Worldwide expertise delivered through local offices

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1 Nuclear

2 2 Nuclear Nuclear 3 We are the team that engineer, deliver, manage and decommission nuclear facilities, using the latest technology solutions to ensure the lights stay on and the world remains a safe place. We have the expertise, the intellect and the drive that can push boundaries to improve lives, to protect our planet and to ensure prosperity through secure and affordable nuclear energy. We have a responsibility to help ensure that this energy is safer, cleaner and smarter. From our role on one of the first generation nuclear reactors in the UK in the 1950s to our current work developing options for safe life extension and cleanup, our nuclear experience spans virtually the whole history of the industry.

3 4 Nuclear Worldwide expertise delivered through local offices With more than 18,000 employees worldwide, our people can mobilise quickly to support our clients from our regional hubs in the UK, North America, Middle East and Asia Pacific regions. Wherever they are in the world, our clients will have access to the very best skills we have to offer. Supporting URENCO in the delivery of a ten-year CAPEX programme URENCO UK, Capenhurst, UK Decommissioning Partner for nuclear clean up at Sellafield Sellafield Ltd, UK Managing retrieval and transfer of liquid waste in the Hanford Site tank farms Hanford Site, US Management and transformation of the Canadian Nuclear Laboratories (CNL) complex Canada Environmental permitting for proposed William States Lee III new nuclear plant Duke Energy, US Waste vitrification technology and related services Savannah River Site, US ATKINS NUCLEAR OFFICES: United Kingdom and Europe: Bristol, Derby, Epsom, Glasgow, London, Rotherham, Warrington, Whitehaven North America: Aiken SC, Albuquerque NM, Charlotte NC, Columbia SC, Columbia MD, Dublin OH, Hudson WI, Idaho Falls ID, Los Alamos NM, Oak Ridge TN, Richland WA, Washington DC Middle East: Abu Dhabi Asia Pacific: Beijing OTHER ATKINS OFFICES Design and supply of wastewater treatment systems for new nuclear power plant Haiyang Nuclear Power Plant, China Multidiscipline engineering support to Magnox Ltd Berkeley Power Station, UK Multidiscipline support to new build EDF Energy, UK Advanced reactor engineering and core physics design as part of the SMR licensing application NuScale, US Supporting Hitachi UK s ABWR generic design assessment process Hitachi, UK Design and supply of the radioactive liquid waste processing system (TEU) and complementary solid waste systems (TES) Yangjiang Nuclear Power Plant, China Engineering support as a Strategic Partner for nuclear generation fleet EDF Energy, UK Architect engineer on the largest experimental fusion reactor in the world ITER, France Established technical advisor to UAE s ENEC helping realise the UAE s vision for its first civil nuclear programme Barakah, UAE New build Barakah radioactive liquid waste processing systems Barakah, UAE Supply of radioactive liquid waste processing systems, high integrity containers and drier solutions for borated waste concentrate Korea Design and supply of radwastewater treatment plant to deal with contaminated water Fukushima Daiichi Nuclear Power Station, Japan

6 Nuclear Shaping the future Our global energy hubs enable us to provide the highest level of expertise in nuclear engineering, nuclear project and site management, as well as market leading

