nuclear logistic 88

Ventilation VENTILATION Nuclear ventilation General principles Nuclear ventilation Diagnostics and tuning 89

WELDING WELDING Welding generalities CQPM N MQ 2011 0657 00 42 INDUSTRIAL WELDER CQPM N MQ 1991 11 69 0093 INDUSTRIAL PIPE FITTER 90

Industrial Welding Program EDUCATIONAL OBJECTIVES At the end of the training, the trainee will be able : To identify the specificities of the various welding techniques and processes. To master the fundamentals of welding metallurgy, non-destructive testing's, welding codes and standards. PUBLIC Engineers et technicians with mechanical or materials degree. Design, methods, engineering, projects offices PRE REQUISITES Knowledge in mechanics and materials. DURATION 5 days, 35 hours. NUMBER Of PARTICIPANTS 8 minimum and 12 maximum. Welding generalities. TIG MAG EE welding. Submerged arc welding and coating. Welding real time means of control. Welding metallurgy. Defects in welds. Non-destructive testing means. Codes and standards. Welding New processes. Welding simulation numeric. CONTENT MEANS Pedagogical : Theoretical lectures. Practical implementations (TIG, coated electrode welding), demonstrations. Technical : Equipped training class. Welding tests platform, laboratories. Visit of Saint Marcel site (AREVA). Trainee submission file. Trainers : Engineers with welding degree, welding Technicians, Engineers in materials. EVALUATION : Formative evaluation during the training. VALIDATION : Certificate at the end of the training program. 06/2014 For inscription, Consult our planning and contacts on http://www.trihom.fr" 91

VOCATIONAL TRAININGS

VOCATIONAL TRAININGS Common trainings for operators in the nuclear industry (CIN) Competent radiological protection person (CRPP) Handling Transport Risks Prevention (CEFRI) Security Electricity Support Safety Radioprotection Technical Training (STARS) 93

common TRAININGS for operators in the nuclear industry -CIN - Additional training in Safety and Quality Re-training Additional training in Safety and Quality Radioprotection Level 1 Option Nuclear Reactor Re-training Radioprotection Level 1 Option Nuclear Reactor Radioprotection Level 2 Option Nuclear Reactor Re-training Radioprotection Level 2 Option Nuclear Reactor Nuclear common knowledge Level 1 Bridge training Radioprotection Level 1 Option Nuclear Reactor Re-training Nuclear common knowledge Level 1 Nuclear common knowledge Level 2 Re-training Nuclear common knowledge Level 2 Additional trainings: Ventilated helmet and suit dressing and undressing Bolted joints isolation Sodium Risks prevention 94

COMPETENT RADIOLOGICAL PROTECTION PERSON - CRPP - Competent radiological protection person - Theory Competent radiological protection person - Option sealed and unsealed radioactive sources, particle accelerators and X-Ray-emitting electrical equipments Competent radiological protection person - INB ICPE sector - Option sealed and unsealed radioactive sources, particle accelerators and X-Ray-emitting electrical equipments Competent radiological protection person - Industrial and research sector - Option unsealed radioactive sources Competent radiological protection person - Industrial and research sector - Option sealed radioactive sources, particle accelerators and X-Ray-emitting electrical equipments Competent radiological protection person - Practical Industrial and research sector - Option unsealed radioactive sources Competent radiological protection person - Practical Industrial and research sector - Option sealed radioactive sources, particle accelerators and X-Ray-emitting electrical equipments 95

