Launch Vehicles of ISRO

Introduction:

 Launch Vehicles are used to transport and put satellites or spacecrafts into space. In India, the launch vehicles development programme began in the early 1970s. The first experimental Satellite Launch Vehicle (SLV-3) was developed in 1980. An Augmented version of this, ASLV, was launched successfully in 1992. India has made tremendous strides in launch vehicle technology to achieve self-reliance in satellite launch vehicle programme with the operationalisation of Polar Satellite Launch Vehicle (PSLV) and Geosynchronous Satellite Launch Vehicle (GSLV).

PSLV represents ISRO's first attempt to design and develop an operational vehicle that can be used to orbit application satellites. While SLV-3 secured for India a place in the community of space-faring nations, the ASLV provided the rites of passage into launch vehicle technology for ISRO. And with PSLV, a new world-class vehicle has arrived. PSLV has repeatedly proved its reliability and versatility by launching 55satellites / spacecrafts ( 26 Indian and 29 Foreign Satellites) into a variety of orbits so far.

ISRO also makes the Rohini series of sounding rockets used by the Indian and international scientific community to launch payloads to various altitudes for atmospheric research and other scientific investigations. These rockets are also used to qualify some of the critical systems used for advanced launch vehicles. 

Landmark achievements in ISRO's Launch Vehicle Development:

PSLV has 21 consecutively successful flights out of 22 launches PSLV used for launching a total of 27 satellites for foreign customers under commercial agreements, demonstrating its multi-satellite launch capability PSLV used to launch Space capsule Recovery Experiment (SRE-1), Chandrayaan-1 and ISRO's exclusive meteorological satellite, KALPANA-1, proving its versatility GSLV with four successful flights of seven launches can launch 2 to 2.5 tonne satellite into Geo-synchronous Transfer Orbit (GTO) Successful testing of indigenously developed cryogenic upper stage on November 15, 2007.

ISRO's Launch Fleet at a Glance:

ISRO developed two experimental satellite launch vehicles, SLV-3 and ASLV Polar Satellite Launch Vehicle(PSLV) commissioned in 1997 Geosynchronous Satellite Launch Vehicle (GSLV-Mk I) commissioned after second successful flight in May 2003 GSLV - MK II will use indigenously developed cryogenic Upper Stage GSLV - MK III is under development

SLV-3:

 Satellite Launch Vehicle-3 (SLV-3), India's first experimental satellite launch vehicle was successfully launched on July 18, 1980 from SHAR Centre Sriharikota, when Rohini satellite, RS-1, was placed in orbit. SLV-3 was a 22 m long, all solid, four stage vehicle weighing 17 tonnes capable of placing 40 kg class payloads in low earth orbit. 

It employed an open loop guidance (with stored pitch programme) to steer the vehicle in flight along pre-determined trajectory. The first experimental flight of SLV-3, in August 1979, was only partially successful. Apart from the July 1980 launch, there were two more launches held in May 1981 and April 1983, orbiting Rohini satellites carrying remote sensing sensors.

ASLV: 

Augmented Satellite Launch Vehicle (ASLV) was developed to act as a low cost intermediate vehicle to demonstrate and validate critical technologies. With a lift off weight of 40 tonnes, the 23.8 m tall ASLV was configured as a five stage, all-solid propellant vehicle, with a mission of orbiting 150 kg class satellites into 400 km circular orbits. The strap-on stage consisted of two identical 1m diameter solid propellant motors, Under the ASLV programme four developmental flights were conducted. 

The first developmental flight took place on March 24, 1987 and the second on July 13, 1988. ASLV-D3 was successfully launched on May 20, 1992, when SROSS-C (106 kg) was put into an orbit of 255 x 430 km. ASLV-D4, launched on May 4, 1994, orbited SROSS-C2 weighing 106 kg. It had two payloads, Gamma Ray Burst (GRB) Experiment and Retarding Potentio Analyser (RPA) and functioned for seven years. ASLV provided valuable inputs for further development.

