GSLV D3 launch pictures

India's GSLV-D3 rocket takes off from the Indian Space Research Organisation (ISRO) facility in Sriharikota. An Indian rocket showcasing domestically built booster technology crashed soon after take-off in a blow to the country's space ambitions



India's Geosynchronous Satellite Launch Vehicle (GSLV-D3), blasts off carrying the communication satellite GSAT-4 from the Satish Dhawan space centre at Sriharikota, about 100 km (62 miles) north of the southern Indian city of Chennai April 15, 2010.




In this frame grab taken from NDTV, the Indian GSLV-D3 rocket takes off from the Indian Space Research Organisation (ISRO) facility in Sriharikota, some 100kms from Chennai. An Indian rocket showcasing domestically built booster technology crashed soon after take-off on Thursday in a blow to the country's space ambitions, officials said.


The Indian Space Research Organization (ISRO) scientists have started countdown at the Satish Dhavan Space Centre in Andhra Pradesh's Sriharikota for the first flight-testing of indigenous cryogenic engine on homespun rocket Geosynchronous Satellite Launch Vehicle (GSLV-D3).

The cryogenic engine is crucial for putting communication satellites weighing more than two tonnes into geosynchronous transfer orbit (GTO).

The GSLV-D3 would put the GSAT-4 satellite into the GTO.

According to the ISRO, the 29-hour countdown began at 11.27 a. m on Wednesday.

The 50-metre tall GSLV-D3 is scheduled to be launched from Sriharikota at 4.27 pm on Thursday.

The success of the GSLV-D 3 would take India into the elite club of space-faring nations comprising the United States, Russia, certain European countries, Japan, and China that possess complex cryogenic technology.

India which for the first time using indigenously built cryogenic stage and engine technology.

The GSAT-4, country's latest communication satellite weighs 2,220 kilograms and has a seven-year mission life.

The GSAT-4 satellite contains some new testing instruments on its board.

For Indian scientists it took nearly two decades to develop an indigenous cryogenic technology after its bid to acquire cryogenic propellant from Russia in 1992 failed in the face of US opposition.

The Cryogenic engine was developed by a dedicated team of scientists of the ISRO's Liquid Propulsions System Centre (LPSC) at Mahendragiri in Tamil Nadu.

The ISRO is using indigenously developed Cryogenic Upper Stage (CUS) for the first time in GSLV-D3.

The CUS has undergone full flight duration test of 800 seconds successfully.

For the first time the ISRO is also trying electric propulsion system during the launch of GSLV-D3 instead of liquid fuel. The move would enable the agency to extend the life of satellites by a couple of years.