HANDLING - TRANSPORT HANDLING SWING BRIDGE - SLINGER Bridge operator theory Slinger Supervisor Bridge operator practical Slinger supervisor beginner Bridge operator practical Slinger qualified supervisor Bridge operator test Slinger Supervisor Bridge Slinger test : CAUSPR test Bridge operator test (in cabin) according to R423 standards CACES (safe driving aptitude certificate) Mobile Elevating Work Platform MEWP theory Mobile Elevating Work Platform MEWP practical for novice driver Mobile Elevating Work Platform MEWP practical for qualified driver CACES MEWP Category 1B test CACES MEWP Category 3B test Electrical pallet truck Fork-lift truck - Theory Fork-lift truck Practical for novice driver Fork-lift truck Practical for qualified driver CACES Fork-lift truck Category 1 test Test CACES Fork-lift truck Category 2 test Test CACES Fork-lift truck Category 3 test Test CACES Fork-lift truck Category 4 test Test CACES Fork-lift truck Category 5 test TRANSPORT and STOWAGE TRANSPORT: Dangerous goods transport - Module A Dangerous goods transport - Module B Dangerous goods transport - Module C Dangerous goods transport - Class 7 STOWAGE: Cargo securing for road transport 96

RISKS PREVENTION - CEFRI - Fuel cycle CEFRI CC : Risks prevention Level 1 Option Fuel Cycle Re-training risks prevention Level 1 Option Fuel cycle Bridge training risks prevention Level 1 Option Fuel cycle Risks prevention Level 1 Option Uranium cycle Re-training risks prevention Level 1 Option Uranium cycle Bridge training risks prevention Level 1 Option Uranium cycle Fuel cycle - Additional trainings Criticality Dress and undress techniques - Marcoule site Dress and undress techniques MAR95/PK17 - La Hague site Collective risks prevention GBII Site GBII Installation Research centre CEFRI CR : Risks prevention Level 1 Option Research centre Re-training risks prevention Level 1 Option Research centre Bridge training risks prevention Level 1 Option Research centre Research centre - Additional trainings Dress and undress techniques MAR95/PK17 - Research centre Embarked nuclear reactor CEFRI RNE : Risks prevention Level 1 Option Embarked nuclear reactor Re-training risks prevention Level 1 Option Embarked nuclear reactor Bridge risks prevention Level 1 Option Embarked nuclear reactor 97

C025 Risks Prevention Level 1 Option CC (Fuel Cycle) ACCORDING TO CEFRI/SPE-F-0411 SPECIFICATIONS. TARGET Operators with no responsibility for operations modifying the existing radiological conditions in installations linked to the back-end of the fuel cycle. PREREQUISITE Be able to read, write and speak French. DURATION 5 days, 35 hours. NUMBER OF PARTICIPANTS 12 maximum. PEDAGOGICAL OBJECTIVES After the training, the trainee will be able to : Locate himself in his working environment. Evaluate the consequences of the radiological risk. Prevent the risks. Enter and circulate in Restricted Zone, respecting the access authorizations. Operate in a Restricted Zone, adopting the required behavior on site. Exit the site, the Restricted Zone and the installation. React in case of a deteriorated situation. CONTENT Origin and consequences of the radiological risk. Entrance and exit of a Restricted Zone. Safety organization. Irradiation and contamination. Radioactive wastes. ALARA principle and its implementation. Classical risks prevention. Training Mockup : Entry and exit of RZ, measures et equipments demonstration, implementation of dressing and undressing techniques, intervention. MEANS Pedagogical : Theory, exercises and practical trainings in order to develop the necessary knowledge and interpersonal skills to adopt the correct behavior during actual working situations. Technical : Training room equipped with video projector, paperboard. Training mockup according to CEFRI specifications. Staffing : Training Company and trainers certified CEFRI option CC (Fuel Cycle). EVALUATION : Control of knowledge on training mockup and by filling up a multiple choice exam. VALIDATION : Training certificate (validity 3 years). Exam can be retaken if reservations are expressed. C025_4 05/2014 For inscription, consult our planning and contacts on http://www.trihom.fr" 98