The Polar Satellite Launch Vehicle: The Polar Satellite Launch Vehicle,usually known by its abbreviation PSLV is the first operational launch vehicle of ISRO. PSLV is capable of launching 1600 kg satellites in 620 km sun-synchronous polar orbit and 1050 kg satellite in geo-synchronous transfer orbit. In the standard configuration, it measures 44.4 m tall, with a lift off weight of 295 tonnes. PSLV has four stages using solid and liquid propulsion systems alternately. The first stage is one of the largest solid propellant boosters in the world and carries 139 tonnes of propellant. A cluster of six strap-ons attached to the first stage motor, four of which are ignited on the ground and two are air-lit. The reliability rate of PSLV has been superb. There had been 21 continuously successful flights of PSLV, till September 2012 . With its variant configurations, PSLV has proved its multi-payload, multi-mission capability in a single launch and its geosynchronous launch capability. In the Chandrayaan-mission, another variant of PSLV with an extended version of strap-on motors, PSOM-XL, the payload haul was enhanced to 1750 kg in 620 km SSPO. PSLV has rightfully earned the status of workhorse launch vehicle of ISRO. Typical Parameters of PSLV  Lift-off weight 295 tonne  Pay Load 1600 kg in to 620 km Polar Orbit, 1060 kg in to Geosynchronous Transfer Orbit (GTO)  Height 44 metre

PSLV Milestones:

PSLV-C21 launched SPOT 6 and PROITERES on September 09, 2012 (Successful) PSLV-C19 launched RISAT-1 on April 26, 2012 (Successful) PSLV-C18 launched Megha-Tropiques, SRMSat, VesselSat-1 and Jugnu on October 12, 2011 (Successful) PSLV-C17 launched GSAT - 12 on July 15, 2011 (Successful) PSLV-C16 launched RESOURCESAT - 2, YOUTHSAT and X-SAT on April 20, 2011 (Successful) PSLV-C15 launched CARTOSAT-2B, ALSAT-2A, NLS 6.1 & 6.2 and STUDSAT on July 12, 2010 (Successful) PSLV-C14 launched Oceansat - 2 and Six Nanosatellites on September 23, 2009 (Successful) PSLV-C12 launched RISAT-2 and ANUSAT on April 20, 2009 (Successfully) PSLV-C11 launched CHANDRAYAAN-I, on October 22, 2008 (Successful) PSLV-C9 launched CARTOSAT-2A, IMS-1 and Eight nano-satellites on April 28, 2008 (Successful) PSLV-C10 launched TECSAR on January 23, 2008 (Successful) PSLV-C8 launched AGILE on April 23, 2007 (Successful) PSLV-C7 launched CARTOSAT-2, SRE-1, LAPAN-TUBSAT and PEHUENSAT-1 on January 10, 2007 (Successful) PSLV-C6 launched CARTOSAT-1 and HAMSAT on May 5, 2005 (Successful) PSLV-C5 launched RESOURCESAT-1(IRS-P6) on October 17, 2003 (Successful) PSLV-C4 launched KALPANA-1(METSAT) on September 12, 2002 (Successful) PSLV-C3 launched TES on October 22, 2001 (Successful) PSLV-C2 launched OCEANSAT(IRS-P4), KITSAT-3 and DLR-TUBSAT on May 26, 1999 (Successful) PSLV-C1 launched IRS-1D on September 29, 1997 (Successful) PSLV-D3 launched IRS-P3 on March 21, 1996 (Successful) PSLV-D2 launched IRS-P2 on October 15, 1994 (Successful) PSLV-D1 launched IRS-1E on September 20, 1993 (Unsuccessful)

Geosynchronous Satellite Launch Vehicle(GSLV): 

 Mark I&II ,is capable of placing INSAT–II class of satellites (2000 – 2,500 kg) into Geosynchronous Transfer Orbit (GTO).  GSLV is a three stage vehicle GSLV is 49 m tall, with 414 t lift off weight. It has a maximum diameter of 3.4 m at the payload fairing. First stage comprises S125 solid booster with four liquid (L40) strap-ons.  Second stage (GS2) is liquid engine and the third stage (GS3) is a cryo stage.   The vehicle develops a lift off thrust  of 6573 kn. 

