Fire Protection Design Services

Transcription

1 Fire Protection Design Services Our extensive design experience includes every type of system to protect your facilities and hazards. More Capability and Services AREVA offers quality, cost-effective fire protection design services to a wide range of industries and facilities. Our staff includes registered fire protection engineers, NICET certified technicians, and CAD designers who have designed protection for virtually every type of occupancy and hazard. Our fire protection design services include: Modification implementation Water supply systems Water-based suppression systems Gaseous-based suppression systems Fire, gas and leak detection/alarm systems Passive barrier/architectural features design Comprehensive Design Change Implementation AREVA offers complete fire protection modification and engineering change package development and implementation services. With AREVA s full range of engineering services, including our Plant Modifications Engineering Group and the ADZ Joint Venture, plant fire protection changes are implemented through engineering change package development as well as Engineering/Procurement/ Construction (EPC) contracts. AREVA offers all facets of fire protection services from consulting services to construction implementation in support of plant design and operational changes. Water Supply System Design Experience AREVA has designed independent private water supply systems as well as those interconnected with municipal and site service water distribution systems. We understand our clients needs and the importance of maintaining adequate supply capacity under normal and adverse delivery conditions. Our dedicated design team will help you ensure system reliability by specifying durable components and piping for the prevailing service conditions. Our water supply services include: Elevated and surface water tanks Underground and above-ground fire mains Pump and prime mover arrangements Hydrant and hydrant hose house distribution/ arrangement Addressing piping degradation issues Water-Based Suppression Systems Our engineers have designed water-based suppression systems to protect nearly every type of facility and hazard. We follow advances in suppression system and component design to offer only the latest protection and maximum operational economy. AREVA water-based system design services include: Wet- and dry-pipe sprinklers Low- and high-expansion foam systems Pre-action and deluge sprinklers Standpipe and hose stations Water spray systems Automated and manual monitor nozzle systems In-rack, ESFR and high-density applications Water mist systems (dual and single-fluid technologies)

2 Gaseous-Based Suppression Systems Similar to our experience with water-based systems, our gaseous-based suppression system design experience includes numerous different hazards and occupancies. We understand the benefits and limitations of every type of gaseous system including life safety concerns, environmental impact and chemical deposition concerns, and life-cycle costs including recharge, testing and maintenance. Gaseous agent system design services include: Clean agent extinguishing systems (such as halocarbons, inerting agents) Low- and high-pressure carbon dioxide systems Dry chemical systems Alternate acceptance testing methodologies Fire, Gas and Leak Detection/ Alarm Systems: More Versatility AREVA alarm system design experience includes hard-wired, multiplex, addressable and multi-point programmable logic systems. We have designed and specified detection schemes, alarming and notification, signaling, voice communication, and agent releasing/safeguards activation systems for industry, power T&D and generation facilities, schools, hospitals, record storage centers, highrises, offices and other applications. We offer teaming with Siemens Industry, Inc. for full turnkey fire alarm and detection services. Our services include: Smoke, heat, flame and incipient fire detection Evacuation/voice alarm Toxic gas monitoring Local and networked fire alarm systems Liquid leak detection Proprietary signaling systems Security/intrusion alarm Audible/visual/tactile notification design (ADA compliant) Critical process monitoring AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Cell: us.areva.com Given the critical nature of fire protection systems, we tailor our designs to meet your protection and performance needs. Passive Barrier/Architectural Features Design: Attention to Detail Our team of professionals can design and specify fire-resistant barriers for new facility construction as well as plant retrofit and expansions. Working with architectural staff, we can provide criteria for ensuring the aesthetic incorporation of passive barriers into an overall building design. Our services include: Fire wall location/construction Through-penetration seal system design Egress/exit enclosure construction/ separation design Interior finishes Equivalency justification for rating reductions Fire wrap envelope systems Protection of atrium, large opening qualification Fire door, fire/smoke damper design Fire testing services Explosion venting analysis and design Features and Benefits High-quality and cost-effective fire protection design services from an experienced and versatile staff Ensure water supply needs are met System reliability you can count on Only the most advanced protection Aesthetically pleasing solutions Full understanding of nuclear power design change package development and documentation requirements The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA. All rights reserved. 10/16 ANP:U-063-V8-16-ENG

3 Nuclear Plant Fire Protection and Hazards Analysis Industry-Leading Experience and Resources AREVA is the preeminent nuclear power fire protection analysis firm. We have expertise developing and managing all aspects of nuclear fire protection. In fact, our experience includes over 75% of the commercial nuclear power industry. Plus, our technical methodologies have set the standard. We leverage our extensive global resources to provide solutions to our clients for their specific nuclear plant operations. Risk-Informed / Performance-Based Methodologies: More Insight Our Fire, Safety and Risk Services team judiciously applies risk-informed / performance-based methods to characterize the real significance of inspection findings. Our approach: Develop realistic fire scenarios to determine the risk significance of fire protection inspection findings Verify fire scenarios postulated from inspection findings that would actually result in significant degradation of defense-in-depth features Ensure due credit given for all fire protection features such as prompt fire brigade response Utilization of fire modeling to support risk-informed, performance-based approaches Significance Determination Process: More Safety Assurance Significance Determination Process (SDP) requirements have increased the burden on utilities to determine the severity and safety consequences associated with numerous fire protection failures and deficiencies. Your plant s existing analyses may not identify all potential success paths and systems to achieve safe shutdown, which could affect the ability to characterize the risk significance of inspection findings. Our multi-disciplined staff of systems engineers, electrical / I&C engineers, and database programmers can enhance your safe shutdown analysis to implement the SDP effectively. You can rest assured that inspection findings are properly characterized.

