At TYZER Technologies, we have established our expertise in computational fluid dynamics (CFD) consulting with years of CFD project work in medical, manufacturing and rotational machinery, aerospace, marine, motion & multiphysics, civil and automotive. Our work has been comprehensively benchmarked by experiments and in-service testing.

Using the latest CFD software, TYZER Technologies excels at all types of Computational Fluid Dynamics simulations—no matter how complex or critical your project is:

  • Steady-state and transient CFD simulations of internal/external liquid and gas flows
  • Optimal turbulence modeling approaches: RANS, URANS, RSM, LES, DES
  • Rotating equipment and moving bodies
  • Fluid-structure interaction
  • Multiphase and free-surface flows
  • Analysis, design, and optimization of immersed or surrounding components
  • Incompressible, transonic and compressible flows
  • Multiple reference frames, rotating and sliding interfaces, deformable meshes
  • Heat transfer and thermal modeling
  • Flow mixing

We offer, Computational Fluid Dynamics (CFD)  services to solve various analyses related to challenges faced by industries during the product development. Our Approach to problem-solving is unique, that starts with a proper understanding of the physics of the problem and preparing the right solution strategy. Benchmarking with available analytical or experimental data, and validation of results is an indispensable part of the CFD simulation process. We are committed to providing accurate and reliable results. 

A lot of manufacturing processes are automated now and do not really need any human intervention. Likewise, for many applications, the complete CFD process: geometry creation, meshing, physics setup, solving, and post-processing can be automated. The advantages of the CFD process automation are many:

  1. Avoids Mistakes
  2. Consistent Quality
  3. Faster output
  4. Skilled Modelers can focus on more complex problems

If we look carefully, the performance improvement options are limited and our thought process for modifications has a pattern. Converting the human thought process into an Automated process thus becomes possible. Automation happens to be the perfect solution in this situation.    

TYZER Technologies has the skills and experience to automate the CFD process and also the domain knowledge to automate the debottlenecking process. We have automated the complete CFD design process. We took it one step forward and put the complex CFD process in the background and enabled process engineers (without any knowledge of CFD and CFD software) to improve equipment performance. 

Our collection of case studies delivers hard evidence of our many successful CFD consulting projects: dispersed particle flow, telemetry-based communications equipment, traditional energy & bio-fuel combustion, aerodynamic drag, hydroelectric spillways, acoustic pressure wave calculation, power electronics, and broadband noise models, to name a few.

CFD Analysis Services for Different Industries & Domains:

Mounting cost pressures and shrinking profit margins are forcing manufacturers globally, to incorporate advanced product development tools to bring products at the right time in the market with competitive cost structures.

We deliver CFD solutions for a number of applications across diverse industrial domains. With state-of-the-art hardware and software infrastructure facilities, our fluid dynamitists assist design engineers and manufacturers in evaluating their products involving fluid flow, right from the early design phase. Our team consists of domain experts, mechanical engineers, and CFD analysts that together collaborate to provide cost-effective design solutions to allow manufacturers to reduce time to market.

Industry-Specific Expertise:


From performance prediction of internal combustion engines and underhood thermal management to external aerodynamic study for automobiles, our solutions for the automotive domain can assist in developing efficient vehicles for tomorrow.


We assist structural design engineers to improve HVAC system design as well as predict the effects of wind and wave loads over the exterior of the building structure and subsequently help in improving building design prior to actual development.

Industrial Equipments:

Design engineers at TYZER Technologies CFD provide solutions to optimize industrial equipment such as turbines, furnaces, valves, and heat exchangers through computational simulations and assist in devising energy-efficient and cost-effective products.


Our solutions for the aerospace industry involve aerodynamic analysis for drag & lift studies and performance evaluation of turbines to provide assistance in developing high-performance aerospace equipment.


We also offer design solutions for the electronics domain through computational fluid dynamics for effective thermal management of PCBs and data centres as well as improve the performance of handheld devices through heat transfer analysis.


