Geosynchronous Satellite Launch Vehicle
A model of the GSLV MK.I at the SHAR entrance | |
Function | Medium Lift Launch System |
---|---|
Manufacturer | ISRO |
Country of origin | India |
Cost per launch | Mk II ₹2.2 billion($36 million) [1] |
Size | |
Height | 49.13 metres (161.2 ft)[2] |
Diameter | 2.8 metres (9 ft 2 in) |
Mass | 414,750 kilograms (914,370 lb) |
Stages | 3 |
Capacity | |
Payload to LEO | 5,000 kilograms (11,000 lb)[2] |
Payload to GTO | 2,500 kilograms (5,500 lb)[2] |
Launch history | |
Status |
|
Launch sites | Satish Dhawan |
Total launches | 11 (6 Mk.I, 5 Mk.II) |
Successes | 6 (2 Mk.I, 4 Mk.II) |
Failures | 4 (3 Mk.I, 1 Mk.II) |
Partial failures | 1 (Mk.I) |
First flight |
|
Last flight |
|
Boosters | |
No. boosters | 4 L40 Hs |
Length | 19.7 m (65 ft)[3] |
Diameter | 2.1 m (6.9 ft)[3] |
Propellant mass | 42,700 kg (94,100 lb) each [3] |
Engines | 1 L40H Vikas 2 |
Thrust | 760 kN (170,000 lbf) |
Total thrust | 3,040 kN (680,000 lbf) |
Specific impulse | 262 s (2.57 km/s) |
Burn time | 154 seconds[3] |
Fuel | N2O4/UDMH |
First stage | |
Length | 20.2 m (66 ft)[3] |
Diameter | 2.8 m (9.2 ft)[3] |
Propellant mass | 138,200 kg (304,700 lb)[3] |
Engines | 1 S139 |
Thrust | 4,700 kN (1,100,000 lbf) |
Specific impulse | 237 s (2.32 km/s) |
Burn time | 100 seconds |
Fuel | HTPB (solid) |
Second stage | |
Length | 11.6 m (38 ft)[3] |
Diameter | 2.8 m (9.2 ft)[3] |
Propellant mass | 39,500 kg (87,100 lb)[3] |
Engines | 1 GS2 Vikas 4 |
Thrust | 800 kN (180,000 lbf)[2] |
Specific impulse | 295 s (2.89 km/s) |
Burn time | 139 seconds[3] |
Fuel | N2O4/UDMH |
Third stage (GSLV Mk.II) – CUS12 | |
Length | 8.7 m (29 ft)[3] |
Diameter | 2.8 m (9.2 ft)[3] |
Propellant mass | 12,800 kg (28,200 lb)[3] |
Engines | 1 CE-7.5 |
Thrust | 75 kN (17,000 lbf) |
Specific impulse | 454 s (4.45 km/s) |
Burn time | 718 seconds[3] |
Fuel | LOX/LH2 |
Geosynchronous Satellite Launch Vehicle abbreviated as GSLV, is an expendable launch system operated by the Indian Space Research Organisation (ISRO). GSLV has been used in ten launches to date, since its first launch in 2001 through to its most recent launch on May 5, 2017 of the GSAT 9.
History
The Geosynchronous Satellite Launch Vehicle (GSLV) project was initiated in 1990 with the objective of acquiring an Indian launch capability for geosynchronous satellites.[4][5]
GSLV uses major components that are already proven in the Polar Satellite Launch Vehicle (PSLV) launchers in the form of the S125/S139 solid rocket booster and the liquid-fueled Vikas engine. The third stage was procured from Russian company Glavcosmos based on an agreement signed in 1991.[5] Russia backed out of the deal after US sanctions were imposed in May 1992. ISRO started the Cryogenic Upper Stage Project in April 1994 and began developing its own cryogenic stage.[6] Russia agreed to sell 7 cryogenic stages and 1 ground mock-up stage instead of 5 cryogenic stages and the technology to build the stages.[7]
The first development flight of GSLV Mk.I (GSLV-D1) was launched on 18 April 2001.[8] The flight carrying GSAT-1 failed to reach the correct orbit. Attempts to save GSAT-1 by using its own propulsion system to maneuver it into the correct orbit were unsuccessful as it ran out of fuel several thousand kilometres below geosynchronous orbit.[9]
The GSLV became operational after a second development flight, which successfully placed GSAT-2 in 2003. In its first operational flight in September 2004, GSLV launched EDUSAT – India's first dedicated satellite for educational services. However, the second operational flight, GSLV F02, conducted on July 10, 2006 did not succeed in placing the satellite INSAT-4C into orbit.