4 Program Optimization: More Cost-Effective Many fire protection programs may not be optimized to balance regulatory compliance with cost-effective implementation. Our professionals can help you develop a more cost-effective program for your plant. Our approach: Perform detailed NFPA code assessments to justify areas of noncompliance or develop workable solutions Prepare technical evaluations to document the acceptability of all non-rated / non-tested fire protection features on a plant area basis Align program documents with plant PRA / IPEEE results Implement efficient controls to maintain fire protection program documentation concurrent with the plant configuration Implement cost-effective surveillance reduction measures, such as statistical sampling of penetration seals, based on historical plant operating data Services Significance Determination Process assessment Fire safe shutdown systems and circuit analysis Design basis documentation and reconciliation NFPA code compliance assessment and analysis Safe Shutdown Analysis System (DATATRAK) software Data Management (DATATRAK) software process change management Pre-fire and post-fire plan development Fire hazards assessment and analysis AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com Fire protection surveillance reduction program implementation Plant modification package development and implementation Fire suppression and detection systems design and testing services Computerized combustible tracking and controls programs Fire barrier design, evaluation and testing services Fire protection program audit and self-assessment services Programmatic configuration controls implementation Smoke and heat effects analysis Fire PRA and modeling services Fire brigade training Fire events analysis Fire protection program fundamentals reviews Features and Benefits Accurate characterizations of inspection findings ensure compliance Our multi-disciplined staff of systems engineers, electrical / I&C engineers, and database programmers can enhance your safe shutdown analysis to implement the SDP effectively A more cost-effective program for your plant Determine the adequacy of installed barrier configurations based on actual plant hazards and the performance of tested configurations The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA. All rights reserved. 10/16 ANP:U-070-V9-16-ENG

5 Nuclear Plant Fire Safe Shutdown Services Cost-Effective Solutions We have provided Fire Safe Shutdown Analysis and related services since the promulgation of the Fire Protection Rule, 10CFR50, Appendix R. Our in-depth understanding of safe shutdown licensing bases and technical requirements allows us to deliver the most cost-effective solutions for Appendix R licensing and technical issues. This includes re-analysis scopes in support of NFPA 805, Performance Based Standard for Fire Protection for Light Water Reactor Generator Plants. Expertise for All Aspects of Fire Protection Programs AREVA, the world s leading nuclear supplier, is recognized throughout the nuclear industry s fire protection community as the premier provider of fire protection engineering, design and analysis services. Our seasoned, responsive personnel have experience in all aspects of evaluation, development and implementation of nuclear fire protection programs. We actively participate in industry initiatives, forums and standard /code development to best serve the interests of our customers and the industry at large. With our extensive global resources, we can tailor nuclear plant fire safe shutdown services for the specific needs of our clients. A Long History of Success AREVA has a proven track record and long history of resolving generic industry fire protection issues and plant-specific concerns. We consistently provide cost-effective analytical techniques and compliance methods to help our clients meet regulatory requirements and plant-performance goals. Comprehensive Service Our multi-disciplined staff provides comprehensive services to address a broad spectrum of issues and concerns. We garner repeat business from numerous clients by consistently demonstrating our ability to resolve industry issues and plant-specific concerns and optimize performance of their Fire Safe Shutdown Programs. Features and Benefits We apply proven technical methods to resolve fire protection and safe shutdown concerns, and address compliance with applicable regulatory requirements. Cost-effective solutions are tailored to your specific needs. Our services optimize the performance of your plant s fire protection and safe shutdown program. Our multi-disciplined staff of systems engineers, electrical / I&C engineers, and database programmers provide the full spectrum of fire safe shutdown services. Our DATATRAK software fully integrates all aspects of your safe shutdown analysis into a single design-control tool.

6 Safe Shutdown Analysis Software (DATATRAK) The AREVA DATATRAK program is an engineering software tool that develops a configuration control model of safe shutdown analysis data relationships such as equipment, cable, raceway, fire area, fire zone and compliance disposition data in support of a plant safe shutdown analysis. The analysis model supports the necessary relationships between equipment, cables, routing and their locations in order to identify the impact on safe shutdown capability in each fire area and fire zone. The analysis model design is based on extensive safe shutdown analysis expertise and familiarity with key safe shutdown-related issues including associated circuits from spurious and circuit coordination concerns. The DATATRAK application is versatile since it is designed to link with existing plant cable-raceway systems. Plus, DATATRAK can easily import most of the necessary data relationships from existing Appendix R database programs. AREVA can customize DATATRAK to support specific client needs, and it can operate in a client /server environment using either a backend database management system (e.g., SQL Server or Oracle) or an Access database. The main features of the program include the following: Component Selection Cable Selection Routing/Equipment Location Drawing Reference and Revision Tracking Power Source Dependencies Interlock Dependencies Sub-Component Relationships Fire Area Impacts Fire Zone Impacts Compliance Assessment Dispositions Fire PRA Basic Event Cable Mapping Fire PRA Cable Impacts by Location NFPA 805 Transition Support Link to Existing Cable-Raceway Data User Access Level Control Data Revision Tracking Cable Block Diagram Generator Fire Safe Shutdown Services include: Fire safe shutdown logic diagrams Component circuit analysis Separation analysis and compliance assessments Breaker / fuse coordination calculations Fire safe shutdown procedures Ampacity-derating calculations NEI circuit analysis method NFPA 805 performance-based, risk-informed fire protection program development and analysis NFPA 805 Data Management Software (DATATRAK) Manual / Recovery Action Feasibility study and timeline analysis AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA. All rights reserved. 10/16 ANP:U-076-V10-16-ENG