4 6 Nuclear Shaping the future Our global energy hubs enable us to provide the highest level of expertise in nuclear engineering, nuclear project and site management, as well as market leading technologies in waste management to the most challenging nuclear commissions worldwide. Nuclear know-how We re helping transform the nuclear industry by combining our specialist nuclear skills with the breadth and depth of technical knowledge from other infrastructure disciplines around the company. These cross-industry skills set us apart from many of the traditional nuclear specialist providers. Realising potential in partnership We believe that working together with clients and industry partners we can achieve great things that will secure the future success of nuclear. Ingenuity is critical to providing the best engineering and design solutions and our strong track record of delivery has helped us engage in some of the biggest partnerships in the industry. Designing the future Our extensive knowledge of the legislative and regulatory frameworks required to develop new nuclear is helping clients develop new nuclear programs around the world. As a leading civil, structural and infrastructure design house we re able to mobilise large multidisciplinary design teams from different international locations to complement our local experts. Our investment in partnerships has strengthened our product portfolio and allowed us to bring new technology to emergency response challenges and nuclear new build projects. Our focus is on designing technology that improves the waste handling process by meeting lower discharge standards and decreases waste volume for final disposition. Sustainable generation We work closely with our clients to provide engineering, safety and environmental services to their nuclear operations. Safety reviews, recovery projects and life extension programs are just some of the capabilities we provide and we maintain a safety first attitude throughout all elements of our work. Since joining forces with Nuclear Safety Associates in 2014 we ve been able to bring the best expertise in nuclear safety, design engineering and professional security services from both the UK and the US to the international nuclear industry. Safe clean-up We ve been involved in the nuclear clean up in the UK since the late 1980s working with Sellafield Ltd, Magnox and UKAEA and drawing on skills acquired in the oil and gas offshore sector where there was a similar demand for remote operations. In 2016 we brought on board the Projects, Products and Technology division of EnergySolutions (PP&T), a market leader in designing solutions for the treatment and stabilization of high and intermediate level nuclear waste. PP&T s highly specialised technologies and proven track record of executing large and complex projects, including high profile work for the US Department of Energy, US Navy and Atomic Energy of Canada Limited, means Atkins is well positioned to undertake Tier 1 contracts for the management and decommissioning of nuclear sites around the world.

8 Nuclear Nuclear 9 A complete nuclear services organisation Our high calibre staff work with government and commercial clients worldwide to provide engineering, project management and site

Reactor operations: Extending life We offer cost effective solutions in reactor operations and support to extend the life of nuclear facilities.

5 8 Nuclear Nuclear 9 A complete nuclear services organisation Our high calibre staff work with government and commercial clients worldwide to provide engineering, project management and site management solutions across the full lifecycle of the nuclear industry. Reactor operations: Extending life We offer cost effective solutions in reactor operations and support to extend the life of nuclear facilities. New build Waste management and treatment We support operations across the entire nuclear fuel cycle and provide full architect engineer and management & operations (M&O) capability: engineering, project management, project controls, commercial and contract management. Our experience spans: Enrichment and fuel fabrication Decommissioning Reactor operation and life extensions Defence All this means we re well positioned to add value to today s challenges of delivering the next generation of nuclear power plants whilst at the same time maintaining the existing generating fleet and safely decommissioning legacy facilities. Case study: EDF Energy, UK We are a Strategic Lifetime Partner for one of our key clients, EDF Energy, for the supply of engineering, safety and environmental services to maintain their existing fleet of AGRs and PWR. As one of the three partners in its technical support alliance we provide around 200 man years of support per year to help optimise the performance and extend the life of its existing UK nuclear plants. Key areas we have been involved in include: Graphite core programme in support of life extension Fuel route improvement programme Periodic safety review programme Key recovery projects such as the HYA Boiler Spine Programme management and front end engineering Japan earthquake response programme We offer innovative and cost effective services across the following areas: Engineering Conceptual through detailed design across the full spectrum of disciplines Underpinned by applied technology and flow sheeting Niche support in key areas of expertise: safety, fire protection, licensing, etc. Product and equipment supply Able to mobilise multidisciplinary teams to provide owner engineer and architect engineer services Site management and operations Government and commercial nuclear operating sites Plant testing and commissioning Plant operation (GOCO) Training and readiness support Supported by enabling technologies Project and program management Provide consultancy services and programme management teams to assist our clients deliver controlled change to transform their businesses Comprehensive project controls capability including full suite of tools to support management and reporting of progress and performance Supply hands-on programme and project managers, support functions and trusted advisors to support programme governance Project management consultants are qualified Prince2 practitioners Case study: Darlington Nuclear Operating Station Refurbishment, Canada Ontario Power Generation (OPG) is involved in planning a multibillion-dollar program of work to refurbish and extend the life of the existing Darlington Nuclear Generating Station in Canada, comprising four CANDU reactors. This program will involve the management of several types of projects over 10 years. Atkins, through the wholly owned subsidiary Faithful+Gould, is providing project planning and control services through the project development phase, over an initial three year period. This includes a review of the project scope; processes; program budget; and schedule, including independent risk assessment, outputs such as project risk register, and contingency levels. The study has included a review of the program management organisation; development of a contracting strategy with the flexibility required for a program of this nature; development of the estimate to support the current request for a further funding review of relevant project governance processes; and interviews with key members of the project. The review was carried out in stages and identified several areas where further development was required to improve the project baseline. This is all underpinned by our extensive knowledge of the legislative and regulatory frameworks required to operate existing plants and to develop new nuclear in commercial and government markets worldwide.

