Flow, Combustion and Emission
FEA & CFD Based Simulation Design Analysis Virtual prototyping MultiObjective Optimization
With 1D-3D coupling, we deliver a solution dedicated to solving specific tasks related to Internal Combustion Engine (ICE) development, such as matching performance requirements, lowering fuel consumption, emissions, CO2 and optimizing the engines thermal management.
1D-3D coupling are the industry’s first choice when reliable results are needed for engine thermodynamics and combustion/emissions development. The intelligent integration of these two software tools facilitates solutions for complex tasks early in the development phase and provides unparalleled accuracy during the detailed design phase by global CAE leaders.
What we do for Powertrain Engineering:
Focusing increasingly on electrification, hybrid technology, and lightweight concepts, we drive advancements for CO2 emission reduction forward.
Providing design, development, and simulation on components, engines, transmissions, and vehicles, we also support R&D and simulation for fuel mixing, combustion, filtration, and fluid flow analysis.
Innovative Design and Virtual Test
Enteknograte offers best software solution and combination of the solutions, features and validated simulation methods dedicated to combustion system and engine component development, enabling superior engine performance.
internal combustion (IC) engines
Simulating internal combustion (IC) engines is challenging due to the complexity of the geometry, spatially and temporally varying conditions, and complex combustion chemistry in the engine. In a complex IC engine case, mesh resolution requirements to capture relevant flow features can vary significantly in time and space. This is a challenge that Adaptive Mesh Refinement can easily solve.
Using Simulation to Optimize Reacting Flows and Combustion
From automobile engines to gas turbine generators, reacting flow and combustion is often the key to energy efficiency, emissions, lifespan, product yield, and other performance parameters. Simulation help look deeper into reacting flow and combustion issues to understand the complex chemical reactions, fluid flow, heat transfer, electrical performance, and other factors that determine the performance of your product. Simulation enables our engineers to evaluate more design alternatives more thoroughly than traditional prototype-based design and development methods.
Our Engineers can confidently diagnose design alternatives to understand which potential design changes have the best change of improving product performance and evaluate enough design alternatives to get the design right before building a physical prototype. In such complicated Multiphysics environment including different solid and fluid and interaction between fields, enforce us to use advanced computational tools with innovative methods to capture real-world simulation and optimize system to reduce cost and maximize performance considering short time for design in world competition.
By using Accurate reaction mechanisms that representing every class of reaction important for combustion analysis and combination of advanced computational fluid dynamics (CFD) combustion simulation tools such as Kiva, Ansys Fluent, Ansys Forte, AVL Fire, Converge CFD, Siemens Star-ccm+ , MSC Cradle and System Modeling software such as Matlab Simulink and GT-Suite enable Enteknograte engineering team to reduce chemistry analysis time by orders of magnitude, virtually eliminating the bottleneck that chemistry integration produces during the simulation process.
Knowledge of the underlying combustion chemistry and physics enables designers of gas turbines, boilers and internal combustion engines to increase energy efficiency and fuel flexibility, while reducing emissions. Combustion System couples multiphysics simulations incorporating accurate physical models with an advanced chemistry solver to provide a complete end-to-end combustion chemistry simulation capability to optimize products that involve reacting flow.
Gas Turbine Combustion CFD Simulation: Detailed Chemistry
Fuel Injectors and Spray CFD Simulation
Spray, Combustion, Emissions, Shaft and Gear Systems, Acoustic Enclosures
CFD Simulation of Reacting Flows and Combustion
CFD Simulation of Engine Exhaust Aftertreatment
1D/3D Coupled Simulation and Co-Simulation: Detailed Chemistry & Multiphase Flow Modeling with 1D Modeling
Integrated Artificial Intelligence (AI) & Machine Learning - Deep Learning with CFD & FEA Simulation
Heat Transfer and Thermal Analysis: Fluid-Structure Interaction with Coupled CFD and Finite Element Based Simulation
Acoustics and Vibration: FEA and CFD for AeroAcoustics, VibroAcoustics and NVH Analysis
Aerodynamics Simulation: Coupling CFD with MBD, FEA and 1D-System Simulation
Finite Element Analysis of Durability and Fatigue Life
Multi-Phase Flows CFD Analysis
WE WORK WITH YOU
We pride ourselves on empowering each client to overcome the challenges of their most demanding projects.
By using Accurate reaction mechanisms that representing every class of reaction important for combustion analysis and combination of advanced computational fluid dynamics (CFD) combustion simulation tools such as Kiva, Ansys Fluent, Ansys Forte, AVL Fire, Converge CFD, Siemens Star-ccm+ , MSC Cradle and System Modeling software such as Matlab Simulink and GT-Suite enable Enteknograte engineering team to reduce chemistry analysis time by orders of magnitude, virtually eliminating the bottleneck that chemistry integration produces during the simulation process.