GSLV F04 is the fifth flight of India's Geosynchronous Satellite Launch Vehicle (GSLV), launched INSAT-4CR satellite, into a geosynchronous transfer orbit (GTO) of 166.4 km perigee and 34,508.8 km apogee with an orbital inclination of 20.7° as against the intended GTO of 170 km x 35765 km and an orbital inclination of 20.7 degrees with respect to the equator on 2 September 2007, due to under-performance of the GS3 cryogenic stage. Subsequently, the satellite was maneuvered into geostationary orbit using its own propulsion system.
Two launches in 2010 failed; the first, in April 2010, was the first flight of the GSLV Mk.II, with an Indian-developed third stage engine replacing the Russian engine used on earlier flights. The third stage failed to ignite. The next launch, in December 2010, used the Russian engine, however the vehicle went out of control during first stage flight and was destroyed by range safety.[9]
GSLV-D5, launched on 5 January 2014, was the first successful flight of the GSLV Mark.II using the indigenously developed cryogenic engine, the CE-7.5.[10][11]
GSLV-F05 successfully launched from Sriharikota at 16:50 on September 8, 2016 carrying 2211 kg satellite INSAT-3DR and the satellite has been placed at GTO 1024 seconds after launch.
GSLV-F09 successfully launched GSAT-9 at 16:57 IST on May 5, 2017 from Satish Dhawan Space Center, Sriharikota. The launch occurred under a government-imposed media blackout for which no official clarification was provided.[12][13] Campaign details were made available only after the launch event was over. The mission deployed the SAARC satellite, that Prime Minister Narendra Modi announced as a gift to South Asian nations in 2014. It was renamed as South Asia Satellite after Pakistan backed out of the project. The satellite has 12 Ku-band transponders and has an estimated service life of 12 years. The mission was also the fourth consecutive successful flight of the GSLV Mark II powered by an indigenous Cryogenic Upper Stage (CUS).
Vehicle description
The 49 metres (161 ft) tall GSLV, with a lift-off mass of 415 tonnes (457 tons), is a three-stage vehicle with solid, liquid and cryogenic stages respectively. The payload fairing, which is 7.8 metres (26 ft) long and 3.4 metres (11 ft) in diameter, protects the vehicle electronics and the spacecraft during its ascent through the atmosphere. It is discarded when the vehicle reaches an altitude of about 115 km.[14]
GSLV employs S-band telemetry and C-band transponders for enabling vehicle performance monitoring, tracking, range safety / flight safety and preliminary orbit determination. The Redundant Strap Down Inertial Navigation System/Inertial Guidance System of GSLV housed in its equipment bay guides the vehicle from lift-off to spacecraft injection. The digital auto-pilot and closed loop guidance scheme ensure the required altitude maneuver and guide injection of the spacecraft to the specified orbit.
The GSLV can place approximately 5,000 kg (11,000 lb) into an easterly low Earth orbit. With the GSLV Mk.I, using the Russian 12KRB upper stage, with KVD-1 cryogenic rocket engine, GSLV can place 2,200 kg (4,900 lb) into an 18° geostationary transfer orbit. The GSLV Mk.II uses an indigenous cryogenic engine, the CE-7.5 in the third stage instead of the Russian cryogenic engine.
