The announcement from the Chennai-based company comes after China last week broke the US monopoly on orbital rocket reusability by recovering its first orbital-class rocket booster.
Meanwhile, Somanath S, former chairman of Indian Space Research Organisation (Isro), has joined Agnikul’s board as an observer ahead of the attempt, named Mission 02.
Agnikul is an end-to-end space transportation company incubated at IIT Madras. It develops the Agnibaan family of configurable small-lift launch vehicles powered by the world’s first single-piece 3D-printed semi-cryogenic engine.
The company said it is aiming to put satellites into orbit, recover the orbital-class rocket booster, and test upper-stage extension, which have not been achieved at this scale in India.
“Together they represent the country’s first serious foray into rocket reusability, a technology that has fundamentally reshaped global launch economics and whose mastery is now widely seen as the defining competitive barrier for the next generation of launch providers,” it said.
Mission 02 will fly a two-stage Agnibaan configuration in which the first-stage booster, after separation, will attempt a controlled descent and ocean recovery.
Simultaneously, the upper stage will demonstrate extended in-orbit capability by converting itself into a functional platform rather than expending itself after payload release.
Agnikul holds patents in India, the US and Europe covering this convertible upper-stage architecture, which allows the same vehicle hardware that delivers a satellite to then serve as an in-orbit asset.
To be sure, Elon Musk’s SpaceX has so far conducted over 650 Falcon 9 booster flights with stage reusability, with individual boosters accumulating up to 35 missions, driving the cost-to-orbit down to levels that expendable rockets cannot approach. Jeff Bezos’ Blue Origin’s New Glenn and Rocket Lab’s upcoming Neutron are joining this field.
“The message from the market is unambiguous. Reusability is no longer a differentiator; it is a prerequisite,” Agnikul said.
India has long depended on Isro’s workhorse, the PSLV, for satellite launches. Mission 02 will be launched from a private launchpad using a 3D-printed semi-cryogenic engine manufactured within a week.
“Dr Somanath has led missions like LVM3, SSLV and RLV, Gaganyaan test vehicle, Chandrayaan-3 and Aditya-L1, and has navigated the complexity of booster design, stage recovery and in-orbit operations,” said Srinath Ravichandran, chief executive of Agnikul Cosmos.
The former Isro chairman is an authority on launch vehicle design, propulsion systems and structural dynamics.
Moin SPM, chief operating officer of Agnikul Cosmos, said, “Booster recovery requires precision at every layer, propulsion, guidance, structural, avionics and the upper stage extension pushes us into territory that few teams globally have operated in.”
The company’s Agnite booster engine, validated earlier this year, produces thrust at a scale that makes recovery trajectories tractable, he said.
“The convertible upper stage concept, combined with indigenous semi-cryogenic propulsion and a 3D-printed engine that can be produced in days, is a coherent and defensible technical strategy,” said Somanath.
Last month, Agnikul signed an agreement with two global partners: ICEYE of Finland, a player in SAR satellite imaging, and Safran of France, one of Europe’s aerospace propulsion and systems groups. The agreements are part of a broader set of partnerships valued at nearly $100 million in projected commercial and technological value.
In May 2024, Agnikul conducted Mission 01, Agnibaan SOrTeD, a fully controlled suborbital flight from India’s first privately built launchpad at Sriharikota, the first launch of its kind in India.
Agnikul holds patents covering its propulsion and avionics, apart from its convertible upper-stage systems.
The company has received investment from TIDCO, the Tamil Nadu government’s industrial arm, Anand Mahindra and some institutional investors.