7 Fire Modeling and Emergency System Response Performance-Based Analysis There is a movement toward risk-informed, performance-based analyses in the field of fire protection engineering, both domestically and worldwide. In response to this movement, the U.S. Nuclear Regulatory Commission (NRC) has amended its fire protection requirements in Regulatory Guidance to permit existing reactor licensees to voluntarily use risk-informed, performance-based fire protection methods to supplement existing deterministic fire protection requirements. Fire Modeling AREVA utilizes Fire Dynamics Simulator (FDS), a Computational Fluid Dynamics (CFD) model of fire-driven fluid flow, developed by the National Institute of Standards and Technology (NIST) Fire modeling is the fundamental tool for evaluation of acceptance criteria in risk-informed, performancebased fire protection. Using fire modeling, it is possible to virtually assess the extent of damage, to impose design criteria, and to evaluate the effectiveness of emergency systems. AREVA engineers have the expertise and experience to perform detailed fire modeling computations consistent with the requirements of the NRC and National Fire Protection Association (NFPA). Our team is focused on delivering application-specific solutions to meet your performance objectives. The Big Picture To effectively utilize the results of fire modeling, it is important to understand the overall fire safety envelope. We have effectively used fire modeling output in Fire Probabilistic Risk Assessment (PRA) and to sustain/support code variances, alternative positions, risk-informed performance-based approaches, regulatory exemptions, and other legal positions. AREVA fire protection engineers are missionoriented, not task-oriented. We keep your needs in mind throughout every phase of the project. Our knowledge of the limitations and ranges of application of all fire modeling software approved for use in nuclear power plants allows us to select the most cost-effective methods to meet your project goals. AREVA engineers know how to interpret the results of fire modeling, and we know how to clearly convey those results to our clients. Features and Benefits Cost reduction benefits can be provided in applying fire modeling techniques as follows: Provides clients with alternatives to prescriptive regulatory requirements Produces system designs tailored to meet your specific performance objectives Features of the fire modeling application include: Uses state-of-the-art computational fire and egress modeling software Calculations performed by engineers with industryrecognized expertise Computational methods based on NFPA requirements using NRC-approved calculation procedures

8 Tools, Techniques & Applications In applying fire modeling to performance-based analysis, AREVA retains experienced engineers with degrees in fire protection to construct the necessary scenarios for evaluation. Fire modeling requires skillful application to ensure that the input data is appropriate for the conditions being analyzed. Following are some potential fire modeling applications. Fire Suppression Systems AREVA engineers can model the effects of a wide range of fire scenarios to determine the necessity and suitability of fire suppression systems such as wet, dry, pre-action and deluge sprinkler systems, fixed water spray, water mist, and gaseous fire suppression systems. We can also utilize fire modeling to gain insight on various fire suppression system designs and their associated performance. Fire Detection and Alarm AREVA engineers can model detection devices within a compartment, establishing a sequence of events. Detector types supported by available fire models include heat detection, ionization, photoelectric, beam type and air-sampling incipient stage type smoke detection. We can also represent fire alarm system signal reporting logic as required for modeling suppression or smoke control system activation, closing fire and smoke dampers, and initiating other alarm sequences. AREVA employs sophisticated egress models that can track the movement of individual site personnel and create a three-dimensional video animation of building evacuation. Smoke Control Systems Our team has the technical expertise to correctly model smoke control systems including smoke exhaust, post-event smoke purging systems, smoke and heat vents, opposed airflow systems, elevator, stairwell and corridor pressurization systems. Tenability & Timed Egress Analysis AREVA engineers can establish emergency system design criteria to maintain tenability in occupied spaces such as the MCR, and can also use timed egress analysis to demonstrate the effectiveness of emergency systems during evacuation. Timed egress analysis is applicable for zoned evacuation, building evacuation, and site-wide evacuation. Building & Target Survivability AREVA engineers can produce a real-time analysis of target performance criteria. We can evaluate survivability of mechanical, electrical, instrumentation and control systems, analyze thermal impact to building structural elements, and evaluate extent of damage for post-incident recovery. AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA Inc. All rights reserved. 10/16 ANP:U-178-V10-16-ENG