Liquid boosters
The first GSLV flight, GSLV-D1 used the L40 engine. Subsequent flights of the GSLV used high pressure engines in the strap-on boosters called the L40H.[15] The GSLV uses four L40H liquid strap-on boosters derived from the L37.5 second stage, which are loaded with 42.6 tons of hypergolic propellants (UDMH & N2O4). The propellants are stored in tandem in two independent tanks 2.1 m diameter. The engine is pump-fed and generates 760 kN (150,000 lbf) of thrust, with a burn time of 150 seconds.
First stage
GSLV-D1 used the S125 stage which contained 125 tonnes of solid propellant and had a burn time of 100 seconds. All subsequent launches have used enhanced propellant loaded S139 stage.[15] The S139 stage is 2.8 m in diameter and has a nominal burn time of 109 seconds.[16] The stage generates a maximum thrust of 4700 kN.[17]
Second stage
The GS2 stage is powered by the Vikas engine. It has 2.8 m diameter.[16]
Third stage
The third stage of the GSLV Mk.II is propelled by the CE-7.5, an indigenous cryogenic rocket engine, 2.8 m in diameter and uses liquid hydrogen (LH2) and liquid oxygen (LOX)[18] The indigenous cryogenic engine was built at the Liquid Propulsion Systems Centre in Valiamala, Kerala & Mahendragiri, Tamil Nadu.[19][20] This makes India one of the 6 countries which are capable of producing cryogenic engines. The engine has a default thrust of 7.5 tons (75 kN) but is capable of a maximum thrust of 9.31 tons (93.1 kN).
Variants
GSLV rockets using the Russian Cryogenic Stage (CS) are designated as the GSLV Mk I while versions using the indigenous Cryogenic Upper Stage (CUS) are designated the GSLV Mk II.[21] All GSLV launches have been conducted from the Satish Dhawan Space Centre in Sriharikota.
GSLV Mk I (a)
This variant had a 125 t (S-125) first stage and was capable of launching 1500 kg into geostationary transfer orbit. This variant is retired.[22]
GSLV Mk I (b)
This variant had 139 t (S-139) first stage and improved fuel in the strap-on boosters and second stage. This variant can launch 1900 kg into geostationary transfer orbit.[22]
GSLV Mk I (c)
This variant has a 15 tonne propellant loading in the third stage, called the C-15. GSLV-F06 (flight 6) is the only attempted launch of the Mark I(c) version to date.[23]
GSLV Mk II
This variant uses an Indian cryogenic engine, the CE-7.5, and is capable of launching 2500 kg into geostationary transfer orbit. Previous GSLV vehicles (GSLV Mk.I) have used Russian cryogenic engines.[24]
Launch history
Flight | Launch date/time (UTC) | Variant | Launch pad | Payload | Payload mass | Result |
---|---|---|---|---|---|---|
D1 | 18 April 2001 10:13 |
Mk I(a) | First | GSAT-1 | 1540 kg | Partial failure[9][25] |
Developmental Flight, payload placed into lower than planned orbit, and did not have sufficient fuel to reach a usable orbit.[9] ISRO claimed the launch to be successful[26] and claims GSAT-1 as failure.[27][28] | ||||||
D2 | 8 May 2003 11:28 |
Mk I(a) | First | GSAT-2 | 1825 kg | Success |
Developmental Flight.[29] | ||||||
F01 | 20 September 2004 10:31 |
Mk I(b) | First | GSAT-3 | 1950 kg | Success |
First operational flight.[30] | ||||||
F02 | 10 July 2006 12:08 |
Mk I(b) | Second | INSAT-4C | 2168 kg | Failure |
Both rocket and satellite had to be destroyed over the Bay of Bengal after the rocket's trajectory veered outside permitted limits. | ||||||
F04 | 2 September 2007 12:51 |
Mk I(b) | Second | INSAT-4CR | 2160 kg | Partial failure[31] |
