GSLV’s JOURNEY: OVERCOMING CHALLENGES IN ROCKETRY FOR ISRO’s AMBITIOUS MISSIONS

TAG: GS 3: SCIENCE AND TECHNOLOGY

THE CONTEXT: The recent launch of the INSAT-3DS satellite by the Indian Space Research Organisation (ISRO) marked a significant achievement, not just for the satellite but also for the GSLV (Geosynchronous Satellite Launch Vehicle) rocket.

EXPLANATION:

• Despite its previous struggles, GSLV successfully delivered the satellite into its intended orbit, showcasing a momentous accomplishment for ISRO.
• The GSLV rocket, a vital component of ISRO’s launch fleet, has earned the nickname ‘naughty boy’ due to its track record, characterized by a high failure rate compared to its counterparts.
• Out of 15 previous launches, four ended unsuccessfully, raising concerns about its reliability.
• The recent success, however, has shifted the narrative around GSLV.

Comparative Performance with PSLV and LVM3:

• GSLV’s historical performance stands in contrast to the PSLV (Polar Satellite Launch Vehicle), which, despite its 60 launches, has only faced two failures since its inaugural flight in 1993.
• LVM3, also known as GSLV-MkIII, with seven successful launches, further emphasizes the contrast, having never encountered a failure.

Cryogenic Engine Challenges:

• GSLV’s challenges stem primarily from its cryogenic engine, located in the third and final stage of the rocket.
• This engine utilizes liquid hydrogen, known for its efficiency as a rocket fuel, but requires handling at extremely low temperatures.
• The GSLV’s cryogenic engine is a reverse-engineered version of a Russian design, initially part of a deal disrupted by U.S. objections under the Missile Technology Control Regime.

Indigenous Cryogenic Technology Success:

• In the pursuit of self-reliance, ISRO developed its indigenous cryogenic engine, distinct from the GSLV’s.
• This engine, employed in the LVM3 rocket, has showcased remarkable reliability and successful launches, including missions like Chandrayaan-2 and Chandrayaan-3.
• The indigenously developed cryogenic technology reflects ISRO’s mastery in rocketry.

The GSLV’s Road to Redemption:

• Despite past setbacks, GSLV’s recent flawless flight has bolstered confidence in its capabilities.
• The successful launch of INSAT-3DS, emphasizing GSLV’s prowess, marks a pivotal moment in its journey.
• The rocket’s upcoming mission, carrying the NISAR (NASA-ISRO Synthetic Aperture Radar) satellite, presents a crucial test that could solidify GSLV’s reputation as a reliable vehicle for ambitious collaborative endeavors.

INSAT-3DS:

• INSAT-3DS, is an exclusive meteorological satellite realized by ISRO.
• Its primary objective is to provide continuity of services to the existing in-orbit INSAT-3D and 3DR satellites and significantly enhancing the capabilities of INSAT system is flagged off to SDSC-SHAR launch port on January 25, 2024 for the launch onboard GSLV F14.
• The Satellite had successfully completed Satellite Assembly, Integration & Testing activities at U R Rao Satellite Centre, Bengaluru.
• Pre-Shipment Review (PSR) was held with the participation of members from user community on January 25, 2024.
• The satellite is a user funded project with Ministry of Earth Science (MoES), configured around ISRO’s well proven I-2k bus platform with a Lift-Off Mass of 2275 kg. Indian Industries have significantly contributed in the making of the Satellite.

GSLV:

• The Geosynchronous Satellite Launch Vehicle (GSLV) is a remarkable class of expendable launch systems operated by the Indian Space Research Organisation (ISRO).
• Since its inception in 2001, GSLV has been involved in fifteen launches.
• The project was initiated in 1990 with the goal of establishing an Indian launch capability for geosynchronous satellites.
• GSLV utilizes components that have already proven successful in the Polar Satellite Launch Vehicle (PSLV), including the S125/S139 solid rocket booster and the liquid-fueled Vikas engine.

NISAR:

• NISAR has been built by space agencies of the US and India under a partnership agreement signed in 2014. The 2,800 kilograms satellite consists of both L-band and S-band synthetic aperture radar (SAR) instruments, which makes it a dual-frequency imaging radar satellite.
• While NASA has provided the L-band radar, GPS, a high-capacity solid-state recorder to store data, and a payload data subsystem, ISRO has provided the S-band radar, the GSLV launch system and spacecraft.
• According to NASA, another important component of the satellite is its large 39-foot stationary antenna reflector. Made of a gold-plated wire mesh, the reflector will be used to focus “the radar signals emitted and received by the upward-facing feed on the instrument structure”.

Conclusion:

• ISRO’s resilience and commitment to advancing rocket technology are evident in GSLV’s evolving narrative. From being dubbed the ‘naughty boy’ to overcoming challenges and delivering successful missions, GSLV stands as a testament to India’s space exploration capabilities. As it prepares for the significant NISAR mission, GSLV’s journey exemplifies the triumphs and learnings in the dynamic field of space exploration.

SOURCE: https://indianexpress.com/article/explained/explained-sci-tech/gslv-rocket-naughty-boy-why-9166963/