SECURITY - ELECTRICITY SECURITY HEALTH AND SAFETY First-aid worker Re-training first-aid worker Gesture and posture WORK AT A HEIGHT Safety harness wearing Work at a height FIRE Self-contained breathing apparatus (SCBA) wearing Re-training SCBA Fire extinguishers use ELECTRICITY Electrical safety B0 H0 H0V Operator and supervisor for non electrical work Electrical safety BS/BE Replacement and connection work supervisor Electrical safety generalities Electrician Electrical safety generalities Electrician - E-Learning Electrical safety B1/B2/B1V/B2V Test Operator and supervisor Electrical safety BR/BC Intervention and lockout supervisor Re-training Electrical safety B0 H0 H0V Non electrician operator and supervisor Electrical safety generalities Non electrician Electrical safety generalities Non electrician - E-Learning 99

SUPPORT SAFETY RADIOPROTECTION TECHNICAL TRAINING - STARS - STARS TC - Common knowledge STARS 1 - Workers Entry/Exit STARS 2 - Equipment Entry/Exit STARS 3 - Workshops STARS 4 - Radioprotection support STARS 5 - Fire safety support STARS 6 - Dresser Undresser and control gate keeper STARS 7.1 Operator - Transport chocking bracing STARS 7.1 Manager - Transport chocking bracing 100

