ISRO finishes another key test in preparation for Gaganyaan, Pg14.
ISRO successfully tests Gaganyaan crew module parachute system under extreme conditions, ensuring stability during descent with delayed parachute deployment.
ISRO conducted a test on November 3 at Babina Field Firing Range (BFFR) to assess the stability of the Gaganyaan crew module.
The test simulated a scenario where one of the main parachutes experienced an asymmetric disreefing.
An IL 76 aircraft dropped a platform equivalent to the crew module's mass from a height of 2.5 km.
The Gaganyaan crew module is equipped with four different types of parachutes for safe return.
The first crewed mission under the Gaganyaan programme is scheduled for 2027.
Detailed Insights:
The test aimed to validate the parachute system's performance under extreme conditions, specifically when one main parachute unfurls later than the other.
Reefed inflation is used to gradually deploy parachutes, preventing sudden jerks during the astronauts' return.
The Gaganyaan crew module uses Apex Cover Separation Parachutes to remove the apex cover, which protects the parachute compartment from re-entry heat.
Drogue parachutes stabilize the module and reduce its velocity, followed by pilot chutes that deploy the main parachutes.
The main parachutes decrease the velocity to a safe level before splashdown and are released before the recovery team approaches.
A previous test of the entire parachute system under normal conditions was conducted in August this year.
The first uncrewed mission for Gaganyaan is expected to occur towards the end of this year.
Scientific/Technical Concepts Involved:
Reefing: A technique to control the opening of a parachute in stages to avoid sudden shocks.
Asymmetric Disreefing: A scenario where parachutes do not unfurl symmetrically or simultaneously.
Apex Cover: A protective shield for the parachute compartment against the heat generated during re-entry into the atmosphere.