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Homepage>BS Standards>27 ENERGY AND HEAT TRANSFER ENGINEERING>27.120 Nuclear energy engineering>27.120.20 Nuclear power plants. Safety>BS ISO 4917-4:2024 Design of nuclear power plants against seismic events Components
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immediate downloadReleased: 2024-03-11
BS ISO 4917-4:2024 Design of nuclear power plants against seismic events Components

BS ISO 4917-4:2024

Design of nuclear power plants against seismic events Components

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Standard number:BS ISO 4917-4:2024
Pages:46
Released:2024-03-11
ISBN:978 0 539 13951 8
Status:Standard
BS ISO 4917-4:2024 - Design of Nuclear Power Plants Against Seismic Events Components

BS ISO 4917-4:2024 - Design of Nuclear Power Plants Against Seismic Events Components

Standard Number: BS ISO 4917-4:2024

Pages: 46

Released: 2024-03-11

ISBN: 978 0 539 13951 8

Status: Standard

Overview

The BS ISO 4917-4:2024 standard is a comprehensive guide dedicated to the design of nuclear power plants to withstand seismic events. This essential document provides detailed guidelines and methodologies to ensure the safety and integrity of nuclear power plant components during seismic activities. Released on March 11, 2024, this standard is a must-have for engineers, designers, and safety professionals in the nuclear energy sector.

Why Choose BS ISO 4917-4:2024?

Seismic events pose a significant risk to the structural integrity and operational safety of nuclear power plants. The BS ISO 4917-4:2024 standard addresses these challenges by offering:

  • Comprehensive Guidelines: Detailed instructions on designing components to withstand seismic forces.
  • Up-to-Date Information: The latest research and technological advancements in seismic design.
  • Global Relevance: Applicable to nuclear power plants worldwide, ensuring a universal standard of safety.
  • Expert Insights: Contributions from leading experts in nuclear engineering and seismic safety.

Key Features

The BS ISO 4917-4:2024 standard includes several key features that make it an invaluable resource:

  • Seismic Hazard Assessment: Methods for evaluating seismic hazards specific to nuclear power plant sites.
  • Design Criteria: Criteria for the design and analysis of structures, systems, and components to ensure they can withstand seismic events.
  • Performance Objectives: Clear performance objectives to guide the design process and ensure safety and reliability.
  • Material Selection: Guidelines for selecting materials that can endure seismic stresses.
  • Testing and Validation: Procedures for testing and validating the seismic resilience of components.

Who Should Use This Standard?

The BS ISO 4917-4:2024 standard is designed for a wide range of professionals in the nuclear energy sector, including:

  • Nuclear Engineers: To design and analyze components for seismic resilience.
  • Safety Professionals: To ensure compliance with safety standards and regulations.
  • Project Managers: To oversee the implementation of seismic design principles in nuclear power plant projects.
  • Regulatory Authorities: To evaluate and approve the seismic design of nuclear power plants.

Benefits of Compliance

Adhering to the BS ISO 4917-4:2024 standard offers numerous benefits, including:

  • Enhanced Safety: Improved safety and reliability of nuclear power plants during seismic events.
  • Regulatory Compliance: Ensures compliance with national and international safety regulations.
  • Risk Mitigation: Reduces the risk of catastrophic failures and associated costs.
  • Reputation: Demonstrates a commitment to safety and excellence in nuclear power plant design.

Table of Contents

The BS ISO 4917-4:2024 standard is organized into several sections, each covering a critical aspect of seismic design for nuclear power plants:

  1. Introduction: Overview of the standard and its objectives.
  2. Seismic Hazard Assessment: Methods for evaluating seismic hazards.
  3. Design Criteria: Criteria for designing components to withstand seismic forces.
  4. Performance Objectives: Clear performance objectives for seismic design.
  5. Material Selection: Guidelines for selecting appropriate materials.
  6. Testing and Validation: Procedures for testing and validating seismic resilience.
  7. Case Studies: Real-world examples of successful seismic design implementations.
  8. Appendices: Additional resources and references.

Conclusion

The BS ISO 4917-4:2024 standard is an indispensable resource for anyone involved in the design, construction, and operation of nuclear power plants. By providing comprehensive guidelines and the latest insights into seismic design, this standard ensures that nuclear power plants can withstand seismic events, safeguarding both the environment and public safety. Invest in the BS ISO 4917-4:2024 standard today to enhance the safety and reliability of your nuclear power plant projects.

DESCRIPTION

BS ISO 4917-4:2024


This standard BS ISO 4917-4:2024 Design of nuclear power plants against seismic events is classified in these ICS categories:
  • 91.120.25 Seismic and vibration protection
  • 27.120.20 Nuclear power plants. Safety

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