This is the prime source for all research on space and planetary resource exploration - presenting comprehensively the emerging and exciting field of space manufacturing.
This is the prime source for all research on space and planetary resource exploration - presenting comprehensively the emerging and exciting field of space manufacturing.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Volker Hessel is Professor at the University of Adelaide (Australia) in the School of Chemical Engineering and Advanced Materials. He is the scientific director of the Andy Thomas Centre for Space Resources (ATCSR). He was Director R&D at the "Institut fuer Mikrotechnik Mainz GmbH" (Germany) as well as Professor at Eindhoven University of Technology (The Netherlands). His research is focused on microfluidic/continuous-flow and plasma-chemistry based engineering, and space-resource research. He is (co-)author of > 550 peer-reviewed publications and several books. > 50 speaking engagements, and she is a member of the National Academies of Sciences Committee on Biological and Physical Sciences in Space (CBPSS). > 110 peer-reviewed publications, mostly in planetary science >100 peer-reviewed publications.
Inhaltsangabe
Introductory Statement: National Aeronautics and Space Administration Introductory Statement: European Space Agency Introductory Statement: Japan Aerospace Exploration Agency Introductory Statement: Australian Space Agency PART 1: SPACE MEDICINE AND HUMAN HEALTH 1. Human Health in Space 2. Space Medicine and Countermeasures 3. Frontier Medical Technologies to Support Space Exploration PART 2: SPACE BIOLOGY 4. Plant Biology and a New Approach to Space Farming 5. Stem Cell Biology and Tissue Engineering in Space PART 3: SPACE CHEMISTRY 6. Chemistry Related Innovations in Space. Benefits of Flow Chemistry 7. Catalysis in Space Environments PART 4: SPACE MINING 8. Mining and Microbiology for the Solar System Silicate and Basalt Economy 9. Near-Earth Asteroids as Promising Candidates for Space Resources 10. Space Mining of Phosphorus from Moon Crust?Spillover of Learning from Earth 11. Lunar Resources in Support of Human Interplanetary Settlement & Limitations PART 5: SPACE FARMING & FOOD 12. PONDS: A New Method for Plant Production in Space 13. Space Food for the Future: Nutritional Challenges and Technological Strategies for Healthy and High-Quality Products PART 6: ADVANCED MATERIALS 14. Metal Alloy Synthesis in Microgravity 15. Layer-by-Layer Deposition in Microgravity for Enhanced Thin Film Production 16. 3D Bioprinting Aboard the International Space Station using the Techshot BioFabrication Facility PART 7: SPACE CONSTRUCTION 17. Beyond the ISS: The World's First Commercial Space Station 18. Leveraging Open Innovation to Incentivize Advances in Additive Construction in Space and on Earth PART 8: SPACE POLICY, LAW, AND ECONOMICS 19. The Impact of the Artemis Accords on Resource Extraction 20. Space Resources: Physical Constraints, Policy Choices, & Ethical Considerations The Future Of Space Exploration: A Young Perspective
Introductory Statement: National Aeronautics and Space Administration Introductory Statement: European Space Agency Introductory Statement: Japan Aerospace Exploration Agency Introductory Statement: Australian Space Agency PART 1: SPACE MEDICINE AND HUMAN HEALTH 1. Human Health in Space 2. Space Medicine and Countermeasures 3. Frontier Medical Technologies to Support Space Exploration PART 2: SPACE BIOLOGY 4. Plant Biology and a New Approach to Space Farming 5. Stem Cell Biology and Tissue Engineering in Space PART 3: SPACE CHEMISTRY 6. Chemistry Related Innovations in Space. Benefits of Flow Chemistry 7. Catalysis in Space Environments PART 4: SPACE MINING 8. Mining and Microbiology for the Solar System Silicate and Basalt Economy 9. Near-Earth Asteroids as Promising Candidates for Space Resources 10. Space Mining of Phosphorus from Moon Crust?Spillover of Learning from Earth 11. Lunar Resources in Support of Human Interplanetary Settlement & Limitations PART 5: SPACE FARMING & FOOD 12. PONDS: A New Method for Plant Production in Space 13. Space Food for the Future: Nutritional Challenges and Technological Strategies for Healthy and High-Quality Products PART 6: ADVANCED MATERIALS 14. Metal Alloy Synthesis in Microgravity 15. Layer-by-Layer Deposition in Microgravity for Enhanced Thin Film Production 16. 3D Bioprinting Aboard the International Space Station using the Techshot BioFabrication Facility PART 7: SPACE CONSTRUCTION 17. Beyond the ISS: The World's First Commercial Space Station 18. Leveraging Open Innovation to Incentivize Advances in Additive Construction in Space and on Earth PART 8: SPACE POLICY, LAW, AND ECONOMICS 19. The Impact of the Artemis Accords on Resource Extraction 20. Space Resources: Physical Constraints, Policy Choices, & Ethical Considerations The Future Of Space Exploration: A Young Perspective
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