Advanced Engineering

COMPUTATIONAL FLUID DYNAMICS [CFD]

Heating, Ventilation and Air Conditioning (HVAC)

SDEA uses CFD analysis to provide design support on HVAC systems for different industries including railway, automotive and construction.

Heating, Ventilation and Air Conditioning (HVAC)

SDEA uses CFD analysis to provide design support on HVAC systems for different industries including railway, automotive and construction. SDEA developed his own propiertary tools to postprocess the results from the CFD including normative gradients, velocity and humidity.

Multiphase Processing Equipment Analysis

SDEA´s engineering team have an extensive background in using CFD to support the design and optimization of a range of separation technologies.

Multiphase Processing Equipment Analysis

SDEA CFD solutions for multiphase flow gives the opportunity to optimise processing equipment involving complex physics like mixing, separation of different fluid phases, including liquid, gas phases and solid particles.

Erosion Analysis

The aim of the SDEA engineering team is to try and bring support to their clients by means of getting a deep understanding of the physics that control the process.

Erosion Analysis

Erosion is a major problem when conducting fluid that carries particulates like sand. It is one of the limiting expected life factors in the oil and gas industry causing a progressive thickness reduction in the pipe wall.

Thermal Analysis and Heat Transfer

SDEA’s experience on heat transfer can assist your design process from conceptual up to final product optimisation.

Thermal Analysis and Heat Transfer

CFD can provide a very valuable insight on any engineering process involving heat transfer. From bespoke compact heat exchanger design, to radiation transport in solar panels, SDEA’s experience on heat transfer can assist your design process from conceptual up to final product optimisation.

Wind Static and Dynamic Loading

SDEA’s engineering team has ample experience treating wind data in order to accurately predict the wind loading.

Wind Static and Dynamic Loading

Outdoor structures are exposed to wind loading and thus wind actions should be considered in the calculations during the design process. Both steady and transient actions contribution due to aerodynamic wind effects on slender bodies are paramount in order to ensure long term design integrity and to avoid accidents.

Aerodynamic

SDEA_Engineering Solutions engineering team has experience in aerodynamic studies.

Aerodynamic

External aerodynamics CFD modelling is the best complement to wind tunnel analysis during the design phase. Aerodynamic coefficients can be obtained for different geometry alternatives much faster than on real testing, providing also very valuable flow insights on the vortex and turbulence that influence the final aerodynamic performance.

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.

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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.