9 Nuclear Plant Transition to NFPA 805 AREVA, the world s leading nuclear supplier, is recognized throughout the industry as a premier provider of fire protection engineering, design and analysis services. Background The Nuclear Regulatory Commission endorsed National Fire Protection Association (NFPA) Standard 805, Performance-Based Standard for Fire Protection for Light Water Reactor Electric Generating Plants, as an acceptable voluntary approach for demonstrating compliance with 10 CFR 50.48, Fire Protection. This endorsement allows plants to move away from prescriptive fire protection requirements and realize the benefits of using risk-informed, performancebased methods to analyze the consequences of fires and their impact on the ability to achieve and maintain safe shutdown. Involved and Engaged AREVA has actively supported the development of NFPA 805 and is a leader in fire protection standards development, industry working groups, and industry forum presentations. Additionally, as part of a Nuclear Energy Institute (NEI) initiative, members of our team helped develop the advanced performance-based methods for circuit analysis described in NEI 00-01, Guidance for Post-Fire Safe Shutdown Circuit Analysis. We were also selected by NEI to support pilot plant evaluations of this methodology to demonstrate compliance with regulatory requirements. Considering the Transition to NFPA 805 Adopting NFPA 805 is a significant undertaking. Potential benefits must be thoroughly evaluated against costs each step of the way. Our team of professionals can help determine if transforming your licensing basis to NFPA 805 makes sense for your plant. We do this by evaluating the following attributes of your compliance approach: Maximizing the use of your current licensing basis and documentation Minimizing the need to reconstitute the current design and licensing bases Identifying potential program vulnerabilities and formulating the specific cost-effective changes needed for NFPA 805 compliance Assessing short-term and long-term costs versus benefits Features and Benefits Cost savings in addressing future FP issues Reduced reliance on manual operator actions Reduced reliance on fire barriers Eliminate deviations and exemption requests More realistic analysis of plant fire scenarios Reduced surveillance frequencies Enhanced license renewal support by meeting contemporary regulatory expectations

10 A Complete Solution We offer full scope, turn-key engineering services for all three phases of the NFPA 805 transition process: Preliminary assessment and letter of intent Analysis and License Amendment Request (LAR) Completion of transition including revising your PRA, fire hazards analysis and safe shutdown analysis The NFPA 805 transition assessment process is depicted in the following simplified flow chart (taken from the NEI 04-02):

11 Transitioning to NFPA 805 The transition to NFPA 805 requires performing several evaluations and analyses: Fire Protection (FP) Fundamentals Assessment Chapter 3 of NFPA 805 requires that licensees assess their current compliance status. Prior approved alternates to the existing FP program may take precedence over NFPA 805 criteria so it is vital that the plant licensing basis be well understood. The NRC may accept these changes, but will undoubtedly review them again in the context of the change to a performance-based approach. Nuclear Safety Analyses Most NFPA 805 nuclear safety performance goals are comparable to existing regulatory requirements (10 CFR 50 Appendix R III.G and III.L). The nuclear safety analysis includes a systematic review of the following existing program elements: Nuclear safety system and equipment selection Nuclear safety capability circuit analysis Nuclear safety equipment and cable location Fire area assessments Manual Action Feasibility Breaker Coordination /common enclosure Those plants with well-documented safe shutdown methodologies will be able to integrate much of their current analysis for risk significant areas. However, NFPA 805 also requires the assessment of fires originating during non-power operational modes and fires that result in radioactive release that were not previously part of most FP programs. Non-Power Operational Mode Assessment This assessment requires an evaluation of different components and time-sequences from the normal safe shutdown paths (primarily assessing decay heat removal capability) as well as an evaluation of key safety functions needed for high risk evolutions during non-power modes (see NUMARC 91-06). Radioactive Release Assessment Licensees are also required to show that FP goals are also met with respect to limiting radioactive releases with the objective of showing no releases due to loss of boundary controls (other than those already evaluated as primary nuclear safety boundaries). NFPA 805 Transition Software (DATATRAK) The NFPA 805 Transition Data Tracking System (DATATRAK) has been developed by AREVA as a tool for modeling, managing and reporting data related to performing an NFPA 805 Transition analysis. The application has been designed to integrate the data elements and relationships required to support the various tasks related to performing both Fire Safe Shutdown and NFPA 805 Transition Analyses. Data screens and reports have been designed to accommodate the data input and reporting requirements for NFPA 805 Transition tasks such as the following: Safe Shutdown System and Component Selection Modeling Interlock, Power and Sub-component Dependencies Cable Selection for SSD, PRA and NPO Cable Routing and Location Fire Area SSD Assessments Non-Power Operation Assessments Basic Event Mapping to Cables Fire PRA Impact Assessments Fire PRA Scenario Zone of Influence Calculations Determing impact to analyses due to data revisions Generate LAR Tables This analysis involves modeling information associated with components, cables and raceways to determine the impact of fire damage on the ability to achieve safe shutdown within each fire zone or fire area. The DATATRAK application supports both the Nuclear Safety Analysis plus the additional NFPA 805 related tasks such as Non-Power Operational Mode assessments and calculating Fire PRA cable impacts including Basic Event mapping and Fire Scenario cable impacts. The database system is also designed to link to external data sources such as selected plant cable raceway data tables and selected PRA CAFTA Basic Event data tables in support of the analysis. In addition, the software is also designed to identify the delta resulting from revisions to these external data sources used as design input to the Transition Analysis in order to maintain data configuration control. This software solution has been developed from AREVA s expertise in supporting various NFPA 805 transition projects and has received favorable reviews from the NRC during Pilot Plant reviews. Furthermore, the design of the application supports customization to meet the needs of each plantspecific project by integrating all the elements required to support this analysis.