10 Nuclear Nuclear 11 New build: Engineering the future Our nuclear new build experience includes projects such as ITER in France and the UAE s nuclear new build programme in Barakah, working with

We have a unique offering for new build projects including: Extensive knowledge of the legislative and regulatory framework in the UK and Europe, Middle East, North America and Asia Pacific An

position as a major infrastructure delivery organisation using skills from across the wider Atkins business to provide technical innovation and shared learning for the benefit of project delivery

and financial services to support the delivery of new build projects ITER in construction Barakah site, ENEC, UAE Case study: Emirates Nuclear Energy Corporation (ENEC), UAE We are working with the

Atkins has been an established technical advisor to ENEC for all four units being developed at the Barakah site.

6 10 Nuclear Nuclear 11 New build: Engineering the future Our nuclear new build experience includes projects such as ITER in France and the UAE s nuclear new build programme in Barakah, working with clients including ENEC, Horizon Nuclear Power, NuGen, EDF Energy and Fusion for Energy. We have a unique offering for new build projects including: Extensive knowledge of the legislative and regulatory framework in the UK and Europe, Middle East, North America and Asia Pacific An ability to mobilise large multidisciplinary design teams Nuclear specific skills in such areas as fuel route and waste management Expertise in extreme loading and design for hazards A leading position as a major infrastructure delivery organisation using skills from across the wider Atkins business to provide technical innovation and shared learning for the benefit of project delivery Experience of operating through the nuclear new build project lifecycle from establishing nuclear regulatory frameworks, through to construction and commissioning, including provision of commercial and financial services to support the delivery of new build projects ITER in construction Barakah site, ENEC, UAE Case study: Emirates Nuclear Energy Corporation (ENEC), UAE We are working with the ENEC as it develops the UAE s first nuclear power plant through the nation s peaceful nuclear energy program. Atkins has been an established technical advisor to ENEC for all four units being developed at the Barakah site. Our Middle East nuclear team, headquartered in Abu Dhabi, also draws upon the global nuclear division and existing workforce of over 2,000 engineers in the Middle East to provide technical and project management support to the whole program. Much of the focus to date has been on supporting the development and licensing of the future operating company prior to the first unit coming online to generate safe, clean, efficient and reliable nuclear energy to the UAE grid. Case study: ITER, France ITER (International Thermonuclear Experimental Reactor) is the world s largest experimental nuclear fusion reactor in southern France which aims to deliver nuclear fusion on a commercial scale, offering safe, limitless and environmentally responsible energy. ITER is the next step in one of the world s leading energy research programmes, and is bringing together the largest nations in a quest to harness nuclear fusion to meet mankind s future energy needs. Since 2010, Atkins has been architect engineer, in partnership with engineering giants Assystem, Egis and Empresarios Agrupados, as part of the Engage consortium. The consortium is in charge of delivering 39 buildings and associated infrastructure for the ITER project, including the 50 x 200m Tokamak complex. The 200-strong integrated team of experts from Atkins are working together to ensure fusion experiments begin on schedule to help meet the challenge of not only decarbonising but also increasing the world s energy supply.

12 Nuclear Nuclear 13 Defence: Experts in nuclear propulsion systems We support the nuclear defence sector in the UK through operations focused on the nuclear propulsion programme, Naval Bases and

Waste management & treatment: A leader in design solutions We re a market leader in designing solutions for the treatment of high and intermediate hazard level nuclear waste.

