Customer Support: +1 416-401-8730

Login to i2i Subscription Intertek.com
  • There are no items in your cart
Please enter a keyword to search
Advanced search
Home
CEN
EN 14607-1:2004

EN 14607-1:2004

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

View Superseded by
superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

Space engineering - Mechanical - Part 1: Thermal control

Superseded date

09-01-2014

Published date

08-04-2004

Publisher

Comite Europeen de Normalisation

Foreword
1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
  3.1 Terms and definitions
  3.2 Definitions for unit internal thermal design
  3.3 Abbreviated terms
4 Requirements
  4.1 Mission
      4.1.1 General
      4.1.2 Ground and pre-launch
      4.1.3 Launch and ascent
      4.1.4 Planetary orbital phases
      4.1.5 Interplanetary phases
      4.1.6 Docking, docked and separation phases
      4.1.7 Descent, (re-)entry and landing
      4.1.8 Post-landing phases
  4.2 Performance
      4.2.1 General
      4.2.2 Temperatures
      4.2.3 Functionality
      4.2.4 Additional and other performance requirements
  4.3 Interfaces
      4.3.1 General
      4.3.2 Mechanical interface
      4.3.3 Electrical interface
      4.3.4 AOCS interface
      4.3.5 TM/TC interface
      4.3.6 OBDH and S/W interface
      4.3.7 Launcher interface
      4.3.8 GSE interface
  4.4 Design
      4.4.1 General
      4.4.2 Budgets
      4.4.3 Parts, materials and processes (PMP)
      4.4.4 EEE components
      4.4.5 Lifetime
      4.4.6 Predictability and testability
      4.4.7 Flexibility
      4.4.8 Accessibility
      4.4.9 Reliability
      4.4.10 Redundancy
      4.4.11 Interchangeability
      4.4.12 Maintenance
      4.4.13 Cleanliness
      4.4.14 Safety
      4.4.15 Availability
  4.5 Verification
      4.5.1 General
      4.5.2 Review of design
      4.5.3 Verification by similarity
      4.5.4 Verification by inspection
      4.5.5 Verification by analysis
      4.5.6 Verification by test
      4.5.7 Thermal Balance (TB) test
  4.6 Production and manufacturing
      4.6.1 General
      4.6.2 Manufacturing process
      4.6.3 Manufacturing drawings
      4.6.4 Quality management
      4.6.5 Cleanliness
      4.6.6 Procurement
      4.6.7 Tooling
      4.6.8 Integration
      4.6.9 Marking
      4.6.10 Packaging, handling, transportation
      4.6.11 Storage
      4.6.12 Repair
      4.6.13 In-service requirements
  4.7 Product assurance
  4.8 Deliverables
      4.8.1 General
      4.8.2 Hardware
      4.8.3 Documentation
  4.9 Use standard to define project requirements
Annex A (normative) Development approach
  A.1 Uncertainties
      A.1.1 Uncertainty philosophy
      A.1.2 Sources for temperature uncertainties
      A.1.3 Sensitivity analysis and temperature uncertainty
  A.2 Margins
  A.3 Test approach and test success criteria
      A.3.1 Test approach
      A.3.2 Test success criteria
  A.4 Correlation approach and correlation success criteria
      A.4.1 General
      A.4.2 Temperature level criteria
      A.4.3 Standard deviation criteria
      A.4.4 Individual unit success criteria
  A.5 Analysis approach
      A.5.1 Objectives of thermal analysis
      A.5.2 Thermal analysis methods
      A.5.3 Interfaces and deliverables
      A.5.4 Quality
Annex B (normative) Cryogenic temperature range
  B.1 Applicability
      B.1.1 General
      B.1.2 Cryogenic definitions (exceptions)
  B.2 Complementary terminology for the cryogenic
      temperature range
  B.3 Applicability matrix
Annex C (normative) High temperature range
  C.1 Applicability
  C.2 Complementary terminology for the high temperature
      range
  C.3 Applicability matrix
Annex D (informative) TCS development methodology
  D.1 Conventional temperature range
      D.1.1 General
      D.1.2 First stage (preliminary) configuration
      D.1.3 Final thermal design
      D.1.4 Reason for thermal analyses
      D.1.5 Typical parameter inaccuracies
  D.2 Cryogenic temperature range
      D.2.1 General
      D.2.2 Reason for thermal analyses
      D.2.3 Typical parameter inaccuracies
Bibliography

EN 14607 Part 1 of Space engineering - Mechanical specifies requirements for the discipline of thermal engineering.This document specifies the requirements for the definition, analysis, design, manufacture, verification and in­service operation of thermal control subsystems of spacecraft and other space products.This document applies to the thermal engineering activities of all spacecraft and space related products for all thermal aspects and temperature levels for space products.For this document, the complete temperature scale is divided into three ranges defined as follows:- Cryogenic temperature range, below 120 K;- Conventional temperature range, between 120 K and 420 K;- High temperature range, above 420 K.The core part of this document concerns the conventional temperature range; complementary information, requirements and definitions for the cryogenic and high temperature range respectively are provided in annexes B and C. When viewed from the perspective of a specific project context, the requirements defined in this document should be tailored to match the genuine requirements of a particular profile and circumstances of a project.NOTETailoring is a process by which individual requirements of specifications, standards and related documents are evaluated, and made applicable to a specific project by selection, and in some exceptional cases, modification of existing or addition of new requirements.This document is applicable to:- thermal engineering activities of all space and space related products, covering all thermal engineering aspects involved in the achievement of the required thermal performance, particularly: design, verification, manufacturing and in service operations;- thermal control subsystem and to relevant parts of all space products.

Committee
CEN/BT
DocumentType
Standard
PublisherName
Comite Europeen de Normalisation
Status
Superseded
SupersededBy

BS EN 14607-5-1:2004 Space engineering. Mechanical Liquid and electric propulsion for spacecraft
I.S. EN 14607-5-1:2004 SPACE ENGINEERING - MECHANICAL - PART 5-1: LIQUID AND ELECTRIC PROPULSION FOR SPACECRAFT
EN 14607-5-1:2004 Space engineering - Mechanical - Part 5-1: Liquid and electric propulsion for spacecraft

EN 13290-5:2001 Space project management - General requirements - Part 5: Configuration management
EN 13291-3:2003 Space product assurance - General requirements - Part 3: Materials, mechanical parts and processes
EN 13701:2001 Space systems - Glossary of terms
ISO 14620-1:2002 Space systems Safety requirements Part 1: System safety
EN ISO 14620-1:2002 Space systems - Safety requirements - Part 1: System safety (ISO 14620-1:2002)
ISO 128:1982 Technical drawings — General principles of presentation
EN 13291-2:2003 Space product assurance - General requirements - Part 2: Quality assurance
EN 14725:2003 Space engineering - Verification

View more information
Sorry this product is not available in your region.

Access your standards online with a subscription

Features

  • Simple online access to standards, technical information and regulations.

  • Critical updates of standards and customisable alerts and notifications.

  • Multi-user online standards collection: secure, flexible and cost effective.

Learn more on subscription solutions

or

Get in touch with us