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Metal Intalox Saddle Ring for Extraction & Fractionation

Core advantages of metal Intalox saddle ring packing

Structural characteristics

Combination of Ring and Saddle: It combines the circular ring, ring wall opening, and inner protruding tongue of the ring packing, as well as the arc-shaped channel of the saddle packing, to avoid overlap and enhance gas-liquid agitation.

High specific surface area and porosity: The DN50 specification filler has a specific surface area of 90.1 m²/m³and a porosity of about 97%, significantly reducing pressure drop (40%~70% lower than the pall ring) and increasing flux by 15%~30%.

Anti clogging design: The open structure reduces particle deposition, and the point contact between fillers increases the porosity, facilitating liquid distribution and surface renewal.

Material characteristics

Corrosion resistance: Made of materials such as 316 stainless steel, it can resist the corrosion of common acidic gases in ethane drying and extraction distillation, extending the life of the packing.

High temperature stability: resistant to high temperatures of 1200-1300 C, suitable for vacuum or high-pressure conditions, to avoid deformation or performance degradation of fillers.

mass transfer efficiency

Curved channels and tongue plates: promote uniform distribution of gas-liquid, reduce radial diffusion, enhance mass transfer efficiency, and increase efficiency by about 10%.

Low pressure drop design: reduces compression energy consumption, meets industrial energy efficiency requirements, and has significant advantages especially in continuous operation.

Metal Intalox saddle ring packing exhibits high efficiency, stability, and durability in extraction and fractionation processes due to its unique structure, materials, and mass transfer advantages. Its characteristics of corrosion resistance, high temperature resistance, and blockage resistance make it an ideal choice for handling corrosive impurities or high-temperature working conditions. By enhancing mass transfer efficiency and reducing energy consumption, this packing material can significantly improve separation efficiency and operational economy, and is widely used in fields such as petrochemicals, fine chemicals, and environmental protection, providing reliable technical support for industrial separation processes.

Core advantages of metal Intalox saddle ring packing

Structural characteristics

Combination of Ring and Saddle: It combines the circular ring, ring wall opening, and inner protruding tongue of the ring packing, as well as the arc-shaped channel of the saddle packing, to avoid overlap and enhance gas-liquid agitation.

High specific surface area and porosity: The DN50 specification filler has a specific surface area of 90.1 m²/m³and a porosity of about 97%, significantly reducing pressure drop (40%~70% lower than the pall ring) and increasing flux by 15%~30%.

Anti clogging design: The open structure reduces particle deposition, and the point contact between fillers increases the porosity, facilitating liquid distribution and surface renewal.

Material characteristics

Corrosion resistance: Made of materials such as 316 stainless steel, it can resist the corrosion of common acidic gases in ethane drying and extraction distillation, extending the life of the packing.

High temperature stability: resistant to high temperatures of 1200-1300 C, suitable for vacuum or high-pressure conditions, to avoid deformation or performance degradation of fillers.

mass transfer efficiency

Curved channels and tongue plates: promote uniform distribution of gas-liquid, reduce radial diffusion, enhance mass transfer efficiency, and increase efficiency by about 10%.

Low pressure drop design: reduces compression energy consumption, meets industrial energy efficiency requirements, and has significant advantages especially in continuous operation.

Metal Intalox saddle ring packing exhibits high efficiency, stability, and durability in extraction and fractionation processes due to its unique structure, materials, and mass transfer advantages. Its characteristics of corrosion resistance, high temperature resistance, and blockage resistance make it an ideal choice for handling corrosive impurities or high-temperature working conditions. By enhancing mass transfer efficiency and reducing energy consumption, this packing material can significantly improve separation efficiency and operational economy, and is widely used in fields such as petrochemicals, fine chemicals, and environmental protection, providing reliable technical support for industrial separation processes.