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BS EN 16603-10-04:2021:2022 Edition

BS EN 16603-10-04:2021:2022 Edition

$247.30

Space engineering. Space environment

Published By Publication Date Number of Pages
BSI 2022 204
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PDF Catalog

PDF Pages PDF Title
2 undefined
17 1 Scope
18 2 Normative references
21 3 Terms, definitions and abbreviated terms
3.1 Terms defined in other standards
3.2 Terms specific to the present standard
29 3.3 Abbreviated terms
31 4 Gravity
4.1 Introduction and description
4.1.1 Introduction
4.1.2 Gravity model formulation
33 4.1.3 Third body gravitation
4.1.4 Tidal effects
4.2 Requirements for model selection and application
4.2.1 General requirements for gravity models
34 4.2.2 Selection and application of gravity models
35 5 Geomagnetic fields
5.1 Introduction and description
5.1.1 The geomagnetic field and its sources
5.1.2 The internal field
5.1.3 External field: ionospheric components
36 5.1.4 External magnetic field: magnetospheric components
5.1.5 Models of the internal and external geomagnetic fields
5.1.5.1 Models of the internal field
37 5.1.5.2 Models of the external field
5.2 Requirements for model selection and application
5.2.1 The internal field
38 5.2.1.1 Application
5.2.2 The external field
39 5.3 Tailoring guidelines
40 6 Natural electromagnetic radiation and indices
6.1 Introduction and description
6.1.1 Introduction
6.1.2 Electromagnetic radiation and indices
6.1.2.1 Total Solar Irradiance (TSI)
41 6.1.2.2 Solar spectrum
6.1.2.3 Indices
43 6.2 Requirements
6.2.1 Electromagnetic radiation
6.2.2 Reference index values
44 6.2.3 Tailoring guidelines
6.3 Tables
46 7 Neutral atmospheres
7.1 Introduction and description
7.1.1 Introduction
7.1.2 Structure of the Earth’s atmosphere
7.1.3 Models of the Earth’s atmosphere
7.1.3.1 NRLMSISE-00 model
47 7.1.3.2 JB-2006 model
7.1.4 Wind model of the Earth’s homosphere and heterosphere
7.2 Requirements for atmosphere and wind model selection
7.2.1 Earth atmosphere
7.2.1.1 General
48 7.2.1.2 Application guidelines
49 7.2.2 Earth wind model
7.2.3 Models of the atmospheres of the planets and their satellites
50 8 Plasmas
8.1 Introduction and description
8.1.1 Introduction
8.1.2 Ionosphere
51 8.1.3 Plasmasphere
8.1.4 Outer magnetosphere
52 8.1.5 Solar wind
8.1.6 Magnetosheath
8.1.7 Magnetotail and L2
53 8.1.8 Planetary environments
8.1.9 Induced environments
8.2 Requirements for model selection and application
8.2.1 General
54 8.2.2 Ionosphere
8.2.3 Auroral charging environment
55 8.2.4 Plasmasphere
56 8.2.5 Outer magnetosphere
8.2.6 The solar wind (interplanetary environment)
8.2.7 Other plasma environments
8.2.7.1 Magnetosheath
57 8.2.7.2 Magnetotail, distant magnetosheath and L2
8.2.7.3 Planetary environments
8.2.7.4 Induced environments
8.2.8 Tables
58 9 Energetic particle radiation
9.1 Introduction and description
9.1.1 Introduction
9.1.2 Overview of energetic particle radiation environment and effects
9.1.2.1 Radiation belts
9.1.2.2 Solar energetic particles
59 9.1.2.3 Galactic cosmic rays
9.1.2.4 Geomagnetic shielding
9.1.2.5 Other planets
9.1.2.6 Neutrons
60 9.1.2.7 Secondary radiation
9.1.2.8 Other radiation sources
9.1.2.9 Effects survey
61 9.2 Requirements for energetic particle radiation environments
9.2.1 Trapped radiation belt fluxes
9.2.1.1 Long term average fluxes for Earth orbits
62 9.2.1.2 Long term Flux models for specific orbits
63 9.2.1.3 Worst case trapped electron fluxes for internal charging analyses
9.2.1.4 Worst case trapped proton fluxes
9.2.2 Solar particle event models
9.2.2.1 Directionality
9.2.2.2 Solar Particle Fluence Models
64 9.2.2.3 Solar Particle Peak Flux Models
65 9.2.3 Cosmic ray models
9.2.4 Geomagnetic shielding
9.2.5 Neutrons
9.2.6 <>
9.2.7 L2 and the Deep Magnetotail Environment
9.3 Preparation of a radiation environment specification
67 9.4 Tables
68 10 Space debris and meteoroids
10.1 Introduction and description
10.1.1 The particulate environment in near Earth space
10.1.2 Space debris
69 10.1.3 Meteoroids
10.2 Requirements for impact risk assessment and model selection
10.2.1 General requirements for meteoroids and space debris
10.2.2 Model selection and application
10.2.2.1 Space debris
71 10.2.2.2 Meteoroids
72 10.2.3 <>
73 10.2.4 The meteoroid model
10.2.4.1 <>
10.2.4.2 <>
10.2.4.3 <>
10.2.4.4 <>
10.2.4.5 Meteoroid streams fluxes
10.2.5 Impact risk assessment
74 10.2.6 Margins
75 11 Contamination
11.1 Introduction and description
11.1.1 Introduction
11.1.2 Description of molecular contamination
11.1.2.1 Primary sources of molecular contamination
76 11.1.2.2 Secondary sources of molecular contamination
11.1.3 Transport mechanisms
11.1.4 Description of particulate contamination
11.1.4.1 Sources of particulate contamination
11.1.5 Transport mechanisms
77 11.2 Requirements for on-orbit contamination assessment

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