At Kritish International Technologies LLP, we specialize in the design, analysis, and optimization of propulsion systems and turbomachinery for aerospace, energy, and defense applications. Our engineering team focuses on improving efficiency, reliability, and performance across compressors, turbines, fans, and combustors — ensuring robust and sustainable propulsion for advanced platforms.
Using high-fidelity CFD, FEA, and thermal simulations, we analyze every stage of the propulsion process — from intake to exhaust — to deliver data-driven design improvements, noise reduction, and extended component life.
CFD-based analysis of compressors, turbines, fans, and nozzles; flow-path optimization for pressure ratio, efficiency and thrust; boundary-layer, swirl, turbulence and heat transfer studies; system-level thermodynamic performance analysis.
Combustor design & optimization for stable fuel-air mixing; combustion stability & emissions analysis; thermal management of combustion chambers and exhausts; hot-spot mitigation via conjugate heat transfer (CHT) modeling.
Stress & fatigue analysis of rotating components; structural evaluation of blades, shafts, casings and seals; vibration & noise analysis; CFD–FEA coupled simulations for aero-thermal-structural prediction.
Integration with airframes, nacelles and inlets; engine–airframe optimization to reduce drag; digital twin development for real-time monitoring and predictive maintenance; prototype support and validation.
Research on electric, hybrid and hydrogen propulsion concepts; turbomachinery simulation and testing; failure mode, fatigue life and materials assessment for next-generation systems.
Where our propulsion & turbomachinery expertise is applied
From UAV design and propulsion systems to AI-driven aviation safety and geospatial intelligence —
we deliver secure, high-reliability solutions for mission-critical needs.
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