Our services to the submarine enterprise range from concept design, to build and operation of in-service assets, to final disposal.

7 12 Nuclear Nuclear 13 Defence: Experts in nuclear propulsion systems We support the nuclear defence sector in the UK through operations focused on the nuclear propulsion programme, Naval Bases and the Atomic Weapons Establishment. Waste management & treatment: A leader in design solutions We re a market leader in designing solutions for the treatment of high and intermediate hazard level nuclear waste. Our portfolio includes innovative liquid treatment and vitrification solutions. Our services to the submarine enterprise range from concept design, to build and operation of in-service assets, to final disposal.much of our work is focused on the design, substantiation or safety justification of plant components, facilities, systems and structures including: Design and substantiation of primary circuit components, rigs, tooling, and mechanical handling equipment Plant life extension assessments and justification Design of major nuclear facilities Asset management of nuclear infrastructure Dynamic stress assessments (impact, blast) Manufacturing engineering (new product introduction and manufacturing capability Acquisition) Safety substantiation Case study: (client classified) We are working with a client to develop the tools and equipment necessary to safely defuel a reactor, move the used fuel to a safe storage location and to undertake inspection of the used fuel, when the fuel inspection had to be brought forward. This meant through-life cost implications of around 1bn. Our accelerated programme included: An assembled and integrated multidisciplinary team Deploying a broad capability including mechanical and civil design, substantiation, human factors, nuclear safety and project management Being trusted by our client to think innovatively, maximise efficiency, and reduce programme timescales and risk Enrichment & fuel fabrication: Front end fuel cycle We offer a broad range of skills, leveraging the full capability of the Atkins Group, to deliver innovative, cost-effective solutions to our clients in the frontend nuclear fuel cycle. This capability is focused on centrifugebased uranium enrichment activities and more broadly this knowledge can be applied of other areas of the frontend fuel cycle that handle uranium hexafluoride, including conversion and fabrication. We believe in delivering a safe and sustainable future for our clients and our business. Case study: Columbia Fuel Fabrication Facility (CFFF), US Our engineers supported the development, implementation, and close out of the nuclear criticality safety improvement project, to return the CFFF criticality safety program to an industry leading position. This included restructuring the programmatic elements in accordance with ANSI/ANS- 8 standards, and upgrading all nuclear criticality safety evaluations. A related project was delivered to prove that the CFFF met the seismic performance criteria of 10CFR70.61, developing a methodology based on the limited guidance provided in NUREG As a result of the studies, vaporization equipment was redesigned to meet 10CFR10.61 performance criteria, and recommendations were made to anchor other equipment items. In the US and Canada we are involved in site management and support contracts with the Department of Energy and Canadian National Laboratories. Our main focus is on High, Intermediate and Low Level waste management solutions. Case study: Hanford Tank Waste Treatment and Immobilization Plant (WTP), US We are part owner of Washington River Protection Solutions (WRPS), the prime contractor managing retrieval and transfer of liquid waste in the Hanford Site tank farms. The principal objectives of the contract are to: Develop and implement a comprehensive plan to optimise High Level Waste (HLW) retrieval, transfer, and conditioning Maintain and upgrade the infrastructure to enable HLW retrieval and transfer between tanks and to WTP Retrieve and evaporate liquids from the double-shell tanks (DST) to create space for wastes from the higher-risk, older single-shell tanks (SST) Retrieve wastes from SSTs for transfer to DSTs Prepare SSTs for closure Reduce the potential for contamination to the Columbia River The process includes full environmental, nuclear and criticality assessment to ensure safety during normal and credible abnormal conditions. The majority of our activities surround the clean-up of Cold War era defence and research facilities. The ultimate mission is facility closure and restoration to green field. Case study: Savannah River Waste Vitrification, US We provide waste vitrification technology and related technical and engineering services to assist SRR with optimizing performance of the SRS Defence Waste Processing Facility (DWPF) and other waste treatment processes including: Enhancing the operational efficiency of DWPF and the LLW facility by applying proprietary technologies Improving DWPF s HLW feed preparation process so that it generates less hydrogen as the feed is being prepared. To reduce the amount of hydrogen generated during feed preparation, we are currently designing operational flowsheet changes to enable DWPF to reach its 400 canisters/year potential safely and consistently Incorporating new technology early in our client s concepts means their future waste management challenges can be achieved more cost effectively. Case study: Fukushima Liquid Waste Processing, Japan We were selected by Tokyo Electric Power Company (TEPCO) and the Japanese government as the technology provider to help clean up the large volume of contaminated sea water at the damaged plant. The initial construction contract was closed out in 2013 and in 2014, an additional order was received for a second water treatment system having almost identical scope to the initial system. Currently under construction, the system will provide a total daily treatment capacity of m3 a day. Our main challenge was tackling the process and treatment of stored tank waste. Our engineers modified the existing system (ALPS ) after extensive laboratory and bench scale tests. The solution became a complex processing system more comparable to nuclear fuel reprocessing than water treatment. Atkins used the ALPS multistage treatment process to ensure that the system is flexible enough to withstand variations in feed water. A partnering arrangement with Toshiba allowed for the initial Fukushima ALPS system to be delivered in a matter of months. To date, the team has supplied two systems consisting of multiple trains.

