Combustion analysis

CFD-based Combustion Analysis: Advanced Simulations for Combustion Performance Evaluation and Optimization

CFD-based combustion analysis is an advanced technology that allows for the simulation of combustion behavior within a system, providing detailed information on combustion performance and efficiency. CFD combustion simulation evaluates the temperature distribution, velocity, and concentration of chemical species within the combustion system, enabling optimization of system design and reduction of harmful emissions into the environment.

At our company, we create advanced and accurate combustion analyses. Our combustion analysis process includes a series of phases, including project specification analysis, simulation model creation, numerical simulation using advanced CFD technology, results analysis, and performance optimization.

CFD combustion simulation enables the evaluation of various design solutions, such as the assessment of different combustion geometries, modification of air and fuel flow, use of different types of fuels, and optimization of combustion system performance. Additionally, CFD simulation allows us to evaluate the environmental impact of combustion, enabling the design of eco-friendly and sustainable combustion systems.

CFD combustion simulation uses advanced mathematical models, such as mass transport, heat, and chemical species modeling, to accurately describe combustion behavior within the system. CFD combustion simulation also requires valid experimental validation of collected data to ensure simulation results reliability. Contact us for more information on our combustion analysis services and discover how we can help you design efficient and eco-friendly combustion systems.

Low Emission Combustion Solutions

Thanks to the high specialization of our team of engineers and our industrial partnership with Cadence, which allows us to use state-of-the-art software solutions, we are at the forefront of providing high-tech, high-efficiency, and low environmental impact responses. Below is a non-exhaustive list of our competencies.

  1. Design of LP premixed combustors for high-efficiency gas turbines
  2. Analysis of the humming phenomenon in premixed gas turbine combustors
  3. Thermoacoustic analysis to reduce mechanical vibrations and hot spots that limit gas turbine performance
  4. Flame stability, reduction of consumption and pollutants of burners for boilers and industrial torches
  5. Mixing analysis, flammability limits, flame-holding, flashback, and blow-off analysis
  6. Optimization of combustion efficiency and reduction of consumption in thermal engines
  7. Innovative technologies that improve the environmental performance of combined cycles
  8. Heat Release Rate (HRR) curve analysis
  9. Evaluation of radiative, conductive, and convective thermal loads
  10. Design of pilot systems