T raining terms & CONDITIONS 101

TRAINING TERMS & CONDITIONS Areva University 1. INTRODUCTION The AREVA University (hereafter referred to as AREVA ) is a training organization headquartered at Tour AREVA, 1 Place Jean Millers 92084 Paris La Défense Cedex, France ; its registration number by the Préfet de région de Provence-Alpes-Côte d Azur is 93 13 13274 13. AREVA creates, proposes and provides inclassroom teaching, out-of-classroom teaching in the form of e-learning and blended courses which are a combination of the two. AREVA also conducts corporate operational consulting assignments and studies (all the training services provided by AREVA are hereafter referred to as the AREVA Offer ). The terms and conditions for these services shall be agreed upon by the parties in what is hereafter referred to as the "Contract". 2. PURPOSE These terms and conditions apply to the entire AREVA s Offer and relate to Contracts placed with AREVA by all professional customers (hereafter referred to as the Customer ). By signing the Contract, the Customer agrees to unreservedly abide by these terms and conditions in their entirety. No conflicting conditions, notably general or particular conditions put forward by the Customer, shall prevail over the present sales conditions, regardless of when they were brought to the attention of AREVA. AREVA s failure at any time to take advantage of one of the present conditions shall not be interpreted as relinquishment of the right to take advantage of it at a later date. The Customer undertakes that all its employees and agents shall comply with these sales conditions. The Customer also acknowledges that, prior to placing an order; it will have received adequate information from AREVA enabling it to ensure that the AREVA Offer meets its requirements. 3. TRAINING TYPE 3.1. Description The provisions in this section apply to the training program comprising in-classroom or out-of-classroom teaching courses. It is intended for individual learners, or group learners in case of tailored-made training. It takes place in France or abroad, in AREVA s premises or in premises provided by AREVA or by the Client or in premises visited upon authorization granted to AREVA. 3.2. Financial conditions All prices, expressed in euros, are firm and nonnegotiable and correspond to the services described in the AREVA Offer only. Any additional services requested by the Customer as extra not described in the AREVA Offer shall be paid for by the Customer directly to the service provider. Prices are shown pre-tax; VAT should be eventually added at the applicable rate. Any taxes, or customs or import duties, as well as bank charges resulting from the payment method used shall be borne by the Customer. Training programs shall be paid to AREVA in full on registration, except in case of tailored-made training. No refunds shall be awarded for uncompleted programs. Page 1 on 2 Unless otherwise stated, the payment conditions shall be as follows: payments shall be made by the Customer within 30 (thirty) days of the invoice date at the latest, payment shall be made by bank wire transfer, no discount shall be given for early payment. In the case of overdue payment, AREVA may suspend all ongoing Contracts and inhibit access to the E-learning module, without relinquishing the right to take any other action. All amounts outstanding on the due payment date shall, by right and with no formal demand, give rise to late payment penalties equal to one and a half times the legal interest rate on a pro rata basis every calendar month. AREVA may suspend the service until it has received payment in full and obtain payment through the courts at the Customer s expense without this affecting any other damages which could be due to AREVA. 3.3. Contract documents This article does not apply to the case of the tailored-made training for a specific Contract has been signed. For every registration, an agreement with the value of a contract is drawn up according to the laws in force and systematically sent to the Customer which shall return it 30 calendar days later at the most, with the handwritten words signed as agreed and the signature of the authorized person, along with all the required documents and information. The contract is considered to have come into force on receipt by AREVA of this agreement, duly completed, and signed (hereafter referred to as the Contract ). The Contract shall come into force at the latest 30 (thirty) calendar days after the registration date or before the training start, whichever is the earliest date, failing which the registration may be unilaterally cancelled by AREVA without any prior notification to the Customer and with no payment of compensation to the Customer. An attendance certificate shall be sent to the Customer at the end of the program. 