14 Nuclear Nuclear 15 Decommissioning: Safe clean up We offer the full range of services for the decommissioning and remediation of nuclear sites and facilities, management of spent nuclear fuel, the

Committed to technology Our commitment is to delivering new technologies and a belief that innovation is an essential component of our business.

Our technologies resolve challenges encountered throughout the nuclear lifecycle: Characterise Hunterston, UK: We undertook the detailed design completion for the Magnox encapsulation plant.

decommissioning technology. Fukushima Daiichi plant, Japan: We are working with Tokyo Electric Power Company (TEPCO) to undertake fire hazard analysis services.

The clean-up of the First Generation Magnox Storage Pond at Sellafield is widely acknowledged as one of the most challenging projects in the Nuclear Decommissioning Authority s complex estate, and we

As part of the ACKtiv Nuclear joint venture with Jacobs and Carillion, we are providing engineering, project management, safety and implementation services to safely export hazardous waste fuel,

We re also working under a framework on Sellafield Ltd s Decommissioning Delivery Partnership (DDP) for Lots 1 and 2, which involves decommissioning and maintenance work on a broad range of

Together, we and our partners offer a compelling mix of skills and hundreds of man-years of experience, which allows us to respond rapidly and effectively to our customers needs.

8 14 Nuclear Nuclear 15 Decommissioning: Safe clean up We offer the full range of services for the decommissioning and remediation of nuclear sites and facilities, management of spent nuclear fuel, the transportation of nuclear material and the environmental clean-up of nuclear legacy sites. Committed to technology Our commitment is to delivering new technologies and a belief that innovation is an essential component of our business. Whether bringing commercial use technology to the nuclear market or reinvesting in advancements in intellectual property, our focus is continuous improvement to meet emerging challenges. Our technologies resolve challenges encountered throughout the nuclear lifecycle: Characterise Hunterston, UK: We undertook the detailed design completion for the Magnox encapsulation plant. Chapelcross and Dungeness, UK: Atkins is designing a process and associated mechanical handling equipment to allow retrieval and packaging of legacy intermediate level waste (ILW) from cooling ponds for Magnox. The Areva-Atkins Partnership UK: Our relationship with Areva, the world s largest nuclear company to form the ArevaAtkins Partnership UK, allows us to provide unique access to Areva s international decommissioning technology. Fukushima Daiichi plant, Japan: We are working with Tokyo Electric Power Company (TEPCO) to undertake fire hazard analysis services. Our innovative software package, GLASS, will help TEPCO make critical decisions about the safety of the plant by improving speed, accuracy and transparency. The clean-up of the First Generation Magnox Storage Pond at Sellafield is widely acknowledged as one of the most challenging projects in the Nuclear Decommissioning Authority s complex estate, and we have been essential to its progression for over a decade. As part of the ACKtiv Nuclear joint venture with Jacobs and Carillion, we are providing engineering, project management, safety and implementation services to safely export hazardous waste