12 Probabilistic Risk Analysis (PRA) Fire PRA is dependent on the application of event tree/fault tree analysis, which is a core competency of AREVA fire PRA personnel. Our detailed knowledge of plant accident sequences, design and operation helps customers understand the overall risk to their plant especially from postulated fire-induced component failures, system interactions, and dependencies. AREVA has supported the latest methods for fire PRA for full power operations as contained in EPRI/NRC-RES Fire PRA Methodology for Nuclear Power Facilities, NUREG/CR This methodology enhances cable selection and circuit analysis, and uncertainty analysis. Significant changes include development of ignition frequencies, post-fire HRA and fire modeling. Plus, the methodology improves component selection, development of the fire-induced risk model, and quantitative screening. Fire Modeling As an integral component of NFPA 805, fire modeling is used to determine the survivability of plant structures, systems and components as well as predict tenability within the fire areas of concern. However, for fire modeling to be effective, each program must be applied with a clear understanding of its limitations. Fire scenario construction must be fully cognizant of the following attributes: Proper characterization of fire source term Target pass/fail criteria Plume and ceiling jet/layer development and orientation Direct flame radiation exposure Ignition criteria for proximate/contributory combustibles AREVA has the expertise and experience to construct the proper scenarios and apply the right fire modeling tools to yield technically sound results. Program Change and Licensing Basis Other aspects of the transition to the risk-informed, performance-based approach of NFPA 805 is evaluating the convertability of the program itself. The adequacy of existing configuration control, quality assurance, program surveillance and monitoring, administrative control attributes, and corrective action processes are all items that must be considered and appropriately integrated/ updated as needed. This process ensures that the new licensing basis for fire protection is correctly oriented to accommodate and manage future change and will stand up to regulatory scrutiny for the life of the plant. Experience You Can Count On AREVA offers the complete range of engineering services needed to help you navigate a successful transition to NFPA 805. Working in concert with your fire protection personnel, we will help map the transition process, develop the cost-benefit analyses needed to support key decisions, and perform the required engineering analyses, licensing submittals and supporting documentation. AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA. All rights reserved. 10/16 ANP:U-228-V9-16-ENG

13 Nuclear Facility Fire Alarm Solutions An Experienced Resource Limited engineering resources and tighter inspection and maintenance budgets are challenging operations personnel at U.S. nuclear plants. As a result, environmental, regulatory, economic and operational drivers are changing the nuclear industry and will influence it for the next 60 years. From plant life extensions to the next generation of plants, these trends could affect plant safety systems, especially fire alarm systems inside and outside the plant critical power block boundaries. With more than 40 years of nuclear power plant fire protection engineering experience and 15 years of fire alarm system modification/implementation experience, AREVA can deliver comprehensive fire alarm system solutions to help resolve the obsolescence/compliance issues for meeting the plant extended life. These comprehensive solutions are based on decades of field-proven project and systems analysis experience. It is all about mitigating fire alarm system operational cost pressures with innovation backed by global technological leadership from a single, responsible source. AREVA Advantage AREVA delivers a focused, comprehensive conceptual analysis of existing systems within the context of your plant s design and modification legacy. We also provide a measured, balanced approach to system upgrades and technology migration, including: System compatibility with existing cabling and field devices. Selecting the system technology that best suits the environmental application (i.e., incipient detection in areas with high radiation exposure to address device longevity and operating staff dose exposure). Taking advantage of new addressable device technology for maintenance cost reductions. Better operator emergency response with specific alarm annunciation information. Reduced overall system life cycle costs. AREVA is focused on creating the most cost-effective solution, tailored specifically to meet the particular needs of your facility. State-of-the-art Fire Alarm System Technology Regulatory Expertise AREVA is a leader in participating in the development of NFPA 72, National Fire Alarm Signaling Code in addition to supporting the development of other important fire protection standards, industry working groups, and industry forum presentations. Our team will ensure the transition to new alarm system technology will comply with the plant s licensing basis. Through our regulatory expertise, we understand the need for alarm system interface requirements and limitations (e.g., existing device/circuit compatibility with the alarm vendor s equipment while maintaining UL Listing & NFPA 72).

14 Fire Alarm System Design Expertise AREVA s fire protection engineering capabilities include specific working experience with multiple vendor alarm system products for furnishing the most advanced, highly reliable, and high-performance fire alarm systems for the nuclear power industry. We were instrumental in developing the design changes required to install alarm system upgrades at five different plant sites in addition to supporting the implementation of the packages. Our projects are managed to meet our client s expectations including: Meeting project scope of work and objectives. Establishing project team interfaces and AREVA s team resources. Following client document flow and control interfaces. Maintaining agreed project costs and schedule. Ensuring implementation of applicable AREVA and Client QA program requirements. Features and Benefits A comprehensive solution to address Fire Protection Licensing variables (e.g., license basis, fire watch and administrative control requirements, etc.). Our team devotes uncompromising attention to quality and process flexibility (e.g., we can develop modifications, support client package development and supply system material if requested). A single point of responsibility, if requested. Replacement system operation and maintenance cost saving provisions with temporary system component outage flexibility. State-of-the-art fire alarm systems have enhanced monitoring and status reporting capabilities. Faster detection and detailed alarm annunciation information for operator emergency response. The installation of the new alarm system is always evaluated for ongoing support for hardware and software components through the duration of your plant s life cycle. AREVA can provide a single source for all your facility-specific fire alarm system needs from conceptual design through final installation and testing. We have provided effective methods for reducing construction and testing costs by utilizing state-of-the-art alarm system equipment and AREVA engineering experience. Our team is poised to help deliver significant overall fire alarm system cost savings and value. We thrive on generating safety and operational dividends that will resonate across your facility. AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA Inc. All rights reserved. 10/16 ANP:U-259-V7-16-ENG

