https://sputniknews.in/20240506/isro-successfully-conducts-ignition-test-to-boost-lvm3-rocket-capacity-7302401.html
ISRO Successfully Conducts Ignition Test to Boost LVM3 Rocket Capacity
ISRO Successfully Conducts Ignition Test to Boost LVM3 Rocket Capacity
Sputnik India
The successful ignition test marks a significant milestone in ISRO's journey to achieve self-reliance in developing advanced propulsion systems for its space programme.
2024-05-06T19:55+0530
2024-05-06T19:55+0530
2024-05-06T21:14+0530
science & tech
government of india
india
indian space research organisation (isro)
tamil nadu
science & tech
space satellite
space industry
space exploration
space rocket
https://cdn1.img.sputniknews.in/img/07e8/05/06/7302080_0:4:594:338_1920x0_80_0_0_4f61c952861f255b43f1be89024f1fdc.png
The Indian Space Research Organisation (ISRO) has has tested a semi-cryogenic pre-burner engineThe successful ignition test at the ISRO Propulsion Complex (IPRC) in Mahendragiri, Tamil Nadu, was part of efforts to boost the payload capacity of the Launch Vehicle Mark 3 (LVM3) rocket.Designed to provide heavy-lift capability to ISRO's upcoming launch vehicles, including the Next Generation Launch Vehicle (NGLV), the 2,000 kN thrust semi-cryogenic engine utilizes a propellant combination of liquid oxygen (LOX) and refined kerosene (IsroSENE).The ignition was achieved using a start fuel ampule, which combines Triethyle Alumnide and Triethyle Boron, a groundbreaking ignition system developed by Isro's Vikram Sarabhai Space Centre (VSSC).It was the first time this technology has been employed in ISRO's semi-cryogenic engine development.The successful pre-burner ignition test has cleared the path for the next phase of development, which will involve testing the engine powerhead and the fully integrated engine.
https://sputniknews.in/20240501/isro-scientists-find-evidence-of-water-ice-reserves-at-shallow-depth-within-moon-craters-7266439.html
india
tamil nadu
Sputnik India
feedback.hindi@sputniknews.com
+74956456601
MIA „Rossiya Segodnya“
2024
Sangeeta Yadav
https://cdn1.img.sputniknews.in/img/07e6/0c/0f/110602_0:0:641:640_100x100_80_0_0_c298016a79eb02ef8caa9d1f688c12a5.jpg
Sangeeta Yadav
https://cdn1.img.sputniknews.in/img/07e6/0c/0f/110602_0:0:641:640_100x100_80_0_0_c298016a79eb02ef8caa9d1f688c12a5.jpg
News
en_IN
Sputnik India
feedback.hindi@sputniknews.com
+74956456601
MIA „Rossiya Segodnya“
Sputnik India
feedback.hindi@sputniknews.com
+74956456601
MIA „Rossiya Segodnya“
Sangeeta Yadav
https://cdn1.img.sputniknews.in/img/07e6/0c/0f/110602_0:0:641:640_100x100_80_0_0_c298016a79eb02ef8caa9d1f688c12a5.jpg
isro, semi-cryogenic engine, lvm3 rocket, advanced propulsion systems, space program, launch vehicle mark 3 (lvm3) rocket, indian space research organisation (isro), semi-cryogenic pre-burner engine, next generation launch vehicle (nglv), vikram sarabhai space centre (vssc), pre-burner ignition test,
isro, semi-cryogenic engine, lvm3 rocket, advanced propulsion systems, space program, launch vehicle mark 3 (lvm3) rocket, indian space research organisation (isro), semi-cryogenic pre-burner engine, next generation launch vehicle (nglv), vikram sarabhai space centre (vssc), pre-burner ignition test,
ISRO Successfully Conducts Ignition Test to Boost LVM3 Rocket Capacity
19:55 06.05.2024 (Updated: 21:14 06.05.2024) The successful ignition test marks a significant milestone in ISRO's journey to achieve self-reliance in developing advanced propulsion systems for its space programme.
The Indian Space Research Organisation (ISRO) has has tested a semi-cryogenic pre-burner engine
The successful ignition test at the ISRO Propulsion Complex (IPRC) in Mahendragiri, Tamil Nadu, was part of efforts to boost the payload capacity of the Launch Vehicle Mark 3 (LVM3) rocket.
Designed to provide heavy-lift capability to ISRO's upcoming launch vehicles, including the Next Generation Launch Vehicle (NGLV), the 2,000 kN thrust
semi-cryogenic engine utilizes a propellant combination of liquid oxygen (LOX) and refined kerosene (IsroSENE).
The ignition was achieved using a start fuel ampule, which combines Triethyle Alumnide and Triethyle Boron, a groundbreaking ignition system developed by Isro's Vikram Sarabhai Space Centre (VSSC).
It was the first time this technology has been employed in
ISRO's semi-cryogenic engine development.
"The ignition process is one of the most critical parts in the development of liquid rocket engine systems. With the successful ignition of the semi-cryo pre burner, a major milestone in the semi-cryo engine development has been achieved," ISRO said in a statement.
The successful pre-burner ignition test has cleared the path for the next phase of development, which will involve testing the engine powerhead and the fully integrated engine.
"The development of a semi-cryo stage with 120 tons of propellant loading is also under progress. The successful ignition of a semi-cryo preburner is a major accomplishment of ISRO in the development of semi-cryogenic propulsion systems," ISRO said.