3.4. Replacement of a participant AREVA accepts that a participant who is prevented from attending the course can be replaced by another participant with the same profile and the same training requirements, and who is available on the reserved dates. Participants can be replaced until the registration closure or 30 (thirty) calendar days before the foreseen start of training. Beyond that date, no modifications shall be possible in view of the site access formalities to be completed. 3.5. Cancellation by the Customer The in-classroom teaching dates cannot be modified. If the Customer cancels its participation, the following compensatory fees shall be due: cancellation notified 45 (forty-five) calendar days before training start: 30% of the cost of the session shall be due by the Customer, cancellation notified between 45 (forty-five) and 30 (thirty) calendar days before training start: 70% of the cost of the session shall be due by the Customer, cancellation notified after the registration closure or less than 30 (thirty) calendar 102 days before the training start, whichever is the earliest date: the cost of the session shall be due in full by the Customer, no-show of the participant: the cost of the session shall be due in full by the Customer. 3.6. E-learning 3.6.1. Description E-learning is the term used to describe out-ofclassroom teaching provided in the form of one or more teaching module(s) which is(are) accessed in a secure electronic environment. In that frame, AREVA therefore gives the Customer: access to the AREVA e-learning management website service for the end user (hereafter referred to as the User ), defined as being any physical person with an user account enabling him/her to access the module(s), a number of Users laid down in the Contract, the module(s) access rights laid down in the Contract. 3.6.2. Accessing the training On receipt of the Contract, AREVA shall send a login and a password to the User s e-mail address, giving him/her access to the module(s) in the Contract. Unless otherwise indicated, these rights are granted from the date of acknowledgement of the access confirmation e- mail sent by AREVA until the end of the current calendar year, when the access rights will be removed. The Contract cannot be cancelled once the User has used the login and password to access the AREVA e-learning management website. 3.6.3. User scope Barring any particular conditions expressly agreed on by AREVA, notably concerning affiliated companies within a group of companies, the module user rights are granted exclusively to the Customer which signed the Contract. 3.6.4. Personal user rights The login and password sent to the User by e- mail constitute sensitive, strictly personal and confidential information, and are under the sole responsibility of the Customer. As such, they cannot be transferred nor sold nor shared. The Customer shall guarantee AREVA that this clause shall be complied with by all Users and shall be accountable for any fraudulent or abusive use of the access codes. The Customer shall notify AREVA forthwith if the access codes are lost or stolen. In the event of violation of the inalienability or share clause applicable to the access codes, AREVA shall reserve the right to suspend the service without any compensation, without notice and without prior notification. 3.6.5. Characteristics of the on-line training module Unless specifically stated otherwise, a description shall be given of each training module contained in the AREVA Offer: since the duration of the course depends on the rate at which the student progresses, it is given as an indication only. AREVA reserves the right to modify the training module(s) proposed on its e- learning management website, be it the general structure, the nature or the content, without any compensatory amount being due to the Customer.