The first flight of GSLV took place from SHAR on April 18, 2001 by launching 1540 kg GSAT-1. It was followed by six more launches , GSLV-D2 on May 8, 2003 (GSAT-2  1825 kg), GSLV-F01 on September 20, 2004 (EDUSAT 1950 kg), GSLV-F02 on July 10, 2006, GSLV-F04 on September 2, 2007 (INSAT-4CR   2130 kg), GSLV-D3 on April 15, 2010 and GSLV-F06 on December 25, 2010.

Typical Parameters of GSLV  Lift-off weight 414 tonne  Pay Load 2 to 2.5 Tonne in to Geosynchronous Transfer Orbit (GTO)  Height 49 metre

GSLV Milestones:

GSLV-F06 launched GSAT-5P on December 25, 2010 (Unsuccessful) GSLV-D3 launched GSAT-4 on April 15, 2010 (Unsuccessful) GSLV-F04 launched INSAT-4CR on September 2, 2007 (Successful) GSLV-F02 launched INSAT-4C on July 10, 2006 (Unsuccessful) GSLV-F01 launched EDUSAT(GSAT-3) on September 20, 2004 (Successful) GSLV-D2 launched GSAT-2 on May 8, 2003 (Successful) GSLV-D1 launched GSAT-1 on April 18, 2001 (Successful)

The GSLV-III or Geosynchronous Satellite Launch Vehicle Mark III  it is a launch vehicle currently under development by the Indian Space Research Organization. GSLV Mk III is conceived and designed to make ISRO fully self reliant in launching heavier communication satellites of INSAT-4 class, which weigh 4500 to 5000  kg. It would also enhance the capability of the country to be a competitive player in the multimillion dollar commercial launch market. The vehicle envisages multi-mission launch capability  for GTO, LEO, Polar and intermediate circular orbits.

GSLV-Mk III is designed to be a three stage vehicle, with 42.4 m tall with a lift off weight of 630 tonnes. First stage comprises two identical S200 Large Solid Booster (LSB) with 200 tonne solid propellant, that are strapped on to the second stage, the L110 re-startable liquid stage. The third stage is the C25 LOX/LH2 cryo stage. The large payload fairing measures 5 m in diameter and can accommodate a payload volume of 100 cu m. The development work on Mk III is progressing as per schedule for a launch in 2012.

Typical Parameters of GSLV Mark III  Lift-off weight 630 Tonne  Pay Load 4 Tonne in to Geosynchronous Transfer Orbit (GTO)  Height 42.4 metre

                                    Anjum Ara IPS

                                 64 RR Batch

       

Indian Space Research Organization (ISRO)

The objective of ISRO is to develop space technology and its application to various national tasks. Accordingly, Indian Space Research Organization (ISRO) has successfully operationalized two major satellite systems namely Indian National Satellites (INSAT) for communication services and Indian Remote Sensing (IRS) satellites for management of natural resources; also, Polar Satellite Launch Vehicle (PSLV) for launching IRS type of satellites and Geostationary Satellite Launch Vehicle (GSLV) for launching INSAT type of satellites.

The Space Commission formulates the policies and oversees the implementation of the Indian space programme to promote the development and application of space science and technology for the socio-economic benefit of the country. DOS implements these programmes through, mainly Indian Space Research Organisation (ISRO), Physical Research Laboratory (PRL), National Atmospheric Research Laboratory (NARL), North Eastern-Space Applications Centre (NE-SAC) and Semi-Conductor Laboratory (SCL). The Antrix Corporation, established in 1992 as a government owned company, markets the space products and services.