Apogee lower and inclination higher than expected, due to an error in the guidance subsystem.[32] Eventually the 2160 kg payload reached the designated geostationary transfer orbit.[33][34] Minor error in orbit inclination corrected by satellite mission operators. Satellite is fully operational and full design life of ten years will be achieved. It completed 6 years in orbit successfully.[35] ISRO claims this GSLV flight to be successful. | ||||||
D3 | 15 April 2010 10:57 |
Mk II | Second | GSAT-4 | 2220 kg | Failure |
First flight test of the ISRO designed and built Cryogenic Upper Stage (CUS). Failed to reach orbit due to malfunction of the Fuel Booster Turbo Pump (FBTP) of the cryogenic upper stage.[36] | ||||||
F06 | 25 December 2010 10:34 |
Mk I(c) | Second | GSAT-5P | 2310 kg | Failure |
First flight of GSLV Mk.I (c). Destroyed by range safety officer after loss of control over liquid-fueled boosters.[37] | ||||||
D5 | 5 January 2014 10:48 |
Mk II | Second | GSAT-14 | 1980 kg | Success[10] |
The flight was scheduled for 19 August 2013, but one hour and 14 minutes before the lift off, a leakage was reported and the launch was halted.[38]
Second flight of GSLV with indigenous cryogenic upper stage (CUS) developed by ISRO's Liquid Propulsion Systems Centre (LPSC) was launched successfully on 5 January 2014.[39][40] It was a launch with precision of 40 metres (130 ft). All the three stages performed successfully.[41][42] This was the first successful flight of the cryogenic stage which was developed indigenously in India.[43] | ||||||
D6[44][45] | 27 August 2015 11:22 |
Mk II | Second | GSAT-6 | 2117 kg | Success |
GSLV Mk II D6 with an Indigenous Cryogenic Engine (ICE) successfully ferried GSAT-6 payload into Geostationary Transfer Orbit (GTO) with injection parameters of 170 km x 35945 km, 19.96 degree inclination. The cuboid-shaped GSAT-6 satellite includes a technology demonstrator S-Band unfurlable antenna with a diameter of six metre which will provide S-band communication services during its expected mission life of nine years.[46] | ||||||
F05 | 8 September 2016 11:20 |
MK II | Second | INSAT-3DR | 2211 kg | Success |
First operational flight of GSLV Mk II.
The injection parameters were met with extreme precision. Perigee was within 300m (within 0.18%) of the expected value whereas apogee was within 0.2% (80 km). The difference between expected and actual inclination degree was 0. INSAT-3DR is an advanced atmospheric weather satellite. as well as the second heaviest satellite placed in orbit by an indigenous cryogenic engine propelled GSLV [47][48][49] | ||||||
F09 | 5 May 2017
11:27[50] |
Mk II | Second | GSAT-9 / South Asia Satellite; was previously named as SAARC Satellite | 2230 kg | Success |
[51][52][53][54][55][56][57] | ||||||
F08 | December 2017 | Mk II | Second | GSAT-6A | Scheduled | |
[58][59] | ||||||
? | Q1, 2018[60] | Mk II | Second | Chandrayaan 2 | 3250 kg | Planned |
[61][62] | ||||||
? | 2018[60] | Mk II | Second | GSAT-7A | Planned | |
? | 2018[60] | Mk II | Second | GISAT 1 | 2100 kg | Planned |
[63] | ||||||
? | 2020[60] | Mk II | Second | Mangalyaan 2 | Planned | |
[64] | ||||||
? | September 2022[60] | Mk II | Second | NISAR | Planned | |
NASA / ISRO collaboration[65] | ||||||
? | 2022[60] | Mk II | Second | Insat 3DS | Planned | |
Launch Statistics
Flights by rocket configuration0.5
1
1.5
2
2.5
3
2001
2004
2007
2010
2013
2016
2019
2022
|
Flights by mission outcome0.5
1
1.5
2
2001
2004
2007
2010
2013
2016
2019
|
See also
- Comparison of orbital launchers families
- Comparison of orbital launch systems
- Geosynchronous Satellite Launch Vehicle Mk III (LVM3)
- ISRO Orbital Vehicle
- PSLV
References
- ↑ "Indian rocket GSLV D5 with indigenous cryogenic engine successfully launched". dnaindia. Retrieved 15 June 2014.
