Clark Solutions offers the oil and gas industry a range of mass transfer and phase separation solutions, with a strong presence in the upstream and downstream sectors.
Our solutions are applied to the main production processes in this market with the aim of achieving the highest efficiency, increased capacity and operational safety and promoting the recovery of fluids with high added value.
In the oil and gas sector, gas-liquid-liquid separation is a crucial stage after extraction, involving the separation of water, oil and gas in a horizontal vessel. Clark Solutions supplies three essential components for this operation: inlet devices, coalescers and mist eliminators.
The inlet devices ensure a smooth feed, improving the performance of the coalescers and mist eliminators. Coalescers, important for liquid-liquid separation, reduce the need for large vessels and improve sedimentation. Mist eliminators, on the other hand, capture droplets entrained in the gas phase that are not separated by gravity.
Centralizing these components with a single supplier, such as Clark Solutions, is crucial to ensuring the efficiency and harmony of the separation system.
Mist Eliminator | MaxiChevron: MaxiChevron® mist eliminators are equipment manufactured using a set of parallel vertical blades with an undulating profile.
Gas inlet device | EvenFlow : CS Evenflow® inlet devices are devices that consist of equidistant fins arranged in parallel, forming two symmetrical sections with an upper and lower closing plate.
Liquid-liquid coalescer | PlatePack : PlatePack® liquid-liquid coalescers consist of parallel plates uniformly arranged to increase the efficiency of liquid-liquid separation.
Mist eliminator | MaxiMesh: MaxiMesh® mist eliminators consist of a mesh formed by extremely fine knitted (or co-knitted) threads that have a very high percentage of void.
Mist eliminator | HeliFlow: The HeliFlow® mist eliminators (axial cyclone type) are composed of a finned module, which has been calculated and adjusted for maximum efficiency. It is available in all conventional stainless steels and special alloys.
Gas inlet device | EvenFlow : CS Evenflow® inlet devices are devices that consist of equidistant fins arranged in parallel, forming two symmetrical sections with an upper and lower closing plate.
Mist eliminator | MaxiChevron: MaxiChevron® mist eliminators are equipment manufactured using a set of parallel vertical blades with an undulating profile.
Mist eliminator | MaxiMesh: MaxiMesh® mist eliminators consist of a mesh formed by extremely fine knitted (or co-knitted) threads that have a very high percentage of void.
Random Packinh | CMTP : The random fillings (random fillings) CMTP® seeks to associate high capacity with an excellent mass transfer efficiency, promoting, also, a low pressure loss through its geometry.
Liquid distributor | MaxiFlow : Clark Solutions’ MaxiFlow® CC liquid distributors are designed for extremely high irrigation density in structured fillings.
Mist eliminator | MaxiMesh: MaxiMesh® mist eliminators consist of a mesh formed by extremely fine knitted (or co-knitted) threads that have a very high percentage of void.
Liquid-liquid coalescer | PlatePack : PlatePack® liquid-liquid coalescers consist of parallel plates uniformly arranged to increase the efficiency of liquid-liquid separation.
Structured Packing | MaxiPac : The structured MaxiPac® filling consists of parallel and corrugated metal sheets, forming channels for the passage of fluids, being assembled in circular layers of the same diameter as the column hull or in blocks to conform them, in which successive layers are superimposed to structure the height of the bed.
Random Packing | β-Ring : The high performance β-Ring® filling promotes great improvements when compared to conventional random fillings. Its size and arrangement of openings and slits in the elements promotes an extremely effective use of the surface area of the filling.
(Português BR) As saídas de respiro de reservatórios de óleo lubrificante ocorrem de um sistema de eliminação de névoas para evitar a deposição de óleo em superfícies e prevenir a inalação, além de recuperar o óleo lubrificante. Os FiberBeds são uma solução ideal, reduzindo as emissões de óleo a níveis muito baixos (até 5 mg/Nm³), atendendo aos padrões de segurança para áreas específicas. Existem dois tipos principais de sistemas de respiro: com circulação forçada e com circulação natural, sendo a escolha baseada nas restrições de pressão do reservatório.
Preservação da integridade das turbinas de cogeração
Abatimento de névoa submicrônica com recuperação do óleo
Eliminação de custo de substituição de elemento filtrante
Mitigação de superfícies escorregadias
