PD CEN/CLC/TR 17603-31-15:2021
Space Engineering. Thermal design handbook Existing Satellites
| Standard number: | PD CEN/CLC/TR 17603-31-15:2021 |
| Pages: | 140 |
| Released: | 2021-08-27 |
| ISBN: | 978 0 539 17017 7 |
| Status: | Standard |
PD CEN/CLC/TR 17603-31-15:2021 Space Engineering. Thermal Design Handbook Existing Satellites
Standard Number: PD CEN/CLC/TR 17603-31-15:2021
Pages: 140
Released: 2021-08-27
ISBN: 978 0 539 17017 7
Status: Standard
Overview
The PD CEN/CLC/TR 17603-31-15:2021 Space Engineering. Thermal Design Handbook Existing Satellites is an essential resource for professionals in the aerospace industry. This comprehensive handbook provides detailed guidelines and methodologies for the thermal design of existing satellites, ensuring optimal performance and longevity in the harsh environment of space.
Key Features
- Comprehensive Coverage: Spanning 140 pages, this handbook covers all aspects of thermal design for existing satellites, from fundamental principles to advanced techniques.
- Up-to-Date Information: Released on August 27, 2021, this standard incorporates the latest advancements and best practices in space engineering.
- ISBN: 978 0 539 17017 7, ensuring easy reference and cataloging.
- Standard Status: Recognized as a standard, this handbook is a reliable and authoritative source of information.
Why Choose This Handbook?
The thermal design of satellites is a critical aspect of space engineering, as it directly impacts the functionality and durability of the satellite. This handbook provides:
- Expert Guidance: Authored by leading experts in the field, this handbook offers valuable insights and practical advice for thermal design.
- Detailed Methodologies: Step-by-step methodologies and best practices are outlined to help engineers design effective thermal systems for satellites.
- Real-World Applications: Case studies and examples of existing satellites are included to illustrate the application of thermal design principles in real-world scenarios.
- Enhanced Performance: By following the guidelines in this handbook, engineers can ensure that their satellites operate efficiently and reliably in space.
Who Should Use This Handbook?
This handbook is an invaluable resource for a wide range of professionals in the aerospace industry, including:
- Aerospace Engineers: Engineers involved in the design, development, and testing of satellites will find this handbook particularly useful.
- Thermal Engineers: Specialists in thermal management and control will benefit from the detailed methodologies and best practices outlined in this handbook.
- Project Managers: Managers overseeing satellite projects can use this handbook to ensure that their teams are following the latest standards and best practices.
- Researchers and Academics: Those conducting research in the field of space engineering will find this handbook to be a valuable reference.
Table of Contents
The handbook is organized into several key sections, each covering a specific aspect of thermal design for existing satellites:
- Introduction to Thermal Design
- Thermal Environment in Space
- Thermal Control Techniques
- Thermal Analysis and Simulation
- Materials and Components for Thermal Control
- Case Studies of Existing Satellites
- Future Trends in Thermal Design
- Appendices and References
Conclusion
The PD CEN/CLC/TR 17603-31-15:2021 Space Engineering. Thermal Design Handbook Existing Satellites is an indispensable tool for anyone involved in the design and development of satellites. With its comprehensive coverage, expert guidance, and practical methodologies, this handbook provides everything you need to ensure the thermal performance and reliability of your satellite projects.
PD CEN/CLC/TR 17603-31-15:2021
This standard PD CEN/CLC/TR 17603-31-15:2021 Space Engineering. Thermal design handbook is classified in these ICS categories:
- 49.140 Space systems and operations
In this Part 15, existing satellites are described and examined from a thermal control and design view. The thermal control requirements are given and an assessment is made of the thermal control systems used against performance for each satellite.
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