- 1 2 3 4 "Geosynchronous Satellite Launch Vehicle". Retrieved 21 December 2014.
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 "GSLV F09 Brochure". ISRO.
- ↑ "GSLV Launched Successfully" (PDF). Current Science. 80 (10): 1256. May 2001. Retrieved 12 December 2013.
- 1 2 Subramanian, T S (March 17–31, 2001). "The GSLV Quest". Frontline. Retrieved 12 December 2013.
- ↑ Raj, N Gopal (21 April 2011). "The long road to cryogenic technology". The Hindu. Chennai, India. Retrieved 12 December 2013.
- ↑ Subramanian, T S (28 April – 11 May 2001). "The cryogenic quest". Frontline. Retrieved 13 December 2013.
- ↑ "SPACE LAUNCH VEHICLES". Archived from the original on December 18, 2008.
- 1 2 3 4 Kyle, Ed (28 December 2010). "Page 2 of 2: Comprehensive Orbital Launch Failure List". India (SLV/ASLV/PSLV/GSLV) Flight History by Variant/Year (1979–2010). Retrieved 14 August 2013.
- 1 2 "GSLV-D5-Success". ISRO. Retrieved 5 January 2014.
- 1 2 Subramanian, T.S. (5 January 2014). "GSLV-D5 Launch Success". Chennai, India: The Hindu. Retrieved 5 January 2014.
- ↑ "ISRO asked to remain silent on South Asia Satellite launch".
- ↑ "No media glare for South Asia Satellite".
- ↑ "GSLV-F04". ISRO. Retrieved 15 December 2013.
- 1 2 "GSLV-D2". ISRO. Retrieved 15 December 2013.
- 1 2 "GSLV D3". ISRO. Retrieved November 27, 2013.
- ↑ "Evolution of Indian launch vehicle technologies" (PDF). Current Science. Retrieved January 27, 2014.
- ↑ "GSLV-D5". Retrieved 4 January 2014.
- ↑ "ISRO's Cryogenic Stage Fails in Maiden Flight". Space News. Retrieved November 27, 2013.
- ↑ "GSLV, PSLV flights put off". The Hindu. Chennai, India. 1 January 2010.
- ↑ "GSLV-D3/GSAT-4 Brochure" (PDF). ISRO. Archived from the original (PDF) on 7 February 2014. Retrieved 15 January 2014.
- 1 2 "Geosynchronous Satellite Launch Vehicle". ISRO. Archived from the original on August 24, 2011.
- ↑ "GSLV-F06". ISRO. Archived from the original on August 10, 2013. Retrieved 9 January 2014.
- ↑ Clark, Stephen (2010-10-12). "India may seek international help on cryogenic engine". SPACEFLIGHT NOW. Retrieved 15 July 2011.
Besides the new upper stage, the GSLV Mk.2 launched in April was nearly identical to previous versions of the booster.
- ↑ "Isro clears launch of GSLV-D5". Business Standard. 31 December 2013. Retrieved 20 January 2014.
- ↑ "GSLV Launched Successfully". ISRO. Retrieved 13 December 2013.
- ↑ "Press Brief on GSLV-D1/GSAT-1". ISRO. Retrieved 13 December 2013.
- ↑ "Press Brief on GSLV-D1/GSAT-1".
- ↑ "GSLV-D2 Mission". ISRO. Archived from the original on March 14, 2009.
- ↑ "EDUSAT mission". ISRO. Archived from the original on March 18, 2009.
