PD CEN/CLC/TR 17603-31-14:2021 Space Engineering. Thermal Design Handbook Cryogenic Cooling

Standard Number: PD CEN/CLC/TR 17603-31-14:2021

Pages: 548

Released: 2021-08-25

ISBN: 978 0 539 16988 1

Name: Space Engineering. Thermal Design Handbook Cryogenic Cooling

Status: Standard

Overview

Welcome to the ultimate guide in space engineering thermal design! The PD CEN/CLC/TR 17603-31-14:2021 Space Engineering. Thermal Design Handbook Cryogenic Cooling is an essential resource for professionals and enthusiasts in the field of space engineering. This comprehensive handbook, released on August 25, 2021, spans 548 pages of in-depth knowledge and practical insights into cryogenic cooling systems.

Why This Handbook is Essential

In the realm of space engineering, thermal management is a critical aspect that can make or break a mission. Cryogenic cooling, in particular, is a specialized area that requires precise understanding and meticulous planning. This handbook serves as a definitive guide, offering:

• Comprehensive Coverage: With 548 pages, this handbook covers every aspect of cryogenic cooling, from fundamental principles to advanced applications.
• Up-to-Date Information: Released in 2021, it includes the latest advancements and technologies in the field.
• Expert Insights: Authored by leading experts, it provides valuable insights and practical advice that can be applied in real-world scenarios.
• Standardized Knowledge: As a recognized standard, it ensures that the information is reliable, accurate, and universally accepted.

Key Features

This handbook is packed with features that make it an indispensable tool for anyone involved in space engineering:

• Detailed Explanations: Each topic is explained in detail, making complex concepts easy to understand.
• Illustrations and Diagrams: Visual aids help to clarify intricate processes and systems.
• Case Studies: Real-world examples demonstrate the application of theoretical knowledge.
• Practical Tips: Practical advice and tips are provided to help you implement the knowledge effectively.
• Reference Material: Extensive references and further reading sections allow you to delve deeper into specific topics.

Who Should Use This Handbook?

This handbook is designed for a wide range of users, including:

• Space Engineers: Professionals working in the field of space engineering will find this handbook invaluable for designing and managing cryogenic cooling systems.
• Researchers and Academics: Those involved in research and teaching will benefit from the comprehensive coverage and detailed explanations.
• Students: Aspiring space engineers and students of related disciplines will find this handbook an excellent resource for their studies.
• Industry Professionals: Professionals in related industries, such as aerospace and defense, will also find the information relevant and useful.

Table of Contents

Here is a brief overview of the topics covered in this handbook:

1. Introduction to Cryogenic Cooling
2. Fundamental Principles of Thermal Management
3. Design and Analysis of Cryogenic Systems
4. Materials and Components for Cryogenic Cooling
5. Thermal Control Techniques
6. Testing and Validation of Cryogenic Systems
7. Case Studies and Applications
8. Future Trends and Developments

Conclusion

The PD CEN/CLC/TR 17603-31-14:2021 Space Engineering. Thermal Design Handbook Cryogenic Cooling is more than just a handbook; it is a comprehensive guide that equips you with the knowledge and tools needed to excel in the field of space engineering. Whether you are a seasoned professional or a newcomer to the field, this handbook will serve as an invaluable resource, helping you to navigate the complexities of cryogenic cooling with confidence and expertise.

Don't miss out on this essential resource. Equip yourself with the knowledge and skills needed to succeed in the challenging and exciting field of space engineering.

PD CEN/CLC/TR 17603-31-14:2021

This standard PD CEN/CLC/TR 17603-31-14:2021 Space Engineering. Thermal design handbook is classified in these ICS categories:

• 49.140 Space systems and operations

In this Part 14 cooling methods below 100 K are described. These low temperature levels are mainly required by space borne electronic systems operating under very low noise conditions. Details on the materials used and safety factors are given.

The Thermal design handbook is published in 16 Parts

TR 17603-31-01 Thermal design handbook – Part 1: View factors

TR 17603-31-02 Thermal design handbook – Part 2: Holes, Grooves and Cavities

TR 17603-31-03 Thermal design handbook – Part 3: Spacecraft Surface Temperature

TR 17603-31-04 Thermal design handbook – Part 4: Conductive Heat Transfer

TR 17603-31-05 Thermal design handbook – Part 5: Structural Materials: Metallic and Composite

TR 17603-31-06 Thermal design handbook – Part 6: Thermal Control Surfaces

TR 17603-31-07 Thermal design handbook – Part 7: Insulations

TR 17603-31-08 Thermal design handbook – Part 8: Heat Pipes

TR 17603-31-09 Thermal design handbook – Part 9: Radiators

TR 17603-31-10 Thermal design handbook – Part 10: Phase – Change Capacitors

TR 17603-31-11 Thermal design handbook – Part 11: Electrical Heating

TR 17603-31-12 Thermal design handbook – Part 12: Louvers

TR 17603-31-13 Thermal design handbook – Part 13: Fluid Loops

TR 17603-31-14 Thermal design handbook – Part 14: Cryogenic Cooling

TR 17603-31-15 Thermal design handbook – Part 15: Existing Satellites

TR 17603-31-16 Thermal design handbook – Part 16: Thermal Protection System