15 Nuclear Plant Breaker Coordination Services for NFPA 805 Is Your Plant Ready for NFPA 805 LAR Submittal? Existing breaker coordination calculations that were prepared for Fire Protection Safe Shutdown may not be adequate for transition to NFPA 805. Risk- Informed Performance-Based analyses require a more finite approach to cable analysis and subsequent breaker coordination. These finite scenarios may separate what was once one Fire Area into multiple Fire PRA fire scenarios based on ignition sources. Credit Power Supply Fire PRA Scenario Boundary Exposure Fire Non-PRA Component A Long History of Success AREVA has a proven track record and long history of resolving generic industry fire protection issues and plant-specific concerns. We consistently provide cost-effective analytical techniques and compliance methods to help our clients meet regulatory requirements and plant-performance goals. Comprehensive Services Our multi-disciplined staff provides comprehensive services to address a broad spectrum of issues and concerns. We garner repeat business from numerous clients by consistently demonstrating our ability to resolve industry issues and plant-specific concerns and optimize performance of their Fire Safe Shutdown Programs. Credited PRA Component Fire Area Boundary (Typical) In addition, there is a potential to include more station equipment into a Fire PRA than previous Fire Safe Shutdown Analysis, including non-safety related components. This more finite area analysis along with a potential increase in required power supplies demonstrates the need to re-evaluate the plants breaker coordination for transition to NFPA 805. What Is Required? NFPA 805, Section , requires the inclusion of those circuits that could cause a loss of a power supply required to achieve the nuclear safety performance criteria. This loss could be due to protection devices (i.e. breaker or fuse) that are not properly coordinated with its upstream protection devices. ASME Standard for Probabilistic Risk Assessment for Nuclear Power Plant Applications (ASME- RA-S-2002) requires the confirmation of satisfactory electrical coordination for Fire PRA power supplies. This requirement is part of the Fire PRA Peer Review performed to determine the quality of the PRA. Features and Benefits Our DATATRAK software fully integrates all aspects for Fire Safe Shutdown Analysis into a single design tool including breaker coordination Fire safe shutdown logic diagrams Component circuit analysis Separation analysis and compliance assessments Safe shutdown analysis software (DATATRAK)

16 AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Cell: The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA Inc. All rights reserved. us.areva.com 10/16 ANP:U-334-V6-16-ENG

17 Nuclear Plant NFPA 805 Program Maintenance AREVA, the world s leading nuclear supplier, is recognized throughout the industry as a premier provider of fire protection engineering, design and analysis services. Background AREVA has provided fire protection engineering services to the nuclear power industry for plants that have committed to transition their licensing basis from a NRC prescriptive program to a riskinformed / performance-based NFPA 805 program. Upon the completion of the plant Licensing Amendment Request submittal, plants need to commence with the new program implementation and maintenance process. Involved and Engaged AREVA has actively supported the development of NFPA 805 and is a leader in fire protection standards development, industry working groups, and industry forum presentations. Additionally, as part of a Nuclear Energy Institute (NEI) initiative, members of our team helped develop the circuit analysis methods described in NEI 00-01, Guidance for Post-Fire Safe Shutdown Circuit Analysis. We were also selected by NEI to support pilot plant evaluations of this methodology to demonstrate compliance with regulatory requirements. AREVA currently is engaged in supporting several plants with the implementation and maintenance of their NFPA 805 Programs, post-transition. Continuing the NFPA 805 Program, Post-Transition Transitioning to a NFPA 805 program is a significant undertaking, and AREVA has the knowledge and experience to supplement the plant engineering staff with fire protection, safe shutdown and other engineers for reviewing plant modification impacts on the NFPA 805 Fire Protection Program. This effort typically includes having AREVA project team resources available to support initiation of revised and new procedures, training of modification engineers and assessment of modification impacts to the program. AREVA can provide the following minimum services for maintaining the NFPA 805 program: Review of new and completed Engineering Change packages for impacts on the NFPA 805 Program. Perform Analysis updates based on the results of new / existing modification change impacts. Provide mentoring services for the plant engineering staff for maintaining the NFPA 805 Program. Provide NFPA 805 Fire Protection Program general engineering support for Fire PRA Reviews, change evaluations, and NRC Inspections. Features and Benefits Cost and man-hour savings for maintaining the program Mentoring services for the plant engineering staff NFPA 805 Fire Protection Program change evaluation support activities

