Engineering the Future of Aerospace & Mechanical Innovation

From advanced test facilities to high-performance engineering systems, we transform complex ideas into precision-built solutions through research, design, simulation, and execution.

ABOU
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Staggered Technologies operates at the specialized intersection of instrumentation, turbomachinery experimentation, and propulsion validation. Founded by IIT Kanpur doctorate holders, our company was born out of a critical necessity: the lack of robust, localized, and specialized engineering infrastructure for advanced aerospace research in India.

By combining deep academic insights with rigorous manufacturing execution, we bridge the gap between complex theoretical fluid dynamics and physical testing. Our intent is clear: we deliver operational experimental test rigs, indigenous multi-channel instrumentation, and turnkey facility engineering that transform complex propulsion concepts into validated, high-performance physical assets.

Dr. Ramraj H Sundararaj
Dr. Ramraj H Sundararaj

CEO & Co-founder

Dr. Rajat Arora
Dr. Rajat Arora

CTO & Co-Founder

Origin

IIT Kanpur

Specialization

Aerospace & Mechanical Engineering

Founded

2022

Trusted Ecosystem Partners

IIT Madras Incubation cell (IITMIC), AMEX

IIT Madras
American Express

Core Values

01

UNCOMPROMISING PRECISION

Engineered by researchers, built for researchers.

02

IN-HOUSE IP SOVEREIGNTY

We prioritize native R&D over reverse engineering to guarantee long-term scalability and proprietary engineering know-how.

What are our services?

Gas Turbine Engine Performance Modelling & Simulation

Models that predict real behavior.

For you if: You need performance analysis before building hardware. You have your own fabrication team — you just need the engineering.

Gas turbine engines are complex. Small changes in one component ripple through the entire system. We build simulation models that help you understand exactly how your engine will behave — at design point, off-design, and during transients.

What we do

  • Thermodynamic cycle analysis
  • Steady-state and transient performance modeling
  • Compressor and turbine map integration
  • GasTurb case files (full working models)
  • Parametric studies and optimization
  • Technical training for your team

Typical applications

  • Gas turbine engines and microturbines
  • Propulsion systems
  • Turbomachinery development
  • Research and technology programs

Simulate before you build. De-risk your design. Train your team.

Gas turbine engine
Gas turbine simulation workflow

Advanced Instrumentation & Experimental Infrastructure

Data you can publish, present, or take to market.

For you if: You have a prototype — scaled or full-size — and need independent performance testing.

You've built a fan. Or you're developing a blower. Or a customer wants certified performance numbers. We test using methodologies aligned with AMCA 210 and ISO 5801 — at our facility or in collaboration with IIT Kanpur's 1m diameter test facility.

What we do

  • Fan and blower performance testing
  • Airflow and pressure measurements
  • Performance map generation
  • AMCA 210 aligned fan testing approach
  • Prototype benchmarking (scaled or full-size)
  • Data reduction and report generation

Typical applications

  • Fan and blower performance validation
  • Scaled prototype testing
  • Full-size fan characterization (up to 1m diameter)
  • Academic and industrial research programs

Testing location: Test will be conducted at IIT Kanpur's 1m diameter fan test facility.

AMCA 210 / ISO 5801 aligned. Real facility. Real data.

IIT Kanpur fan test facility
IIT-K fan test facility details

Products & Laboratory Systems

Experimental systems for engineering education and research.

STPL develops laboratory-scale experimental setups, measurement systems and instrumentation platforms for colleges, universities and research laboratories. The focus is on hands-on learning, practical experimentation and engineering education.

Axial Fan Experimental Setup

A laboratory platform for studying fan aerodynamics, pressure rise characteristics and performance evaluation of axial flow fans.

Axial Fan Experimental Setup

A laboratory platform for studying fan aerodynamics, pressure rise characteristics and performance evaluation of axial flow fans.

  • Understanding of fan design methodology
  • Airflow and Pressure measurements
  • Torque and Rotor speed measurements
  • Fan performance map generation
  • Suitable for teaching, projects and research laboratories

Turbine Experimental Module

An educational platform for demonstrating turbine operation, energy conversion principles and turbomachinery performance analysis.

Turbine Experimental Module

An educational platform for demonstrating turbine operation, energy conversion principles and turbomachinery performance analysis.

  • Blower and Turbine integration
  • Dynamometer operation
  • Understanding of 3D design methodology
  • Speed, torque and power measurements
  • Suitable for fluid machinery and thermal engineering laboratories

Pressure Scanner Platform

A rugged 16 channel pressure scanner for wind tunnels, HVAC, automotive intake/exhaust, industrial process monitoring, hydrostatic level measurement, and fluid flow experiments

Pressure Scanner Platform

A rugged 16 channel pressure scanner for wind tunnels, HVAC, automotive intake/exhaust, industrial process monitoring, hydrostatic level measurement, and fluid flow experiments

  • Multi-point pressure acquisition
  • DAQ and LabVIEW compatibility
  • Available in multiple pressure ranges
  • Rugged construction for harsh environments and extended service life
  • Customizable — your specs, your way

Modular Laboratory Ecosystems

Custom-built laboratory systems for colleges, universities and research organizations seeking modern experimental infrastructure.

Modular Laboratory Ecosystems

Custom-built laboratory systems for colleges, universities and research organizations seeking modern experimental infrastructure.

  • All components — axial fan, axial turbine, wind tunnel sections — are mounted on wheeled carts and designed to work together
  • Modular and scalable architecture
  • Integrated instrumentation and data acquisition
  • Designed for teaching, student projects and applied research
  • Maximize experiments. Minimize spending