Better Worlds II:
(Redirected from Rocket Propulsion)
Space Systems Engineering
Fundamentals, Technologies, and Projects for the 21st Century
- From the Introduction:
This is the second volume of a two-volume set about building a better life for ourselves, our community, and the world. Building is meant in both the literal sense of construction and production, and in the social sense of how people work together to reach our goals. The core ideas behind our approach can be summarized as follows:
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Table of Contents
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Part 1: Science and Engineering Fundamentals
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- Chapter 1 - Basic Sciences - Physics: Units, Motion, Forces
- Chapter 2 - Orbital Mechanics - Orbits, Velocity Map, Powered Flight, Mass Ratio, Staging
- Chapter 3 - Propulsive Forces - Reaction from Expelled Material, External Interaction
- Chapter 4 - Energy Sources - Mechanical, Chemical, Thermal, Electrical, Beam, Nuclear, Matter Conversion
- Chapter 5 - Systems Engineering - In General, Life Cycle, Requirements
- page 2: Functional Analysis, Allocation, Modeling, Optimization and Trade Studies, Synthesis, Work Breakdown Structure, Elements by Type
- Chapter 6 - Engineering Tools - Data, Computer Hardware, Computer Software
- Chapter 7 - Engineering Specialties - Aerospace, Other Specialties
- Chapter 8 - Organization and Economics - Organization, Funding, Financial Analysis
- Chapter 9 - Existing Programs - Government
- page 2: Government (cont.), Commercial, Not-for-Profit
- Chapter 10 - Future Projects - Transport, Exploration, Mining, Industrial Capacity, Manufactured Items, Energy, Engineered Environments, Communication, Entertainment
Part 2: Transport Technologies
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- Chapter 11 - Structural Methods - Static, Dynamic
- Chapter 12 - Guns and Accelerators - Mechanical, Artillery
- page 2: Light Gas, Electric
- Chapter 13 - Combustion Engines - Air Breathing, Internally Fueled (Rockets)
- Chapter 14 - Thermal Engines - Electro-thermal, Photo-thermal, Nuclear-thermal
- Chapter 15 - Bulk Matter Engines - Rotary, Coilgun, Railgun
- Chapter 16 - Ion and Plasma Engines - Ion, Arcjet, Plasma
- Chapter 17 - High Energy Particle Engines - Particle Rockets, External Particle Interaction
- Chapter 18 - Photon Engines - Photon Sails, Photon Rockets, Photon Gun
- Chapter 19 - External Force Methods - Magnetic, Gravity, Aerodynamic, Mechanical
- Chapter 20 - Theoretical Methods - not currently supported by established physics
- Chapter 21 - Comparisons Among Methods - Performance, Status, Cost
Part 3: Engineering Technologies
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- Chapter 22 - Design Factors - Technology, Availability, Physical, Integration, Human, Environment
- Chapter 23 - Subsystem Design
- Chapter 24 - Resources - Exploration Methods
- page 2 - Resource Exploration - Resource Inventory
- Chapter 25 - Resource Extraction - Mining: Solid, Atmospheres, Liquids, Gas Giants, Particulates, Stars | Energy: Solar, Fission, Fusion, Orbital
- Chapter 26 - Processing and Fabrication - Production Control, Handling and Storage, Materials Processing, Parts Production
- Chapter 27 Assembly and Construction - Assembly, Construction, Outfitting
- Chapter 28 - Verification and Test
- Chapter 29 - Operation and Maintenance - Operations Concepts, Tasks, Maintenance Concepts, Tasks
- Chapter 30 - Recycling Methods - Waste Recycling, Closed Loop Life Support
Part 4: Projects and Programs
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- Chapter 31 - Program Overview - Goals, Summary, Structure
- Chapter 32 - Phase 0: Research & Development - Planning, Process, Sub-Phases & Tasks
- Chapter 33 - Phases 1 to 3 For Earth - Locations: Starter, Network, Distributed, Industrial, Difficult, Extreme
- Chapter 34 - Phase 2B: Industrial Locations for Space - Survey, Drivers, Concept, Details
- page 2 - Hypervelocity Launcher
- Chapter 35 - Phase 4A: Low Orbit Development - Features, Projects
- page 2: - Orbital Assembly
- Chapter 36 - Phase 4B: High Orbit Development - Features, Industries, Drivers, Projects, Integration, Details
- Chapter 37 - Phase 4C: Inner Interplanetary Development - System Concept, High Orbit Skyhook, Inclination Station, Transfer Habitats
- Chapter 38 - Orbital Mining - Rationale, Mining Steps
- page 2 - Ore Types, Example Missions, Design
- Chapter 39 - Processing Factory - Outputs, Process Research and Development, Factory Design
- Chapter 40 - Spaceport Network - Concept, Applications, Design Parameters, Design Components, Design Issues
- Chapter 41 - Phases 4D-F: - Main Belt & Trojan, Outer Interplanetary, Scattered, Hills, & Oort
- Chapter 42 - Phase 5A: Lunar Development - Features, Industry Survey, Drivers, Projects
- page 2 - Projects (cont.)
- Chapter 43 - Phase 5B: Mars Development - Near Term: Phobos and Deimos, Mars Skyhooks, Mars Surface Systems, Long Term Development: Magnetosphere, Greenhouses, Full Atmosphere
- Chapter 44 - Phases 5C-E - Venus & Mercury, Jupiter System, Outer Gas Giants
- Chapter 45 - Phase 6: Interstellar Development - Nearby Interstellar, Nearby Exostellar, Farther Interstellar
Part 5: Design Studies
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- Study 1 - Conceptual Design for Human Expansion - Goals and Benefits
- Study 2 - Environment Ranges
- Study 3 - Open Source Space Program