18 Modifications Impact Screening Reviews on the NFPA 805 Program The review of plant modification packages include performing a screening review to ensure the modifications do not make changes in the plant that can negatively affect the NFPA 805 Fire Protection Program. Some of the initial review steps include: The review of new, existing and emergent modification packages. Review of elementary drawings and flow diagrams for impacts. Review of critical analyses / evaluations including: a. Fire Probabilistic Risk Assessment b. Nuclear Safety Capability Assessment for At Power c. Nuclear Safety Capability Assessment for Non-power Operations d. Classical Fire Protection e. Breaker Coordination f. Code Compliance Typically, the NFPA 805 modification reviews will require the identification and development of the necessary work processes and procedures for maintaining configuration control. This effort will be key for maintaining configuration control of the program for the ongoing life of the plant. AREVA has developed these processes / procedures for other plant sites and can use the lessons learned from these projects to streamline the process for your plant. Maintaining NFPA 805 Program Documentation In addition to the modification screening for NFPA 805 impacts, revisions to analyses and calculations may be necessary for the modification design. The analyses that may require update could include: Classical Fire Protection Design Basis Documentation Nuclear Safety Capability Assessment for Post-Fire Safe Shutdown Nuclear Safety Capability Assessment for Nonpower Operations Radiation Release Assessment Breaker Coordination Study Fire PRA Updates The updates and screening reviews can be a living process for every modification performed following the License Amendment Request submittal. Mentoring of Plant Engineering Resources AREVA understands that the plant engineering staff must be responsible to implement and maintain the NFPA 805 Fire Protection Program. Therefore, AREVA can provide mentoring services so this responsibility can be transferred to the plant staff as quickly as possible. This typically is accomplished with the simultaneous mentoring and training of the plant staff in the process and tools used during the screening. To accomplish this, AREVA will commit engineering personnel on site to work with the plant staff for implementing the plant screenings and documentation updates. Experience You Can Count On AREVA offers the complete range of engineering services needed to help you successfully maintain your NFPA 805 Program. Working in concert with your plant staff personnel, we will help develop the maintenance process, provide any necessary mentoring activities and support updates to required engineering analyses and supporting documentation. AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA Inc. All rights reserved. 10/16 ANP:U-449-V4-16-ENG

19 Nuclear Plant Fire PRA Program Implementation AREVA, the world s leading nuclear supplier, is recognized throughout the industry as a premier provider of fire protection engineering, design and analysis services. Industry Issue For utilities that have decided to retain their 10CFR 50, Appendix R licensing basis, NRC Regulatory Guide has provided a path to use specific performance-based tools to evaluate and mitigate risks within the plant. Based on the NRC guidance, Fire Probabilistic Risk Assessment (Fire PRA) methodology can be used to mitigate circuit issues, such as Multiple Spurious Operations (MSOs). AREVA Solution AREVA is currently supporting our clients with the development of a new Fire PRA program with a proven track record. In addition, AREVA has supported clients in addressing the impacts of fire induced circuit MSOs, analyzing impacts on circuit routings, and updating component / cable selection data. Involved and Engaged AREVA has actively supported the development of fire protection NFPA standards, industry working groups, and industry forum presentations. Additionally, as part of a Nuclear Energy Institute (NEI) initiative, members of our team helped develop the advanced performance-based methods for circuit analysis described in NEI 00-01, Guidance for Post- Fire Safe Shutdown Circuit Analysis. We were also selected by NEI to support pilot plant evaluations with the application of this methodology to demonstrate compliance with regulatory requirements. Considering Developing a Fire PRA Program Utilities often determine the implementation of risk-informed Fire PRA methodology is the most beneficial methodology by evaluating the risk impacts of fire induced circuit MSOs versus the potential for rerouting circuits or relocating components. AREVA has the knowledge and experience to supplement the plant engineering staff with fire protection (FPE) and safe shutdown (SSE) engineers for developing and implementing a Fire PRA program as allowed by Regulatory Guide 1.189, while maintaining the current plant licensing basis. This effort typically includes having AREVA project team resources available to support initiation of revised and new procedures, and training of modification engineers for impacts on the program. AREVA can provide the following services in developing a Fire PRA program: Review of impacted cables and components for updated routing location information or for missing cable routes / endpoints Develop component failure tag cable mapping data Perform the modeling and reports for identifying MSO risks Provide mentoring services for the plant engineering staff for maintaining the Fire PRA Program Update DATATRAK software to interface with the plant cable and raceway database to maintain configuration control Features and Benefits Cost and man-hour savings for future modifications in identifying MSO risks Mentoring program for the plant engineering staff

20 Fire PRA Supporting Software (DATATRAK) The Fire PRA supporting Data Tracking System (DATATRAK) software has been developed by AREVA as a tool for modeling, managing and reporting data related to a Fire PRA program. The application has been designed to integrate the data elements and relationships required to support Fire Safe Shutdown Analyses and Fire PRA related tasks. Data screens and reports have been designed to accommodate the data input and reporting requirements for Fire PRA tasks such as the following: The System and Component Selection Modeling Interlock, Power and Sub-component Dependencies Cable Selection for Safe Shutdown, Probabilistic Risk Assessment and Non-Power Operations Cable Routing and Location Basic Event Mapping Fire PRA Impact Assessments Fire PRA Scenario Zone of Influence Calculations Evaluation / Analysis of Impact Due to Data Revisions The use of DATATRAK involves modeling information associated with components, cables and raceways to determine the impact of fire damage on Core Damage Frequency (CDF) risks within each fire zone or fire area. The software also includes Basic Event mapping and Fire Scenario cable impacts. The database system is also designed to link to external data sources such as selected plant cable raceway data tables and selected PRA Computer Aided Fault Tree Analysis CAFTA Basic Event data tables in support of the analysis. In addition, the software is also designed to identify the delta resulting from revisions to these external data sources used as design input in order to maintain data configuration control. This software solution has been developed from AREVA s expertise in supporting various NFPA 805 transition projects and has received favorable reviews from the NRC during Pilot Plant reviews. Furthermore, the design of the application supports customization to meet the needs of each plant-specific project by integrating all the elements required to support this analysis. Mentoring of Plant Engineering Resources AREVA understands that the plant engineering staff must ultimately implement the Fire PRA Program; therefore, we provide mentoring of the program so this responsibility can be transferred to the plant staff as quickly as possible. This transition typically is accomplished with the simultaneous mentoring and training of the plant staff in the process and tools used during the screening. To accomplish this, AREVA will provide our engineering personnel on site to work with the plant engineering for implementing the process of performing screenings and documentation updates. Experience You Can Count On AREVA offers the complete range of engineering services needed to help you successfully maintain your Fire PRA Program. Working in concert with your fire protection personnel, we will help map the maintenance process, develop the needed mentoring program and support the update to the required engineering analyses and supporting documentation. AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA Inc. All rights reserved. 10/16 ANP:U-450-V4-16-ENG

