SSLV Completes its first hot fire test

The Indian Space Research Organization (ISRO) has completed the final testing for their upcoming Small Satellite Launch Vehicle (SSLV). SSLV is India’s newest launch vehicle, intended to provide cheaper and more flexible access to space for its customers. With testing complete, final preparations will begin for the maiden launch of the SSLV, currently targeting May 2022.

Credits: ISRO

SSLV is the latest in a long line of rockets developed by the ISRO. With the formation of the ISRO in 1969, work began on developing their own orbital launch system to send their own payloads to space. This work culminated to create the Satellite Launch Vehicle (SLV). In the mid-2010s, the ISRO, along with NewSpace India Ltd (NSIL), began work on a new dedicated small-sat launcher to keep up with the growing small-sat market.

This rocket, known as SSLV, was designed to carry 500–700kg to LEO. With simplicity in mind, the SSLV will launch at a higher pace and with a greatly reduced launch price. The simplicity will allow the rocket to be assembled in just a few days compared to the 30+ days needed for the PSLV. SSLV is also designed to be assembled either horizontally or vertically.

From the beginning, the rocket will use more autonomous launch operations to allow a small launch team with as few as three to six people. With the quick launch assembly and autonomous launch operations, the launch preparations can be done in just a couple of weeks.

Similar to the ISRO’s first couple of rockets, the SSLV is a three-stage rocket using mainly solid-propellant. The first stage is the newly developed S-85 Solid Booster Stage (SS1). The hydroxyl-terminated polybutadiene (HTPB)-based SS1 motor is used to complete the initial part of the SSLV flight. SS1 generates a max thrust of 2,496 kN of thrust while in a vacuum and will burn for 94.3 seconds.


SS1 is the most recent part of the rocket to be certified for flight. In March 2021, the SS1 completed its first ground static fire test. The first static fire was nominal during the first 60-seconds of the test. However, oscillations started after 60 seconds. 30 seconds later, the nozzle disintegrated causing the test to fail. The test was supposed to last 110 seconds.

Following a redesign of the motor and more tests, the final ground static fire test was completed in March 2022. This test was completed successfully, meeting all of the ISRO’s testing objectives. As the final major part of the rocket to go through certification, this final test gave the confidence for the ISRO to move ahead with the maiden flight of SSLV. The SS2 and SS3 have already completed their ground testing and are ready for integration ahead of the first launch.


The second stage on SSLV is known as S-7 SS2. SS2 is another HTPB-based solid motor to help get the rocket even closer to orbit. The motor will have a max thrust of 234.2 kN with a burn time of 113.1 seconds. This S-7 motor is similar to the S-7 used on the PSLV rocket; the version on SSLV has less thrust but greater burn time.


S-4 SS3 is the third stage on the SSLV. The last stage on the SSLV, this HTPB-based solid motor will place the rocket into orbit. This motor will have a max thrust of 160 kN with a burn time of 106.9 seconds.

Credits: ISRO

The third stage is different as it uses a bi-propellant liquid Velocity Trimming Module (VTM) to send the payload(s) to their specific orbits. VTM will be attached to the top of the third stage to provide roll control during the second and third stages of flights and will act as a terminal stage. A total of 16, Monomethylhydrazine (MMH) and Mixed Oxides of Nitrogen (MON-3) based thrusters providing 50 N of thrust each, are used on the VTM. Eight of the thrusters will be used as Reaction Control System (RCS) while the other eight are used as axial thrusters to change velocity.

Altogether, the rocket will be ~34 meters tall, 2 meters in diameter, and weigh ~120 metric tons at liftoff.

SSLV will have a range of payload capabilities from ~800 kg to a 300 km orbit at 40 degrees inclination to 500 kg to a 500 km orbit at 45 degrees inclination.

For SSLV’s first launch (SSLV-D1) planned in May 2022, it will lift the 142 kg Earth Observation Satellite (EOS)-02 satellite. to a 350 km orbit. This small satellite will be used as a test satellite for the SSLV.

If it successfully reaches orbit, the satellite will operate for around 10 months and will have a ground resolution of six meters. EOS-02 was completed in early-2022.

SSLV’s second launch (SSLV-D2), will lift four BlackSky Global Earth Observation satellites to orbit. Contracted by Spaceflight Inc., this launch will be SSLV’s first commercial launch. These satellites will have a total mass of 224 kg and will be sent into a ~450 km orbit with an inclination of ~50 degrees. It will launch No Earlier Than (NET) September 2022. And Finally SSLV’s third planned flight is the X-Ray Polarimeter Satellite for the ISRO. This 480 kg satellite will launch to 500–700 km orbit. All three of these launches will be launched from the First Launch Pad at the Satish Dhawan Space Centre (SDSC). The First Launch Pad is the same launch site used by the GSLV and PSLV launch vehicles. Once complete, SSLV will launch from a dedicated launch pad called Small Satellite Launch Complex (SSLC). Even later in the future, SSLV will launch from a new spaceport in Tamil Nadu at the south end of India. This spaceport will be used to allow launches to the south without flying over populated areas. ISRO’s new entry to the small sat market will be a healthy competition to the Small Sat Launch Providers.

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Haribalaji R

Rocket Enthusiast with the goal of exploring the rocket science in detail and presenting it in simple terms. Bringing space down to earth for everyday people.