ISRO conducts parachute airdrop test of Gaganyaan programme
Nov 19, 2022, 16:35 IST
ISRO's Vikram Sarabhai Space Centre has conducted the Integrated Main Parachute Airdrop Test (IMAT) of its crew module deceleration system for the much-awaited maiden Gaganyaan human spaceflight programme at the Babina Field Fire Range (BFFR) in Jhansi district of Uttar Pradesh.
The IMAT conducted on Friday marks a significant milestone toward realising the nation's ambitious Gaganyaan project, the Indian Space Research Organisation (ISRO) said in a statement.
The Gaganyaan deceleration system consists of three main parachutes, besides the smaller ACS, pilot, and drogue parachutes, to reduce the speed of the crew module to safe levels during its landing, the space agency said.
Two of the three main chutes are sufficient to land the astronauts on earth, and the third is redundant, ISRO said adding that the IMAT test simulated the case when one main chute failed to open.
The IMAT test is the first in a series of integrated parachute airdrop tests planned to simulate different failure conditions of the parachute system before it is deemed qualified to be used in the first human spaceflight mission.
In this test, a five-tonne dummy mass, equivalent to the crew module mass, was taken to an altitude of 2.5 kilometres and dropped using the Indian Air Force's IL-76 aircraft. Two small pyro-based mortar-deployed pilot parachutes then pulled the main parachutes.
The main parachute sizes were initially restricted to a smaller area to reduce the opening shock. After seven seconds, the pyro-based reefing line cutters cut the area restricting line, allowing the parachutes to inflate fully.
"The fully inflated main parachutes reduced the payload speed to a safe landing speed. The entire sequence lasted about 2-3 minutes as the scientists watched the different phases of the deployment sequence unfold with bated breath. There was loud cheer and applause as the payload mass landed softly on the ground and the gigantic parachutes collapsed," the statement read.
The design and development of the parachute-based deceleration system is a joint venture of ISRO and the Defence Research and Development Organisation (DRDO).
"The overall system design, analytical simulations of parachute deployment and crew module descent under various conditions, the design and development of ordnance devices for parachute extraction and ejection, assembly, mechanical and electrical integration of deceleration system, it's instrumentation and avionics for conducting this drop tests are done at ISRO's leading Research and Development centre, Vikram Sarabhai Space Centre (VSSC), Thiruvananthapuram," the space agency explained.
"Besides proving the calibre of the scientists of ISRO and DRDO, the test also demonstrated the active coordination between the country's premier agencies, namely ISRO, DRDO, the Indian Air Force, and the Indian Army," ISRO said quoting a senior official.
SEE ALSO:
India on course to become world’s second largest economy by 2050, says Gautam Adani
Festive releases fail at the box-office, but theatres pin hopes on big-ticket releases to return to pre-Covid glory
Advertisement
The IMAT conducted on Friday marks a significant milestone toward realising the nation's ambitious Gaganyaan project, the Indian Space Research Organisation (ISRO) said in a statement.
The Gaganyaan deceleration system consists of three main parachutes, besides the smaller ACS, pilot, and drogue parachutes, to reduce the speed of the crew module to safe levels during its landing, the space agency said.
Two of the three main chutes are sufficient to land the astronauts on earth, and the third is redundant, ISRO said adding that the IMAT test simulated the case when one main chute failed to open.
The IMAT test is the first in a series of integrated parachute airdrop tests planned to simulate different failure conditions of the parachute system before it is deemed qualified to be used in the first human spaceflight mission.
Advertisement
The main parachute sizes were initially restricted to a smaller area to reduce the opening shock. After seven seconds, the pyro-based reefing line cutters cut the area restricting line, allowing the parachutes to inflate fully.
"The fully inflated main parachutes reduced the payload speed to a safe landing speed. The entire sequence lasted about 2-3 minutes as the scientists watched the different phases of the deployment sequence unfold with bated breath. There was loud cheer and applause as the payload mass landed softly on the ground and the gigantic parachutes collapsed," the statement read.
The design and development of the parachute-based deceleration system is a joint venture of ISRO and the Defence Research and Development Organisation (DRDO).
"The overall system design, analytical simulations of parachute deployment and crew module descent under various conditions, the design and development of ordnance devices for parachute extraction and ejection, assembly, mechanical and electrical integration of deceleration system, it's instrumentation and avionics for conducting this drop tests are done at ISRO's leading Research and Development centre, Vikram Sarabhai Space Centre (VSSC), Thiruvananthapuram," the space agency explained.
Advertisement
Senior ISRO and DRDO scientists and airforce officers were present when the crucial test was done."Besides proving the calibre of the scientists of ISRO and DRDO, the test also demonstrated the active coordination between the country's premier agencies, namely ISRO, DRDO, the Indian Air Force, and the Indian Army," ISRO said quoting a senior official.
SEE ALSO:
India on course to become world’s second largest economy by 2050, says Gautam Adani
Festive releases fail at the box-office, but theatres pin hopes on big-ticket releases to return to pre-Covid glory
Advertisement
‘All is not that well’, say market experts even as stocks chase new highs