- ↑ "First manoeuvre to raise satellite’s orbit". Sriharikota: The Hindu. Retrieved November 19, 2015.
- ↑ Clark, Stephen (2 September 2007). "India's large satellite launcher returns to flight". Spaceflight Now.
- ↑ "INSAT-4CR successfully placed in orbit". Times of India. 2 September 2007.
- ↑ "GSLV-F04 Launch Successful – Places INSAT-4CR in orbit". ISRO. Archived from the original on March 1, 2009.
- ↑ "ISRO refutes INSAT-4CR `disappearance' story". Hindustan Times.
- ↑ "GSLV-D3 Failure Analysis Report". ISRO.
- ↑ "Rocket failed after 45 seconds, says ISRO". Hindustan Times. 25 December 2010. Archived from the original on 26 December 2010. Retrieved 25 December 2010.
- ↑ "GSLV-D5 rocket launch delayed, countdown clock stopped due to leak in second stage". NDTV. Retrieved November 27, 2013.
- ↑ Varma, M. Dinesh (31 October 2013). "Another shot at GSLV with indigenous cryogenic engine". The Hindu. Chennai, India. Retrieved November 27, 2013.
- ↑ "Preparations in full swing for Dec 15 GSLV mission". Hindustan Times. Retrieved November 27, 2013.
- ↑ "GSAT-14 Separated". Twitter. January 5, 2014. Retrieved January 5, 2014.
- ↑ "Performance of Cryogenic stage of GSLV D5 normal. Ignition sustained.". Twitter. January 5, 2014. Retrieved January 5, 2014.
- ↑ "Isro successfully launches indigenous cryogenic engine-powered GSLV-D5". The Times Of India. Retrieved 5 January 2014.
- ↑ "GSAT 6". Retrieved 1 July 2014.
- ↑ "GSAT-6 slated for March launch". Retrieved 27 August 2015.
- ↑ "ISRO's GSLV D-6 puts GSAT-6 satellite in orbit". The Hindu. 27 August 2015.
- ↑ "Isro's desi cryo engine–powered GSLV-F05 places INSAT-3DR weather satellite in orbit – Times of India". Retrieved 2016-09-08.
- ↑ Clark, Stephen. "GSLV puts advanced Indian weather satellite in orbit – Spaceflight Now". Retrieved 2016-09-08.
- ↑ "GSLV-F05 lobs advanced weather satellite INSAT-3DR into orbit – The Hindu". Retrieved 2016-09-08.
- ↑ "Official Press Release: GSLV Successfully Launches South Asia Satellite".
- ↑ "India's satellite 'gift' for SAARC to be up in Dec 2016".
- ↑ "South Asia Sat launch date".
- ↑ "ISRO to launch record 103 satellites in one go in February".
- ↑ "GSLV-F09 / GSAT-9".
- ↑ "మే 5న జీఎస్ఎల్వీ ఎఫ్–09 ప్రయోగం".
- ↑ "వచ్చేనెల 5న జీఎస్ఎల్వీ ప్రయోగం".
- ↑ "GSLV-F09 / GSAT-9".
- ↑ "GSLV-F08/GSAT-6A Mission".
- ↑ "After PSLV-C38 success, Isro sets focus on next PSLV-C39 launch by August first week".
- 1 2 3 4 5 6 Pietrobon, Steven (4 July 2017). "Indian Launch Manifest". Retrieved 12 July 2017.
- ↑ "Chandrayaan-2 launch likely by 2018 – The Hindu".
- ↑ "Chandrayaan-2 ISRO".
- ↑ Krebs, Gunter. "GISAT 1, 2". Gunter's Space Page. Retrieved April 27, 2017.
- ↑ Madhumathi, D.S. (10 August 2016). "ISRO sets the ball rolling for Mars Mission-2". The Hindu. Retrieved 27 April 2017.
- ↑ Krebs, Gunter. "NISAR". Gunter's Space Page. Retrieved April 27, 2017.
External links
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