TRAINING TERMS & CONDITIONS Areva University 3.6.6. AREVA s commitment AREVA undertakes to do everything in its power to ensure that its e-learning management website can be accessed at all times during the period of validity of the module(s) user rights, to the exclusion of any technical problems or incidents imputable to the Internet network. The Customer undertakes to notify AREVA formally within 24 hours of discovering a technical fault. AREVA shall do everything possible to ensure that the e-learning management website operates reliably and continuously. However, the Customer shall admit that it is impossible to guarantee the correct operation of the Internet network. If the service is interrupted by AREVA for corrective maintenance purposes, AREVA shall take every step to ensure that the service is restored within 48 hours. If this is not the case, AREVA shall extend the User access period by the length of time during which the module was unavailable, limited to the current calendar year. AREVA shall also have the right to refuse access to its e-learning management website temporarily in the event of upgrade maintenance. AREVA shall undertake to keep this downtime as short as possible and shall give the Customer prior notification whenever possible. The Customer shall undertake not to claim any compensation or damages from AREVA. AREVA reserves the right to outsource all or part of the services proposed in the AREVA offer. 3.6.7. Customer s commitment Only AREVA can modify the module(s). The Customer shall refrain from doing so itself and from mandating a third party to do so. 4. AREVA LIABILITY LIMITS 4.1. Contractual and criminal liability Under no circumstances can AREVA be held liable for technical hardware faults, incorrect use of the e-learning module(s) by Users or any other cause extraneous to AREVA. Regardless of the type of service, AREVA s liability shall be limited to compensation for direct damage to persons or property which has been proven by the Customer. AREVA s liability cannot exceed the Contract amount. Under no circumstances can AREVA be held liable for indirect and/or immaterial damage such as loss of data or files, operating loss, commercial loss, loss of earnings, or tarnished image or reputation. Lastly, any damage of any kind caused by AREVA or the Customer to third parties shall be dealt with under common law. 4.2. Civil nuclear liability Civil nuclear liability is governed by the principles laid down by the Paris Convention of July 29, 1960 and amended thereafter. Consequently, the Customer undertakes to refrain from, and to ensure that its insurers refrain from, taking action against AREVA for nuclear damage and contamination likely to result from performance of the services described in the Contract, in whatever place they might occur. 4.3. Medical care Where necessary, the Customer shall authorize AREVA to take any emergency measures required, i.e.: To call a physician or the emergency services to provide trainees with first aid on sites belonging to AREVA or the affiliated companies To have the trainee taken to hospital if instructed to do so by the physician.. None of the expenses associated with the aforementioned cases shall be paid by AREVA; Customers are advised to take out the relevant insurance for each participant. 4.4. Acts of God AREVA shall not be held liable to the Customer if it fails to meet its obligations due to an act of God. The following are considered as acts of God, over and above those generally recognized by the French courts; this list is not exhaustive: illness or accident affecting a consultant, a trainer or a training session leader, strikes or labor disputes at or outside AREVA, natural disasters, fire, failure to obtain visas, failure to obtain authorization to access the sites mentioned in the Contract, work permits or any other permits, future laws or regulations, disruption in telecommunications, disruption in energy supply, disruption in communications or transportation of all types, or any other circumstances outside AREVA s reasonable control. 5. INTELLECTUAL PROPERTY AREVA and the affiliated companies are the owners of the intellectual property rights for all the training programs proposed to its Customers. As such, all the content and teaching material, in whatever form (paper, electronic, digital, verbal, etc.) used by AREVA for its training programs remain the exclusive property of AREVA and the affiliated companies. They may not be used, transformed or reproduced or be exploited without express authorization on or outside the Customer s premises without AREVA s express formal consent. In particular, the Customer shall refrain from using the content of the training programs to train people other than the participants registered in the frame of the Contract and shall be liable under intellectual property law should the content of the courses be transferred or communicated without authorization. All reproduction, representation, modification, publication, transmission, denaturation, whether total or partial, of the training content, including the training modules, and all databases which might be on the AREVA e-learning management website, is strictly prohibited, regardless of the process and medium used. In return for payment of the corresponding price, the e-learning modules are the subject of nontransferable, non-exclusive personal user rights for the current calendar year, starting on the date access was made available. In any case, AREVA and the affiliated companies continue to own the tools, content, methods and know-how developed previously or on performance of the services for the Customer. 6. CONFIDENTIALITY The parties undertake to keep confidential information and documents concerning the other party, be they economic, technical or commercial, to which they may have access during performance of the Contract or during discussions held prior to signing of the Contract, notably all the information given in the commercial and financial proposal submitted by AREVA to the Customer. AREVA undertakes not to divulge to any third parties other than the affiliated companies, partners or suppliers, information sent by the Customer, including information on Users. 6.1. Communication The Customer agrees to be listed by AREVA as one of its service customers, at AREVA s expense. Provided the provisions of Articles 5 and 6 are complied with, AREVA can give the Customer s name along with an objective description of the type of services covered by the Contract, in its list of references and proposals for its prospects and customer-base, discussions with third parties, communication for its personnel, internal forward-looking management documents, annual shareholders' report, and when so required by any legal, regulatory or accounting provisions. 6.2. Protection of personal data The Customer undertakes to inform each trainee that: his/her personal data have been collected and processed to enhance AREVA s offer and monitor validation of the training program as required in the Contract, the connection, training course and monitoring of the skills acquired by trainees can be accessed by its departments, he/she has the right by law to access, modify and correct his/her personal data and that to this end, a request specifying the identity and e-mail address of the trainee in question may be sent to AREVA. The Customer is responsible for storing all data concerning the trainee to which it has had access, and for keeping it confidential. AREVA shall store all teaching data associated with the training program for a period of no more than one year, which is ample time for assessing the course. 7. APPLICABLE LAW COMPETENT COURT These conditions are covered by French law. In the event of a dispute between the Customer and AREVA on performance of the Contract, an attempt will be made to settle the matter out-ofcourt, failing which it shall be referred to the Commercial Court of Aix-en-Provence. 8. APPLICABLE RULES & REGULATIONS The Customer is responsible for ensuring that its trainees comply with applicable rules and regulations, among which the competition law, throughout the duration of the training program. In particular, each trainee shall comply with the occupational safety rules in force on the various host sites; smoking is also prohibited in public areas and in all buildings. Page 2 on 2 103

