Our Services
We provide advanced Computational Fluid Dynamics (CFD) modelling and engineering analysis for the energy and process industries — helping our clients understand, optimize, and improve complex thermal and flow phenomena in large-scale installations.
Our CFD expertise supports projects in power generation, waste-to-energy, combustion systems, process optimization, and pollution control.
Through high-fidelity simulations, we deliver insights that drive efficiency gains, emission reduction, and improved reliability of industrial assets.
Our simulations are performed using advanced numerical solvers and customized models tailored to specific applications in combustion, heat transfer, gasification, and fluid mechanics.
Our Focus
We help industrial clients and energy producers to:
- Improve combustion efficiency and reduce pollutant emissions,
- Analyze and validate process modifications before implementation,
- Optimize heat transfer, fluid flow, and temperature distribution in complex systems,
- Evaluate and implement fuel-switching or hydrogen retrofit scenarios,
- Extend asset lifetime through detailed thermal and flow diagnostics,
- Reduce R&D time and prototyping costs through accurate simulation-driven design.
What We Do
- Combustion and gasification modelling – Simulation of solid, liquid, and gaseous fuel combustion processes, including coal, biomass, RDF, and syngas. We analyze temperature fields, flame stability, burnout efficiency, and pollutant formation.
- Fuel-switching and retrofit analysis – CFD-based evaluation of design modifications for hydrogen or alternative fuel adaptation, including thermal load distribution and burner aerodynamics.
- Thermal and heat transfer simulations – Detailed analysis of boiler and heat exchanger performance, identification of hot spots, and assessment of thermal stresses for lifetime prediction and optimization.
- Flue gas and pollutant flow modelling – Simulations of NOₓ, SOₓ, CO, and particulate formation and transport within combustion systems, flue gas ducts, and emission control devices.
- Industrial ventilation and flow distribution – CFD-based optimization of air and flue gas flow in combustion chambers, process ducts, and cooling systems to improve uniformity and reduce losses.
- De-bottlenecking and process optimization – Use of flow and thermal modelling to locate areas of poor performance, turbulence, or excessive wear, supporting redesign and modification decisions.
- Steam and gas flow dynamics – Simulation of complex multi-phase or compressible flows in steam lines, turbines, and heat recovery systems to assess efficiency and pressure drop.
- Customized CFD software and embedded tools – For clients requiring recurring CFD analysis, we offer development of dedicated, simplified CFD applications tailored to specific plant configurations, allowing in-house simulation and real-time optimization without reliance on commercial packages.