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Kaveri Engine (1986–Present): Development Timeline & Current Status

Kaveri Engine (1986–Present): Development Timeline & Current Status

The Kaveri Engine is a jet engine designed and built in India. Think of it like the "heart" of a fighter jet — it gives the plane the power to fly fast, climb high, and perform sharp maneuvers. It was originally meant to power India’s homegrown fighter aircraft, the Tejas, but faced many technical challenges.

India currently depends on foreign companies (like GE from the U.S.) for fighter jet engines. Making our own engine means we don’t have to rely on others — especially during conflicts or sanctions.

Buying engines from abroad is expensive. Developing our own could save crores of rupees in the long run. Building a jet engine is one of the hardest engineering tasks. Success here means India’s scientists and engineers are reaching world-class levels.

Only a few countries — like the U.S., Russia, and France — can make advanced jet engines. If India joins that club, it gains more respect and influence globally.

Development Timeline of the Kaveri Engine

Kaveri Engine (1986–Present): Development Timeline & Current Status

Below is a chronological overview of India’s indigenous Kaveri jet engine program, from inception through next-generation plans.

1980s: Program Inception

  • 1986: Defence Research and Development Organisation (DRDO) authorized to develop an indigenous power plant for the Light Combat Aircraft (LCA) Tejas.
  • April 1989: Cabinet Committee on Security sanctions the Kaveri project with an initial budget of ₹382.21 crore and a 93-month development schedule targeting December 1996 completion.

1990s: Core Design and Prototype Testing

  • March 1995: “Kabini” core module (the first engine core) completes its maiden run.
  • 1996: First full prototype Kaveri engine begins ground-run tests.
  • By 1998: All five ground-test prototypes are undergoing evaluation; first flight tests slated for late 1999.

2000s: Technical Hurdles and Delinking from Tejas

  • 2002–2004: Repeated turbine-blade failures lead to component imports from Snecma and FADEC integration support.
  • Mid-2004: High-altitude trials in Russia fail, ending hopes for initial Tejas integration.
  • 2003–2006: General Electric F404 engines procured for Tejas Limited Series Production; Snecma provides technical assistance to Kaveri development.
  • September 2008: Officially delinked from the Tejas program; Kaveri to continue as testbed for future applications.

2010s: Continued Development and Derivative Programs

  • May 2010: About 1,880 test hours logged; eight full engines and four core engines built; high-altitude core testing complete.
  • November 4, 2010: Prototype K9 flight-tested at Gromov Flight Research Institute in Moscow.

2020s and Beyond: Leveraging Heritage, Kaveri 2.0

  • November 29, 2021: DRDO reports nine full prototypes and four core engines built, 3,217 hours of testing, completed altitude trials and Flying Test Bed flights.
  • 2025: Development of dry (non-afterburning) variant for the Ghatak UCAV; GTRE begins validating afterburner module targeting 73–75 kN wet thrust (eventual goal: 80 kN).
  • Mid-to-late 2030s: Kaveri 2.0 new core engine expected to reach operational readiness, aiming to replace F404/F414 engines on Tejas Mk1A and MkII fleets.

Timeline Summary Table

Year Milestone
1986 DRDO authorized indigenous LCA powerplant program
April 1989 CCS sanctions Kaveri project (₹382 cr, 93 months)
March 1995 Kabini core engine first run
1996 First full prototype ground tests
1998 Five prototypes under test; flight trials planned
2002–2004 Turbine-blade failures; Snecma FADEC and blade imports
Mid-2004 Failed high-altitude trials in Russia
September 2008 Delinked from Tejas program
May 2010 ~1,880 engine test hours; eight engines and four cores built
November 2010 Prototype flight test at Gromov Institute, Moscow
November 2021 Nine prototypes, four cores, 3,217 testing hours, FTB trials
2025 Dry variant for Ghatak UCAV; afterburner validation begins
Mid–late 2030s Kaveri 2.0 operational readiness for Tejas fleet


The Kaveri Engine program has made exciting progress as of mid-2025. India's Gas Turbine Research Establishment (GTRE) is pushing boundaries in aircraft propulsion technology.

Cleared for Inflight Testing

  • Dry version of the Kaveri engine approved for inflight testing by GTRE.
  • Tests will take place on a modified Ilyushin Il-76 aircraft at Gromov Flight Research Institute, Russia.
  • Engine delivered 48.5 kN thrust in simulations, surpassing the 46 kN benchmark for UAVs like Ghatak.

Key Technical Upgrades

  • Single Crystal Turbine Blades (CMSX-4) boost thermal performance to 1080°C and turbine entry to 1500°C.
  • Thrust-to-weight ratio increased from 6.5 to 8 using lightweight blisks and boltless blade designs.
  • New fan design enhances pressure tolerance for stealth aircraft configurations.
  • Polymer Matrix Composite ducts cut 6 kg compared to metal designs.
  • Powder metallurgy discs improve durability in hot sections.
  • BrahMos Aerospace assists with afterburner module enhancements.

Kaveri 2.0: The Next Leap

  • Targeting 90–100 kN thrust with afterburner to compete with GE F-414 engines.
  • FADEC integration enables smarter fuel use and flight adaptability.
  • New materials: nickel-based superalloys, ceramic matrix composites, and silicon carbide for heat endurance.

Strategic Impact

  • Kaveri 2.0 could power future platforms like AMCA, Ghatak UCAV, and naval fighters.
  • Reduces reliance on foreign jet engines.
  • GTRE seeks $1 billion investment to accelerate progress.
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