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Homepage>BS Standards>49 AIRCRAFT AND SPACE VEHICLE ENGINEERING>49.140 Space systems and operations>PD CEN/TR 17603-31-17:2022 Space engineering. Thermal analysis handbook
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PD CEN/TR 17603-31-17:2022 Space engineering. Thermal analysis handbook

PD CEN/TR 17603-31-17:2022

Space engineering. Thermal analysis handbook

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Standard number:PD CEN/TR 17603-31-17:2022
Pages:68
Released:2022-05-16
ISBN:978 0 539 18746 5
Status:Standard
PD CEN/TR 17603-31-17:2022 Space engineering. Thermal analysis handbook

PD CEN/TR 17603-31-17:2022 Space Engineering. Thermal Analysis Handbook

Standard Number: PD CEN/TR 17603-31-17:2022

Pages: 68

Released: 2022-05-16

ISBN: 978 0 539 18746 5

Status: Standard

Overview

The PD CEN/TR 17603-31-17:2022 Space Engineering. Thermal Analysis Handbook is an essential resource for professionals in the field of space engineering. Released on May 16, 2022, this comprehensive handbook spans 68 pages and provides in-depth guidance on thermal analysis, a critical aspect of space engineering. With its detailed methodologies and standards, this handbook is designed to support engineers in ensuring the thermal integrity and performance of space systems.

Key Features

  • Comprehensive Coverage: The handbook covers a wide range of topics related to thermal analysis in space engineering, ensuring that all critical aspects are addressed.
  • Up-to-Date Information: Released in 2022, this handbook includes the latest standards and methodologies, making it a current and relevant resource for professionals.
  • Expert Guidance: Authored by experts in the field, the handbook provides authoritative guidance and best practices for thermal analysis.
  • Practical Applications: The handbook includes practical examples and case studies, helping engineers apply the concepts and methodologies to real-world scenarios.
  • Standardized Approach: As a recognized standard, the handbook ensures consistency and reliability in thermal analysis practices across the industry.

Why Thermal Analysis is Crucial in Space Engineering

Thermal analysis is a vital component of space engineering, as it ensures that spacecraft and other space systems can withstand the extreme temperatures encountered in space. Proper thermal management is essential for the functionality and longevity of these systems. The PD CEN/TR 17603-31-17:2022 handbook provides the necessary tools and knowledge to perform accurate thermal analysis, helping engineers to:

  • Predict and mitigate thermal stresses and deformations.
  • Ensure the thermal stability of spacecraft components.
  • Optimize thermal control systems for efficiency and reliability.
  • Comply with industry standards and regulations.

Who Should Use This Handbook?

This handbook is an invaluable resource for a wide range of professionals in the space engineering field, including:

  • Thermal Engineers: Those responsible for the thermal design and analysis of space systems will find this handbook particularly useful.
  • Systems Engineers: Professionals involved in the overall design and integration of space systems can benefit from the comprehensive thermal analysis guidelines provided.
  • Project Managers: Understanding the thermal requirements and challenges can help project managers ensure that projects stay on track and meet performance criteria.
  • Researchers and Academics: Those conducting research in space engineering and thermal analysis will find this handbook to be a valuable reference.

Detailed Content

The PD CEN/TR 17603-31-17:2022 handbook is meticulously organized to provide clear and accessible information. Key sections include:

  • Introduction to Thermal Analysis: An overview of the principles and importance of thermal analysis in space engineering.
  • Thermal Environment: Detailed information on the thermal conditions encountered in space and their impact on spacecraft.
  • Thermal Design and Control: Guidelines for designing effective thermal control systems to maintain optimal temperatures.
  • Thermal Testing and Validation: Methods for testing and validating thermal designs to ensure they meet performance requirements.
  • Case Studies: Real-world examples and case studies that illustrate the application of thermal analysis methodologies.

Conclusion

The PD CEN/TR 17603-31-17:2022 Space Engineering. Thermal Analysis Handbook is an indispensable tool for anyone involved in the thermal analysis and design of space systems. With its comprehensive coverage, expert guidance, and practical applications, this handbook provides the knowledge and standards needed to ensure the thermal integrity and performance of space systems. Whether you are a thermal engineer, systems engineer, project manager, or researcher, this handbook will support you in achieving excellence in your work.

DESCRIPTION

PD CEN/TR 17603-31-17:2022


This standard PD CEN/TR 17603-31-17:2022 Space engineering. Thermal analysis handbook is classified in these ICS categories:
  • 49.140 Space systems and operations
This handbook is dedicated to the subject of thermal analysis for space applications. Thermal analysis is an important method of verification during the development of space systems. The purpose of this handbook is to provide thermal analysts with practical guidelines which support efficient and high quality thermal modelling and analysis. Specifically, the handbook aims to improve: 1.the general comprehension of the context, drivers and constraints for thermal analysis campaigns; 2.the general quality of thermal models through the use of a consistent process for thermal modelling; 3.the credibility of thermal model predictions by rigorous verification of model results and outputs; 4.long term maintainability of thermal models via better model management, administration and documentation; 5.the efficiency of inter-organisation collaboration by setting out best practice for model transfer and conversion. The intended users of the document are people, working in the domain of space systems, who use thermal analysis as part of their work. These users can be in industry, in (inter)national agencies, or in academia. Moreover, the guidelines are designed to be useful to users working on products at every level of a space project - that is to say at system level, sub-system level, unit level etc. In some cases a guideline could not be globally applicable (for example not relevant for very high temperature applications). In these cases the limitations are explicitly given in the text of the handbook.