Current Programme

From the beginning, space activities in the country, concentrated on achieving self reliance and developing capability to build and launch communication satellites for television broadcast, telecommunications and meteorological applications; remote sensing satellites for management of natural resources.

Accordingly, Indian Space Research Organisation (ISRO) has successfully operationalised two major satellite systems namely Indian National Satellites (INSAT) for communication services and Indian Remote Sensing (IRS) satellites for management of natural resources; also, Polar Satellite Launch Vehicle (PSLV) for launching IRS type of satellites and Geostationary Satellite Launch Vehicle (GSLV) for launching INSAT type of satellites.

Satellites

(a) Indian National Satellite (INSAT) System

The INSAT series, commissioned in 1983, has today become one of the largest domestic satellites systems in the Asia-Pacific region comprising nine satellites in service.

1.         GSAT-12        Launched on July 15, 2011

2.         GSAT-8          Launched on May 21, 2011

3.         INSAT-4CR   Launched on Sep 02, 2007

4.         INSAT-4B      Launched on Mar 12, 2007

5.         INSAT-4A      Launched on Dec 22, 2005

6.         INSAT-3E      Launched on Sep 28, 2003

7.         INSAT-3A      Launched on Apr 10, 2003

8.         KALPANA-1 Launched on Sep 12, 2002

9.         INSAT-3C      Launched on Jan 24, 2002

(b) Indian Remote Sensing (IRS) Satellite System

The Indian Remote Sensing (IRS) satellite system is one of the largest constellations of remote sensing satellites in operation in the world today. The IRS programme commissioned with the launch of IRS-1A in 1988 presently includes twelve satellites that continue to provide imageries in a variety of spatial resolutions from better than one metre ranging upto 500 metres.

1.         RISAT-1                     Launched on Apr 26, 2012 by PSLV-C19

2.         Megha-Tropiques        Launched on Oct 12, 2011 by PSLV-C18

3.         RESOURCESAT-2    Launched on Apr 20, 2011 by PSLV-C16

4.         CARTOSAT-2B         Launched on July 12, 2010 by PSLV-C15

5.         OCEANSAT-2           Launched on Sept 23, 2009 by PSLV-C14

6.         RISAT-2                     Launched on Apr 20, 2009 by PSLV-C12

7.         CARTOSAT-2A         Launched on Apr 28, 2008 by PSLV-C9

8.         IMS-1                         Launched on Apr 28, 2008 by PSLV-C9

9.         CARTOSAT - 2          Launched on Jan 10, 2007 by PSLV-C7

10.       CARTOSAT-1            Launched on May 05, 2005 by PSLV-C6

11.       RESOURCESAT-1     Launched on Oct 17, 2003 by PSLV-C5

12.       TES                             Launched on Oct 22, 2001 by PSLV-C3

Launch Vehicles

Today, Indian space Programme has become self-reliant with the operationalization of two satellite launch vehicles, Polar Satellite Launch Vehicle (PSLV), mainly for launching IRS class of satellites in polar orbits and Geosynchronous Satellite Launch Vehicle (GSLV) for launching communication satellites into geo-synchronous transfer orbit. GSLV can carry 2- 2.5 tonne satellite in to 36,000 Kilometer range for geo stationery transfer orbit and India was the sixth country in the world to have this capability.

So far ;

PSLV has twenty one consecutively successful flights out of twenty two launches

GSLV has four successful flights of seven launches

Satellite Applications

Space has become the mainstay of national infrastructure providing vital services. INSAT system is providing tele-communications, television broadcasting, weather forecasting and societal application services such as tele-medicine and tele-education IRS System with Nine satellites in operation is providing data for a variety of application programmes such as Groundwater Prospects Mapping, Crop Acreage and Production Estimation, Potential Fishing Zone Forecast, Biodiversity Characterisation etc., In order to reach space-based services directly to the rural population, nearly 500 Village Resource Centres (VRCs) have been set up in association with NGOs, Institutes and Government Agencies.