fuel, debris and sludge from wet storage. We re also working under a framework on Sellafield Ltd s Decommissioning Delivery Partnership (DDP) for Lots 1 and 2, which involves decommissioning and maintenance work on a broad range of facilities on the site, including the legacy Pile Fuel Storage Pond (PFSP), the Pile Fuel Cladding Silo (PFCS), Calder Hall and the First Generation Storage Pond. Together, we and our partners offer a compelling mix of skills and hundreds of man-years of experience, which allows us to respond rapidly and effectively to our customers needs. The longevity of our relationship is testament also to the alignment of values and behaviours which has enabled us to continue to work together to secure the safety of the site. Automated, remote sorting, breakdown and segregation systems Process Gloveboxes Waste handling equipment Treatment Case study: Sellafield Ltd, UK Non destructive assay segmented and tomographic gamma spectroscopy, real time, radiography, neutron assay, XRF, XRD, SEM, FTIR Technologies Advanced liquid rad-waste processing systems Mobile liquid processing systems Polymerl injection system to remove solids from liquid rad-waste Resin and filter dewatering system Reverse osmosis filtration Cross-flow filtration Chemical, biochemical and mechanical decontamination Thermal Organic Reduction (THOR) Shredding and compaction Concentrate dryer Immobilise Vitrification Geo-polymers Cementation and Grouting NOH20 Waste from development and testing High integrity containers Spent fuel shipping flasks Spent fuel dry storage systems ISFSI construction Case study: Chalk River Laboratory, Canada We are part owner of the Canadian National Energy Alliance (CNEA), which was awarded as prime contractor to manage and operate Canada s AECL nuclear laboratories. CNEA addresses key objectives for the government of Canada: Managing radioactive waste and decommissioning responsibilities at the Chalk River and Whiteshell Laboratories Ensuring nuclear science and technology capabilities and knowledge continue to support the federal government in its nuclear roles and responsibilities Packaging, storage & disposal Liners (steel and poly) Casks Radiation vaults Concrete boxes Container transfer systems

16 Nuclear Nuclear 17 Committed to technology Our unique digital offering We deal with the technically complex challenges worldwide; from major new build programmes, through asset management for

As well as providing cross sector experience from across the Atkins business, we also offer a wide variety of additional digital services to our clients including: Computer-aided engineering (CAE)

Our CAD systems include 3D parametric modelers Inventor and Solidworks; building modeling with NavisWorks and Revit and database process modeling with AutoCAD P&ID.

Our role includes the design and supply of the liquid waste processing system (TEU) and complimentary solid waste systems (TES).

Bq/Liter. This is a significant technical milestone and breaks new ground in China s move towards cleaner nuclear energy production.

The experience gained places Atkins in a position to assist the Chinese with challenges including: Deployment of regional personnel and the supply of waste processing systems Working within numerous

suppliers who meet stringent quality and safety standards for the nuclear industry Case study: Nuclear Power Demonstration (NPD) Reactor, Ontario, Canada Atkins recently deployed a team to the

