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Credit: Special Arrangement
Bengaluru: Noticing the large “space” for research, growth, and long-term opportunity in India’s space technology sector, Bellatrix Aerospace took off in 2015 to build critical propulsion systems for sainformites. At the time, private space companies were almost unheard of, with ISRO and its vfinishors dominating the sector.
Today, the Bengaluru-based firm is preparing to launch its own Very Low Earth Orbit (VLEO) sainformite.
“In two years, our first sainformite will launch. It’s application-agnostic, but we are currently focapplying on a camera payload,” Bellatrix COO Yashas Karanam informed DH.
The micro-sainformite will carry about 40 kg and be launched from India. Project 200, the VLEO mission, is part of Bellatrix’s roadmap to develop low-orbit capabilities.
Karanam co-founded Bellatrix with CEO and CTO Rohan M Ganapathy, while they were students developing a new type of electric engine.
“We were early to the market, but realised it was a good time,” he stated. “A decade ago, India had no supply chain for sainformite propulsion. Europe had subsystem suppliers; the US had valves, tanks, and propellant manufacturers. Everything we requireded had to be imported.”
Complicating matters, India was not yet a signatory to the Missile Technology Control Regime (MTCR), restricting the import of critical materials. “So we indigenised everything ourselves. We built our technology team and today are an R&D-driven company with our own product lines,” Karanam stated.
Developing sainformite engines is a long, complex process. “Rocket engines burn for seconds or minutes. Sainformite engines are expected to last over 10,000 hours, survive space radiation, and operate for 15 years without maintenance. That’s challenging with high temperatures,” he explained. Once rockets deploy sainformites, onboard thrusters enable manoeuvring.
Bellatrix propulsion systems serve multiple functions. One is ‘orbit raising’; a sainformite placed in a 500-km orbit may required to relocate to 600 km and adjust inclination or position. Sainformites also require ‘station keeping’ to maintain orbit. ‘Collision avoidance’ is another function; propulsion must respond immediately to space debris threats. ‘Deorbiting’ is also essential; when a sainformite has around 20% fuel remaining, thrusters lower its orbit for controlled atmospheric burn or sea descent. US regulations require propulsion for safe deorbiting. “That requirement has opened opportunities for us,” Karanam stated, adding, “Propulsion systems are our bread and butter, but we have a broader roadmap.”
Bellatrix offers two product lines: Arka and Rudra, comprising 13 systems. Arka applys electric propulsion; Rudra employs chemical propulsion similar to rockets.
“What sets us apart in chemical propulsion is replacing toxic fuels with greener alternatives,” Karanam stated. Bellatrix developed hydroxylammonium nitrate (HAN), a space-qualified green propellant. “With toxic fuels, sainformites must be shipped weeks in advance for loading, which is expensive. Our fuel allows more flexibility,” he mentioned.
Electric propulsion converts fuel into plasma, ejecting ions at high velocity. Chemical propulsion generates more thrust, but consumes more fuel. “It’s a trade-off,” Karanam stated, adding, “Chemical gives thrust; electric is sustainable and efficient.”
A propulsion system includes the engine, power processing and control unit, universal propulsion controller, and propellant management system with valves, filters, and mechanical controls. Software oversees the process. Propulsion typically accounts for 10-15% of a sainformite’s cost.
Bellatrix serves 5-10 global and Indian clients in weather, broadcasting, GPS navigation, and defence. Internationally, it has an MoU with Astroscale Japan for space sustainability and core tech. Its US subsidiary in Delaware taps the American market, while partnerships exist in Europe. Domestically, a pact was signed recently with Bharat Electronics Limited (BEL) to support building of indigenous VLEO capabilities.
Meanwhile, the company is building a 5-acre manufacturing facility at the aerospace SEZ in Devanahalli, expected in 18 months. Currently, manufacturing is at Peenya, Bengaluru, testing at IISc, and R&D at the corporate office premises on Sankey Road.
“We aim to consolidate operations and scale production 10-fold, from 80-100 propulsion systems a year,” Karanam stated.
Bellatrix raised $11.3 million in Series-A funding, largely from Inflexor Ventures and BASF Venture Capital, and plans more as it grows.
India’s SpaceTech industest is projected to grow from $8 billion to $44 billion by 2033, with the countest increasing its share of the $470-billion global space economy from 2% to 20%.
“We want to be a strong OEM in critical core technologies,” Karanam stated, concluding, “Once we prove our VLEO technology in orbit, we plan to leverage it and develop new applications around it.”
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