Specifications |
Length |
36 IN (914 MM) |
Diameter |
8 IN (203 MM) |
Flow rate |
100 SCFM |
Pressure |
365 psi |
Applications |
Natural gas filtration, removal of aerosol mist and liquid droplets from natural gas streams |
All Online Filter Supply replacement parts are "equivalent" to or "interchangeable" with original manufacture parts, Names and part # used for cross reference only. |
PECO FACET NGGC-336-PP is a polypropylene filter element, while PECO NGGC-336 PL-51 is a stainless steel filter element. The main difference between the PECO NGGC-336-PP and PECO NGGC-336 PL-51 filter elements is the material used for the filter media. The PECO NGGC-336-PP uses polypropylene, which is a less expensive material than stainless steel. However, polypropylene is not as durable as stainless steel and cannot withstand as high of temperatures or pressures. Therefore, the PECO NGGC-336-PP filter element is not suitable for applications that require high levels of performance or durability.
PECO Series NGGC cartridges provide effective removal of small aerosol mist and liquid droplets from natural gas streams. Fibers of various denier are weighed, blended and thermally bonded, then formed into a compressed filter media sheet.
PECO Series NGGC gas coalescer cartridges work on a principal referred to as Saturated Depth Coalesing. This allows liquid droplets to collect and saturate the pores within the media depth then grow to their fullest potential. The droplets then drain with gravity when they reach a certain size. These liquid droplets often take with them solid contaminant particles, as well, causing a "self-cleaning" effect within the depth media matrix. This principal works very differently than pleated coalescers which use a tight, treated glass media in order to screen/stop small aerosol liquid droplets then shed them off quickly.
Through thermal bonding, spiral layers of engineered filtration media are applied to conform and overlap each previous layer forming a conical helix pattern. This filter structure results in a gradient density pattern that provides an extraordinary flow path in radial, axial and helical directions. This tortuous flow path yields high contaminant loading, structural strength, maximum efficiency, and an overall outstanding filtration performance.
Coalesces Aerosol Liquid Droplets such as:
Amine, Condensate, Glycol, Lubricating Oils, Water, Low Surface Tension Fluid