GENERAL TERMS AND CONDITIONS OF SALE 25/05/2013 The present general terms and conditions of sale apply to all trainings provided by TRIHOM and exclude the implementation of all other provisions. ORDER - REGISTRATION Registrations are processed only after reception of a written document dully initialled and signed (registration form, mail, fax or email). The invoice stands for a simplified agreement. PREREQUISITES For each training session delivered by TRIHOM, required prerequisites to be able to attend to the training are mentioned on the product information document. For each training module the knowledge of the learning country language is required. Companies are held accountable for the compliance of their personnel with the required prerequisites. TRIHOM reserves the right to refuse a trainee who doesn t have the required prerequisites at the time the training is delivered. An amount of 50% of the total contribution shall be due, in this case, for administration and compensation fees. TRAINING CERTIFICATE Some training, according to their nature and regulatory requirements, are subject to evaluation tests. Attestations or certificates deliverance depends on the successful outcome of those evaluation tests. PRICE The applicable price is the price mentioned on the catalogue or the training contract at the date of the registration booking. All our prices are pre-tax. VAT should be eventually added at the applicable rate. Any taxes, or customs or import duties, as well as bank charges resulting from the payment method used shall be borne by the Customer. Prices include training session s documents and do not include all other fees or costs such as travel or accommodation. INVOICE AND FINANCIAL CONDITIONS Invoices are issued at the end of the training. They include a copy of the attendance sheet confirming the presence of the trainee and a training attestation for the participant. For all new Customers, TRIHOM reserves the right to request the total amount of the training for the first registration. All courses attended in part will be charged in full. Invoices are due for payment upon reception in full only by transfer or check payable to the provider. According to Article L.441-6 of the decree n 2012-1115, all professional will be subject to fees of 40 for recovery costs in the event of late payment. Any payment made after the due date shown on our invoices shall entail the application, without notice, of late-payment penalties at one and a half (1,5) times the legal interest rate in effect at the time of the registration. In case of training invoices which may be levied with late-payment penalties are not paid by the paying agency designated by the Customer, TRIHOM shall be entitled to claim them from the debtor jointly and severally liable towards him. For a Customer specific training conception, TRIHOM reserves the right to request an advance payment of 30% of the total invoice. The invoice will be established according to the payment conditions mentioned in the training contract. REJECTION OF AN ORDER If a Customer places an order without having paid the previous orders, TRIHOM could refuse to honour the order and to deliver the actual training, without the customer having the right to claim compensation for any reason. CANCELLATION Any cancellation can be done by the Company without fees if this cancellation is received by TRIHOM by fax, email, or mail at least 10 days prior to the first day of the training session. For all other cancellation within less of 10 days of its notification, an amount of 20% of the training course shall be due for administration and compensation fees. An invoice equal to 100% of the total price of the training session will be applied for a trainee not showing up on the first day of class. Trainees replacements are allowed at any moment by directing a written request stating the name and contact information of the replacement trainee and upon acceptance of training conditions. TRIHOM reserves the right to cancel any training in case of force majeure (lack of participants, illness of the trainer, weather conditions, fire ) without compensation or penalties to the Customer. TRIHOM can not be held responsible for costs incurred by the Customer nor consequential damages to the training cancellation or to the postponement to an appropriate later date. TRAINING SESSIONS MANAGEMENT The sending of the registration form or the training contract dully initialled and signed implies the fully acceptance from the trainees to TRIHOM internal rules and regulations. The trainee must show regular attendance to the training session where he is registered. The trainee must sign at the beginning and at the end of each day the attendance sheet made available. It is understood that delays at the training sessions, unauthorized and non recognized absences, as any failure by the trainee to meet the training contract can lead from one side to the trainee rejection according to the internal rules and regulation or by theses provisions and from the other side to the suspension or the withdrawal of the financial conditions or allocation. In addition, the lack of regular attendance will imply the refusal of delivery of the training attestation. The employer or as appropriate the trainee agrees to purchase and maintain ahead and during the training duration a third-party liability insurance to cover physical injury, material and consequential damages whether direct or indirect likely to be caused by his actions or his employees to the prejudice of TRIHOM. The employer or as appropriate the trainee agrees also to purchase and to maintain a third-party liability insurance designating also TRIHOM as an insured for all practices that would cause damage to third parties caused by the trainee or an employee and including a statutory waiver of defences provision so that TRIHOM would not be disturbed or accused. DISPUTE If any controversy may arise as regards the interpretation or manner implementation of this commercial agreement both parties agrees commit to a peaceful solution. In the event of any unresolved disagreements, the Tours (France) «Tribunal de Commerce» alone will be competent to decide disputes. 104 TRIHOM S.AS au capital de 52 566.75 euros, - RCS Tours B 378 649 040 APE 804 C

AREVA is a world leader in nuclear power. The group s offer to utilities covers every stage of the nuclear fuel cycle, reactor design and construction, and operating services. Its expertise and uncompromising dedication to safety make it a leading industry player. AREVA also invests in renewable energies to develop, via partnerships, high technology solutions. Through the complementary nature of nuclear and renewables, AREVA s 45,000 employees contribute to building tomorrow s energy model: supplying the greatest number of people with energy that is safer and with less CO 2. www.areva.com AREVA 1 à 5, rue du Débarcadère - 92716 Colombes cedex France