PD CEN/CLC/TR 17603-31-09:2021 Space Engineering. Thermal Design Handbook Radiators

Standard Number: PD CEN/CLC/TR 17603-31-09:2021

Pages: 130

Released: 2021-08-27

ISBN: 978 0 539 16983 6

Name: Space Engineering. Thermal Design Handbook Radiators

Status: Standard

Overview

Welcome to the ultimate guide in space engineering thermal design! The PD CEN/CLC/TR 17603-31-09:2021 Space Engineering. Thermal Design Handbook Radiators is an essential resource for engineers, researchers, and professionals involved in the field of space technology. This comprehensive handbook provides in-depth knowledge and practical insights into the thermal design of radiators, a critical component in space engineering.

Why This Handbook is Essential

Space missions demand the highest level of precision and reliability, and thermal management is a key factor in ensuring the success of these missions. Radiators play a crucial role in dissipating excess heat generated by spacecraft systems and instruments. This handbook offers a detailed exploration of the principles, methodologies, and best practices for designing efficient and effective radiators for space applications.

Key Features

• Comprehensive Coverage: Spanning 130 pages, this handbook covers all aspects of thermal design for radiators, from fundamental principles to advanced techniques.
• Up-to-Date Information: Released on August 27, 2021, this handbook incorporates the latest advancements and standards in space engineering.
• Expert Insights: Authored by leading experts in the field, this handbook provides valuable insights and practical guidance for designing radiators that meet the stringent requirements of space missions.
• Standardized Reference: As a recognized standard (PD CEN/CLC/TR 17603-31-09:2021), this handbook serves as an authoritative reference for professionals in the space industry.

In-Depth Content

The handbook is meticulously organized to provide a logical flow of information, making it easy to navigate and understand. Key topics covered include:

• Thermal Design Principles: An introduction to the fundamental principles of thermal design, including heat transfer mechanisms and thermal control strategies.
• Radiator Design Methodologies: Detailed methodologies for designing radiators, including material selection, geometric considerations, and performance optimization.
• Thermal Analysis Techniques: Advanced techniques for thermal analysis, including computational methods and simulation tools.
• Case Studies: Real-world case studies that illustrate the application of thermal design principles and methodologies in actual space missions.
• Best Practices: Practical tips and best practices for ensuring the reliability and efficiency of radiator designs.

Who Should Use This Handbook?

This handbook is an invaluable resource for a wide range of professionals, including:

• Space Engineers: Engineers involved in the design, development, and testing of spacecraft and space systems.
• Researchers: Academics and researchers studying thermal management and space engineering.
• Project Managers: Managers overseeing space missions and projects, ensuring that thermal design requirements are met.
• Students: Students pursuing degrees in aerospace engineering, mechanical engineering, and related fields.

Conclusion

The PD CEN/CLC/TR 17603-31-09:2021 Space Engineering. Thermal Design Handbook Radiators is a must-have resource for anyone involved in the field of space engineering. With its comprehensive coverage, expert insights, and practical guidance, this handbook provides the knowledge and tools needed to design efficient and reliable radiators for space applications. Whether you are an engineer, researcher, project manager, or student, this handbook will serve as an invaluable reference in your work and studies.

Equip yourself with the latest knowledge and best practices in thermal design for radiators and ensure the success of your space missions with this authoritative handbook.

PD CEN/CLC/TR 17603-31-09:2021

This standard PD CEN/CLC/TR 17603-31-09:2021 Space Engineering. Thermal design handbook is classified in these ICS categories:

• 49.140 Space systems and operations

In this Part 9 of the spacecraft thermal control and design data handbooks, view factors of diffuse and specular thermal surfaces are discussed.

For diffuse surfaces, calculations are given for radiation emission and absorption between different configurations of planar, cylindrical, conical, spherical and ellipsoidal surfaces for finite and infinite surfaces.

For specular surfaces the affect of reflectance on calculations for view factors is included in the calculations. View factors for specular and diffuse surfaces are also included.

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