21 DATATRAK Software Solutions for Fire Protection Compliance AREVA, the world s leading nuclear supplier, is recognized throughout the industry as a premier provider of fire protection engineering, design and analysis services. Involved and Engaged AREVA has actively supported the nuclear industry in developing tools, processes, and guidelines for implementing a comprehensive Fire Safe Shutdown Analysis and is a leader in fire protection standards development, industry working groups, and industry forum presentations. Additionally, as part of a Nuclear Energy Institute (NEI) initiative, members of our team helped develop the advanced performance-based methods for circuit analysis described in NEI 00-01, Guidance for Post-Fire Safe Shutdown Circuit Analysis. We were also selected by NEI to support pilot plant evaluations of this methodology to demonstrate compliance with regulatory requirements. Fire Safe Shutdown Analysis Software (DATATRAK) The AREVA Fire Safe Shutdown Data Tracking System (DATATRAK) has been developed by AREVA as a tool for modeling, managing and reporting data related to performing the Fire Safe Shutdown Analysis to demonstrate compliance to 10CFR50, Appendix R and NFPA 805. The application has been designed to integrate the data elements and relationships required to support the various tasks related to performing Fire Safe Shutdown Analysis. Data screens and reports have been designed to accommodate the data input and reporting requirements such as the following: Safe Shutdown System and Component Selection Interlock, Power and Sub-component Dependencies Cable Selection Cable Routing and Location Fire Area Safe Shutdown Assessments Non-Power Operation Assessments Fire PRA Assessments NFPA 805 Transition Evaluates and analyzes impact due to data revisions (what if scenarios for proposed Plant changes) This analysis involves modeling information associated with components, cables and raceways to determine the impact of fire damage to the ability to achieve safe shutdown within each fire zone or fire area. The database system is also designed to link to external data sources such as selected plant cable raceway data tables and supplement existing cable and raceway database systems in support of the analysis. In addition, the software is also designed to identify the delta resulting from revisions to these external data sources used as design input to the Fire Safe Shutdown Analysis in order to maintain data configuration control. This software solution has been developed from AREVA s expertise in supporting various Fire Protection projects since the promulgation of 10CFR50, Appendix R and has received favorable reviews from the NRC during NFPA 805 Pilot Plant reviews. Furthermore, the design of the application supports customization to meet the needs of each plant-specific project by integrating all the elements required to support this analysis.

22 DATATRAK is designed to support the following industry guidance: NEI Guidance for Post-Fire Safe Shutdown Circuit Analysis NEI Guidance for Implementing a Risk- Informed, Performance-Base Fire Protection Program under 10 CFR 50.48(c) NFPA Performance-Based Standard for Fire Protection for Light-Water Reactor Electric Generating Plants, National Fire Protection Association NUREG CR-6850 or EPRI EPRI/NRC- RES Fire PRA Methodology for Nuclear Power Facilities, Volumes 1 and 2 MS Access-Based Version Operating System: Microsoft Windows 7, XP, 2000 MS Access 2007 (Service Pack 2 or later) Minimum Available Disk Space: 1 GB Minimum Memory: 2 GB Screen Resolution: 1024x768 or greater The MS Access version of the application consists of a front end module that is installed on individual workstations and a backend database to be installed on a shared network drive that is accessible by each workstation using the program. Computer System Requirements The DATATRAK application is available both as a Webbased application and as an MS Access application. Web-Based Version Server: Database Management System: Microsoft SQL Server 2005 or later or Oracle Ver. 8.x or later Client: Operating System: Microsoft Windows 7, XP, 2000 Minimum requirements for both server and client: Minimum Available Disk Space: 1 GB Minimum Memory: 2 GB Screen Resolution: 1024x768 or greater Experience You Can Count On AREVA offers a complete range of engineering services needed to help you implement a comprehensive Fire Safe Shutdown Analysis to demonstrate compliance with applicable regulatory requirements. Working in concert with your fire protection personnel, we will help map the transition process, develop the cost-benefit analyses needed to support key decisions, and perform the required engineering analyses, licensing submittals and supporting documentation. AREVA Inc IBM Drive, Charlotte, NC Joel Drennan Product Manager Joel.Drennan@areva.com Cell: us.areva.com The data and information contained herein are provided solely for illustration and informational purposes and create no legal obligations by AREVA. None of the information or data is intended by AREVA to be a representation or a warranty of any kind, expressed or implied, and AREVA assumes no liability for the use of or reliance on any information or data disclosed in this document AREVA Inc. All rights reserved. 10/16 ANP:U-536-V3-16-ENG