Context:
Rapid advancements in reusable rocket technology are transforming the global space industry by significantly reducing launch costs. With the space economy projected to cross $1 trillion by 2030, countries including India are investing in reusable systems to enhance competitiveness.
Key Highlights:
Cost Revolution in Space Launch
β’ Reusable rockets reduce space access costs by 5β20 times compared to expendable systems.
β’ SpaceX Falcon 9 first stages recovered over 520 times.
β’ Shift from a disposable launch model to a transportation model.
ISROβs Initiatives
β’ Development of Reusable Launch Vehicle (RLV) technology.
β’ Focus on recovery of spent first stages.
β’ Aim to enhance cost competitiveness in global launch market.
Technical Concepts
β’ Tsiolkovsky Rocket Equation:
β Relates velocity change to exhaust velocity and mass ratio.
β Highlights importance of minimizing structural mass.
- Staging:
β Multiple propulsion units discarded sequentially to reduce weight. - Retro-propulsion:
β Using engines to decelerate during landing. - Vertical Integration:
β Controlling multiple stages of supply chain for efficiency.
Engineering Constraints
β’ Structural fatigue and thermal stress limit reuse cycles.
β’ Refurbishment economics critical to viability.
UPSC Relevance
β’ GS 3 β Science & Technology: Rocket science, space technology.
β’ GS 3 β Economy: Space economy growth.
β’ Prelims: Rocket equation, staging, ISRO missions.