Our CFD experts have the ability to find practical solutions to tackle real industrial challenges. Their expertise in fluid mechanics and heat transfer makes CFD a highly profitable approach for our customers. Although our CFD services apply in all industries, the team has mainly delivered results in the following fields:

Building environments:
Over the years, our expertise in the analysis of airflow, heat, humidity, and contamination for sensible environments has created significant value for multiple building environments such as bio-pharma facilities, laboratories, industrial enclosures, warehouses, greenhouses, and underground environments, server rooms and office buildings. Typical projects will usually target ventilation design, air quality, thermal comfort, humidity control, or contaminant control. We have worked extensively on containment strategies for cleanrooms and laboratories, the configuration of refrigerated spaces, identifying gas leaks for assessment of explosive limits or workers’ exposure, improving thermal comfort in offices, and assessing indices of Indoor Air Quality (AIQ)

Heat management:
TYZER Technologies Engineering uses CFD simulations to design, optimize, certify, and troubleshoot heat-dissipating products or thermal management systems.
Conjugate heat transfer simulations handle conduction, convection, and radiation while accounting for the action of heat sinks, fans, heat exchangers, evaporators, heat shields, etc. We have worked on many projects to address electronic cooling, underhood thermal management, heat exchanger optimization, and the design of power electronics systems.

Some of our CFD staff come from the power generation sector and have long-standing experience in turbomachinery simulations. We work on a regular basis with dedicated methods such as pressure jumps, momentum sources, rotating reference frames, mixing-plane interfaces, sliding meshes, overset meshes, etc. We also have a proven track record in CFD applications related to hydraulics, hydrokinetic or wind turbine design, multistage pumps, and fans and blowers.

Food, pharmaceutical, and medical processes:
Processes in the food and pharmaceutical industry, and especially mixing, benefit greatly from CFD insights. Simulations of mixers for miscible and immiscible liquids, viscous emulsions, solid-liquid suspensions, and shear-thinning fluids (non-Newtonian) help with a variety of issues, such as inhomogeneous flow patterns and temperature, solid precipitation, prolonged mixing time, and power consumption. Thermo-fluid simulations are also used for the cooling of exothermic chemical processes, or even for medical procedures involving heat transfer in human tissues.

Bluff body aerodynamics and wind engineering:
External aerodynamics is a traditional application of CFD. TYZER Technologies has created virtual wind tunnels for sports aerodynamics, recreational vehicles, car racing, and wind engineering. Our clients entrust us to conduct drag assessments for ground vehicles, ships, or planes, validate wind loads on structures, ensure pedestrian comfort or predict snow build-up.

CFD Capabilities: 

CFD models can solve fluid flow problems and calculate the variation in velocity and pressure throughout the fluid volume. The applications include complex physics like combustion, multi-phase, detailed turbulence, aeroacoustics, and coupling with other physics solvers. 

Heat transfer analysis is one of the areas, where CFD  can be used to solve the problems involving conduction, convection, and radiation. It helps in calculating the heat transfer coefficients of various types of flows, including natural, forced, and mixed convection. Also, more complicated heat transfer effects like viscous heating, compressibility, real material models, phase change, evaporation, cavitation, and boiling can be included 

CFD helps in the modeling and analysis of turbomachinery to determine various associated performance characteristics.  The rotating frame of reference formulation of the Navier-Stokes equations is used to include the motion of rotating components like rotors, impellers, and mixers. Dynamic mesh models have the capabilities to solve transient & Fluid-Structure Interaction (FSI) problems. 

By coupling the flow field and chemistry, many complex real-world reactions/combustion problems can be solved. It can predict the evolution of chemical species in real geometries and provide a better understanding of the combustion process. 

In CFD and largely, all categories of engineering simulation, experience is king.   That is, realizing whether one merely has a visually appealing animation or a true digital twin that can be taken from design into production. This is TYZER Technologies’ competitive edge and our value proposition to our clients.

If you have a need for experienced CFD consultants, TYZER Technologies has continually expanded its client base for over 21 years, with more than 750+ projects.  If unsure whether your project request aligns with our skillsets, please feel free to contact our specialists, and learn how we can assist your specific CFD consulting request.

If you wish to automate your simulation and solution process, we will be happy to share our experience and expertise with you. Please connect with us will be happy to help!

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