ILB-0300 Carbon Steel Separator 148-290gpm NPT

No moving parts to wear out This eliminates mechanical failures and troublesome replacement parts.

No screens, cartridges, cones or filter elements to clean or replace
Saves labor, reduces downtime and eliminates the ordering and stocking of spare parts.

No backflushing
Minimizes water/liquid loss. Zero liquid loss options available.

No downtime requirements
All units are designed to operate continuously with no routine shutdowns for cleaning or maintenance. Purging of separated solids may be performed during full operation with no loss of performance.

Low pressure loss
Consistent with the system’s flow rate, ILB Separators typically require no more than 5-12 psi (0.3 - 0.8 bar) loss for effective solids removal without troublesome pressure fluctuations.

Available in two standard materials of construction
ILB Separators are available in either carbon steel or stainless steel. Each has distinct qualities with regard to corrosion, pressure and cost.
ILB Separators. The simple, easy-to-use solution for a wide variety of solids-from-liquids problems.

Separator Details
A. Inlet & outlet shall be male, NPT, size: 3"
B. Purge outlet shall be male, NPT, size: 3/4"
C. The separator shall operate within a flow range of: 148-290 gpm
D. Pressure loss shall be between 5-12 psi (0.3 - 0.8 bar), consistent with the above flow range.
E. Max Pressure Rating: 150psi(10.3 bar)
F. Max Particle Size: 3/8" (9.25mm)
G. Collection Chamber Capacity: 2.2 U.S.gal (8.33 liters)

Separator Type & Performance
The removal of specific unwanted solids from a pumped/pressurized liquid system shall be accomplished with a centrifugal-action vortex separator. Solids removal efficiency is principally predicated on the difference in specific gravity between the solids and the liquid. Performance is expected to be 98% removal of 74 microns and larger, with significant particle removal of finer particles also likely.

Performance Requirement
Separator performance must be supported by published independent test results from a recognized and identified test agency. Standard test protocol of upstream injection, downstream capture and separator purge recovery is allowed with 50-200 mesh particles to enable effective, repeatable results. Single-pass test performance must not be less than 95% removal. Model tested must be of the same flow-design series as specified unit.

Separator Design & Function
A tangential inlet and mutually tangential internal accelerating slots shall be employed to promote the proper velocity necessary for the removal of the separable solids. The separator’s internal vortex shall allow this process to occur without wear to the accelerating slots.
Separated particle matter shall spiral downward along the perimeter of the inner separation barrel, in a manner that does not promote wear of the separation barrel, and into the solids collection chamber, located below the vortex deflector stool.
System liquid shall exit the separator by following the center vortex in the separation barrel and spiral upward to the separator outlet.

Limited Five Year Manufacture Warranty