(a) INSAT Applications

The telephone circuit devices through INSAT connect remote inaccessible areas to major cities in India. The launch of INSAT-4A during December 2005, INSAT-4B in and INSAT- 4CR in 2007 have ushered in Direct To Home (DTH) television services in the country. Television reaches 85 percent of India's population via INSAT. Over 200 AIR stations are linked via INSAT network. In the recent years, Very Small Aperture Terminals (VSAT) have revolutionised our telecommunications sector. INSAT supports over 20,000 VSATs for e-commerce and e-governance. National Stock Exchange and Bombay Stock Exchange use VSAT technology across the country for instantaneous transactions. Today exclusive channels are provided for interactive training and Developmental communication including distance learning.

India has an exclusive meteorological satellite Kalpana - 1. The imaging instruments (VHRR) & (CCD) collect meteorological data and provide timely warnings on impending cyclones. The data relay transponder in the INSAT system is used for collect real time hydro meteorological data for river monitoring flow forces.

The launch of EDUSAT on September 20, 2004 heralded new era in the field of distance education and today, about 35,000 class rooms are in the EDUSAT network providing services at primary, secondary and university levels.

The satellite based telemedicine network has expanded its network connecting 375 hospitals (305 remote and rural hospitals including those in Jammu & Kashmir, North Eastern region and Andaman and Nicobar Islands, 13 mobile units and 57 super specialty hospitals in major cities).

(b) IRS Applications

Imagery taken by Indian Remote Sensing (IRS) Satellite System has found application in diverse fields ranging from agriculture to urban planning. Crop health monitoring, crop yield estimation and drought assessment are the significant areas of application in the agriculture and the allied fields. Soil mapping at different scales with relative ease has become a reality.

IRS data has also been used for Ground Water potential zone mapping and mineral targeting tasks. The ocean applications of IRS data include potential fishing zone identification and coastal zone mapping.

Forest cover mapping, biodiversity characterisation and monitoring of forest fire is now carried out using IRS imagery. IRS spacecraft provide timely inputs to Flood and earthquake damage assessment thereby providing the necessary supportive strength to disaster management. Even in the field of Archaeological survey, the utility of IRS imagery has been well established.

The judicious combination of information derived from space based imagery with the ground based socio economic data is leading to a holistic approach for resource monitoring and its management.

(c) Village Resource Centre (VRC)

Combining the services offered by INSAT and IRS satellites, a new concept namely Village Resource Centre (VRC) to provide information on natural resources, land and water resources management, tele-medicine, tele-education, adult education, vocational training, health and family welfare programmes has been established. Nearly 500 such VRCs have been established in the country.

ISRO Centers

1. Vikram Sarabhai space Centre (VSCC) Thiruvananthapuram

2. ISRO Satellite Centre (ISAC) Bangalore

3. Satish Dhawan Space Centre (SDSC) SHAR, Sriharikota

4. Liquid Propulsion System Centre (LPSC) Valimala, Mahendragiri, Bangalore

5. Space Application Centre (SAC) Ahmedabad

6. National Remote Sensing Centre (NRSC) Hyderabad

7. ISRO Telemetry, Tracking and Command Network (ISTRAC) Bangalore

8. Master Control Facility (MCF) BHOPAL, Hassan

9. ISRO Inertial System Unit (IISU) Thiruvananthapuram

10. Laboratory for Electro-Optic Systems (LEOS) Bangalore

11. Development and Educational Communication Unit (DECU) Ahmadabad

12. Regional Remote Sensing Centers (RRSC) North, East, West, South and Central

13. Indian Institute of Space Science & Technology (IIST) Thiruvananthapuram

14. Indian Institute of Remote Sensing (IIRS) Dehradun

15. Physical Research Laboratory (PRL) Ahmedabad

16. National Atmospheric Research Laboratory (NARL) Gadanki

17. North Eastern-Space Application Centre (NESAC) Shillong

18. Semi-Conductor Laboratory (SCL) Chandigarh

19. Antrix Corporation Limited Bangalore