Defence

'Nirbhay' Long-Range Cruise Missile Is Under Consideration For Induction In All Three Services: Here's Everything About It

Ujjwal ShrotryiaNov 15, 2023, 03:00 PM | Updated 03:00 PM IST
The Nirbhay cruise missile.

The Nirbhay cruise missile.


The government of India is considering a proposal to induct the Defence Research and Development Organisation (DRDO)-developed 'Nirbhay' long-range cruise missile in all three services in large numbers.

These missiles will be a part of the rocket forces that the government recently gave approval for and will complement the BrahMos supersonic cruise missile, Pralay tactical ballistic missiles, Shaurya, and potentially even the Agni-P medium-range ballistic missiles.


However, according to media reports, one service has sent a proposal to induct these missiles in large numbers. It is this proposal that the government is considering.

Here is everything you need to know about the deadly Nirbhay missile that will be a part of India's rocket forces and serve as a key deterrent against China:

Poster of Nirbhay missile stating its specifications

Nirbhay missile, developed by DRDO, is designed to destroy strategic targets at a maximum range of 1,000 kilometres.

It was first tested in March 2013 from the Integrated Test Range at Chandipur in the Balasore district of Odisha. The test, however, failed as it veered off its pre-planned trajectory, forcing the designers to destroy the missile in mid-air to avoid the risk of damage to human habitations.

The 1,500 kg missile can carry a conventional warhead of 450 kg, or a 12 kilo-ton nuclear warhead.


The initial lift-off is provided by a solid-fueled rocket booster motor developed by the Advanced Systems Laboratory, which takes the missile to a certain predetermined altitude and velocity.

Following the initial launch, the solid rocket booster motor separates, and the missile's turbojet/turbofan engines take over. These engines power the missile for the entire remaining flight.

Mid-way in the flight, the missile opens its wings, giving the missile additional lift. It also allows the missile to become more manoeuverable and helps the missile change its trajectory.

Nirbhay missile with its mid body wings extended. (File photo)

Navigation System

It can fly anywhere between 100 metres to 5 kilometres altitudes, in terrain-hugging mode (flying very close to the ground), thus allowing it to evade detection by radars, giving the designated target very small reaction time for taking countermeasures against the missile.

The subsonic missile, capable of flying at a speed of 0.7 Mach (approximately 860 kmph), is guided by an advanced inertial navigation system, indigenously developed by the DRDO lab, Research Centre Imarat, augmented by the Indian Regional Navigation Satellite System — IRNSS/NavIC-based global navigation satellite system.


Small Turbofan Engine (STFE)

The initial versions of the missile were powered by a Russian turbojet engine, NPO Saturn 36MT. These missiles were also deployed in limited numbers against China following the clashes at Galwan in June 2020.

Defence minister Rajnath Singh inspecting STFE engine. (Image via X @NewsIADN)

From October 2020, multiple tests of the Nirbhay missile, equipped with the indigenously developed small turbofan engine (STFE), previously known as the Manik engine, were conducted.

STFE is a 400 kgf thrust-class engine that has been developed by the Gas Turbine Research Establishment. According to Dr S Christopher, the ex-chairman of DRDO, the STFE is more economical than the Russian NPO Saturn 36MT engine.


The indigenous technology cruise missile (ITCM), whose existence was first revealed in 2020, serves as a technological demonstrator program for demonstrating the capabilities of the STFE engine, and other upgrades.

The last flight test of ITCM powered by the STFE engine conducted in February 2023 was deemed successful, following three unsuccessful tests between 2020 and 2022.

Nirbhay missile test.

ITCM will also demonstrate upgraded radio-frequency and other advanced sub-systems.


Another air-launched variant for the air force will also be developed using the same technologies developed in the ITCM, which can be fired from Tejas Mk-1A, Mk2, Su-30 MKI, and Rafale fighter jets.

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