9 16 Nuclear Nuclear 17 Committed to technology Our unique digital offering We deal with the technically complex challenges worldwide; from major new build programmes, through asset management for nuclear facilities and waste management challenges, all supported by our differentiated technology portfolio. As well as providing cross sector experience from across the Atkins business, we also offer a wide variety of additional digital services to our clients including: Computer-aided engineering (CAE) Our design team uses state-of-the-art CAE tools for performing integrated design and analysis, allowing us to offer clients an unrivalled ability to provide a turnkey solution to their project needs. Our CAD systems include 3D parametric modelers Inventor and Solidworks; building modeling with NavisWorks and Revit and database process modeling with AutoCAD P&ID. Case Study: Yangjiang Nuclear Power Plant, China Yangjiang Units 3 and 4 are Chinese CPR1000 PWR new build reactors. Our role includes the design and supply of the liquid waste processing system (TEU) and complimentary solid waste systems (TES). The system design will reduce the liquid effluent discharges to less than one-half of China s current national standard for inland reactor plants by meeting liquid discharge limits of less than 37 Bq/Liter. This is a significant technical milestone and breaks new ground in China s move towards cleaner nuclear energy production. Additional scope includes the design and supply of equipment for the treatment and disposal of wet solids (resins and spent filter cartridges). The experience gained places Atkins in a position to assist the Chinese with challenges including: Deployment of regional personnel and the supply of waste processing systems Working within numerous regulatory requirements through various agencies Future waste infrastructure and transportation planning Training personnel on the efficient operation of equipment Access to approved in-country suppliers who meet stringent quality and safety standards for the nuclear industry Case study: Nuclear Power Demonstration (NPD) Reactor, Ontario, Canada Atkins recently deployed a team to the Canadian Nuclear Laboratories (CNL) to support the closure of the first CANDU prototype electrical generating nuclear power plant in Canada. We are part of a consortium that is managing CNL under three contracts the first time a contractor has managed Canadian government owned facilities. NPD is slated to be the first nuclear facility in Canada to be formally closed. The process proposed for decommissioning is entombment given its unique design and location. As part of this, we are working with regulators, stakeholders, and local communities to develop an environmental assessment, a safety basis focused on post closure performance, and a detailed decommissioning plan. Case Study: Haiyang Nuclear Power Plant, China Design and build activities for a Site Rad-Waste Treatment Facility (SRTF) have been used at the Haiyang Nuclear Power Plant in Shandong Province, China since During this time, our team began work to design and build a system capable of handling the radiological waste treatment needs associated with the AP1000 reactor plant. The entire work scope included the design, fabrication, installation and commissioning of: Site Rad-waste Treatment Facility (Includes waste reduction and storage capabilities) Facility licensing: PSAR, FSAR, Cask and High Integrity Containers (HIC) Nuclear Island mobile water treatment system, waste disposal equipment (HIC and dewatering system) Our analytical tools include ANSYS and LS-Dyna Finite Element modelers, Star CCM+ Computational Fluid Dynamics, Origen and MCNP Nuclear modelers, RadCalc radiolytic hydrogen modeler, GPROMS dynamic process modeler and Witness Operational Research modeler. We develop the CAE software that our clients need to make their projects a success and add value. Our experience spans: Reality capture Augmented reality Virtual reality 3D data management Collaborative visualisation Graphical Logic Analysis Support Software (GLASS) GLASS is a powerful and versatile software platform that visually illustrates complex logic relationships in a fully interactive environment. GLASS visually depicts logic relationships within equipment, systems, infrastructure, or organisations and can rapidly assess system-wide impact of challenges to specific equipment or system subsets. Its Facility Response Simulation includes customisable modules specifically for emergency response in nuclear facilities, helping personnel quickly visualise and understand current operating status, equipment unavailability and/or failures. GLASS is an invaluable aid in decision-making activities, including incident planning and safety analysis, live incident management, and training.

18 Nuclear Nuclear 19 Moving nuclear forward since the 1950s We ve worked

2013 Acquisition of Nuclear Safety Associates, Inc.

on nuclear safety, design engineering, and professional security services.

