CFD

Computational Fluid Dynamics (CFD)

Computational fluid dynamics consists of the analysis of systems related to fluid flow, heat transfer and other associated phenomena (such as chemical reactions) by means of computer simulation.

Typical applications include:

  1. Motor industry: Modeling of combustion, aerodynamics of vehicles
  2. Electrical engineering and electronics: Refrigeration of circuits including microcircuits
  3. Process Industry (Chemical Engineering): Mixing Equipment, Reactors, Polymer Moulding
  4. Building: Environmental study of buildings: both external (snow and wind loads) and internal (air conditioning)
  5. Environmental engineering: Distribution of pollutants and effluents
  6. Energy: Optimization of combustion processes

 

We use specialized simulation systems both energy and fluid-thermal to advise on the design of systems, equipment, facilities and / or solve specific technical problems.

The areas of services that we work with are:

Heat Transfer

Thermal Analysis and Heat Transfer

FEA For a number of products, engineering systems and industrial processes, a safe, reliable and cost effective operation requires the precise control of heat flow

Multiphase CFD

Multiphase Processing Equipment Analysis

FEA Multiphase flow separator design is central to the successful operation of many industrial processes. Advances in the CFD modelling of multiphase flow behaviour have

CFD hvac ASHRAE

Heating, Ventilation and Air Conditioning (HVAC)

FEA During the design process of an HVAC (Heating, Ventilation and Air Conditioning) system, engineers face numerous constraints. These setups must ensure proper temperature control,

Aerodynamics

Aerodynamic

FEA The transport industry faces increasing energy costs as a barrier for competitiveness. Improving the aerodynamic drag of a vehicle is a clear path for

Wind Load

Wind Static and Dynamic Loading

FEA Outdoor structures are exposed to wind loading and thus wind actions should be considered in the calculations during the design process. The assessment of

Erosion CFD

Erosion Analysis

FEA Hydrocarbon production systems are one of the most exposed industries to erosion degradation, but are not the unique sector that should involve mitigation measures

OIL AND GAS SPECIFIC EQUIPMENT ANALYSIS

OIL AND GAS SPECIFIC EQUIPMENT ANALYSIS

Oil and gas flow assurance ensures adequacy of design of the transport lines to transport the formation fluid from the bore up to the processing plant. Most of the time this involves challenging designs that needs from advance tool support like CFD.
Civil

CIVIL ENGINEERING

Civil engineering is demanding now CFD to predict hydraulic outcome of a variety of a wide range of structures. Spillways and flooding events can now be predicted with accuracy using multiphase computational fluid dynamics in a more affordable way than doing testing or traditional calculations.