s Atkins is engaged in seven nuclear projects, including work on Merlin,

Company the first privately owned reactor to be built by the commonwealth

Korea: Atkins and Wimpey & Co carry out design of the auxiliary hall,

high voltage switch gear 1960 s 2025 1982 Atkins undertakes the complete

1970 s 1985 Atkins now counts virtually all nuclear power organisations

ANS (a company comprising Atkins, Ewbank Preece, Merz & Mclellan) 1980 s

reactor cores (UK) 1990 s TACIS Procurement Agent Contract associated

is awarded a contract to continue as a Tier 1 supplier to EDF Energy

Energy to improve the resilience of UK nuclear power stations following

Technology (PP&T) division of EnergySolutions - an international nuclear

civil and structural design for UK s first commercial nuclear power

nuclear research centre for the Italian committee for Nuclear Research

for a complete line of nuclear reactor fuel element cells in Japan 1972

roof Technology portfolio and know-how around nuclear processing and

Services (ANS) in the structural support of the magnetic coils for a 2000

secures preparatory civil work for Hinkley PWR station (UK) AWE, $700m

of the phase one decommissioning of Windscale Piles (UK) 2000 1997 Atkins

10 18 Nuclear Nuclear 19 Moving nuclear forward since the 1950s We ve worked on some of the most significant nuclear projects of the past 60 years Acquisition of Nuclear Safety Associates, Inc. (NSA), a 130 people engineering and technical services firm, with a focus on nuclear safety, design engineering, and professional security services Our nuclear and chemical engineering department is formed 1950 s Atkins is engaged in seven nuclear projects, including work on Merlin, a 5MW research reactor produced by AEI/John Thompson Nuclear Energy Company the first privately owned reactor to be built by the commonwealth Fusion experiments begin at ITER Ko-Ri Nuclear power station, Korea: Atkins and Wimpey & Co carry out design of the auxiliary hall, turbine hall, the administration building and the foundations for the high voltage switch gear 1960 s Atkins undertakes the complete design and specification of the BNFL recovery plant for Springfields (UK) 1970 s 1985 Atkins now counts virtually all nuclear power organisations in the UK as clients Acquisition of the specialist nuclear consultancy ANS (a company comprising Atkins, Ewbank Preece, Merz & Mclellan) 1980 s Atkins conducts seismic assessments of the Magnox and AGR reactor cores (UK) 1990 s TACIS Procurement Agent Contract associated with decommissioning the Chernobyl nuclear power plant Atkins is awarded a contract to continue as a Tier 1 supplier to EDF Energy under its Technical Services Alliance (TSA) 2011 Atkins supports EDF Energy to improve the resilience of UK nuclear power stations following the Japanese earthquake Acquisition of the Projects, Products & Technology (PP&T) division of EnergySolutions - an international nuclear engineering business 2010 s 2000 s Detailed architectural, civil and structural design for UK s first commercial nuclear power station at Berkeley Atkins plans and designs a complete nuclear research centre for the Italian committee for Nuclear Research 2,000 staff in nuclear worldwide Atkins designs and makes recommendations for a complete line of nuclear reactor fuel element cells in Japan 1972 Developed new structural analysis system (ASAS) to check Dounreay reactor roof Technology portfolio and know-how around nuclear processing and waste management 1976 Atkins collaborates with Associated Nuclear Services (ANS) in the structural support of the magnetic coils for a 2000 MW(e) Tokamak reactor Allot Atkins Mouchel Power Consultants Limited secures preparatory civil work for Hinkley PWR station (UK) AWE, $700m capital program, Design House 1994 Atkins is appointed as managing agent of the phase one decommissioning of Windscale Piles (UK) Atkins carries out environmental impact study of Bulgaria s Kozloduy nuclear power station Superheater headers project for Magnox 2010 Lenders technical advisor to the UAE s peaceful nuclear programme Began role as architect engineer for ITER 2013 Atkins is formally announced as part of the EDF Energy Nuclear Generation Strategic Partnership in the UK ITER $2b Fusion Reactor, Architect Engineer Atkins awarded a contract by the Tokyo Electric Power Company (TEPCO) to undertake fire hazard analysis services at the Fukushima Daiichi nuclear power station in Japan EDF Energy, $300m p.a. critical plant modifications, Engineer of Choice 2016 Decommissioning Delivery Partnership (DDP) Acquired PP&T, a division of EnergySolutions, to become the world s largest nuclear services organisation

Atkins Ltd except where stated otherwise www.atkinsglobal.

11 Atkins Ltd except where stated otherwise Image ITER Organization (cover, EDF Energy (page 7, 9, ENEC (page istock (page IAEA (page 16)