Patent ID: 7811454
Filing Date: 2010-10-12
Classification: B01D

Abstract:
1. A displacement filter apparatus, comprising: a pressure vessel and an opening to permit access to said internal space; a closure sized and shaped for selectively closing said opening; an annular inner filter comprising a first filter tube and a first filter media, said first filter tube defining an external surface and an internal cavity, a substantial portion of said external surface covered by said first filter media, wherein said first filter tube and said first filter media are configured to withstand a pressure difference between the fluid pressure upstream of said inner filter and the fluid pressure downstream of said inner filter of at least 100 psi; an outer filter comprising a second filter tube and a second filter media, said second filter tube surrounding said inner filter and defining an internal surface facing said external surface, a substantial portion of said internal surface covered by said second filter media, wherein said second filter tube and said second filter media are configured to withstand a pressure difference between the fluid pressure upstream of said outer filter and the fluid pressure downstream of said outer filter of at least 100 psi, and said first and second filter media being substantially parallel to one another and defining a sealable annular particulate collection space therebetween, wherein at least one of said inner and said outer filters is removable from said pressure vessel through said opening; an inlet configured such that an entirety of a slurry that is introduced into said filter is directed into said particulate collection space before said slurry passes through either of said inner filter and said outer filter; an outlet in fluid communication with fluid passing from said particulate collection space through said first filter media to a first outlet space and with fluid passing from said particulate collection space through said second filter media to a second outlet space; a pressure source of slurry having a concentration of solid matter of at least 1000 parts per million connected upstream from said inlet, wherein pressure from said pressure source of slurry is directable through said inlet to force a fluid component of said slurry within said particulate collection space through said first filter media to said first outlet space and through said second filter media to said second outlet space, said first and second filter media retaining a particulate component of said slurry within said particulate collection space such that said particulate accumulates on each of said first filter media and said second filter media and increases in thickness in a direction substantially perpendicular to said internal and external surfaces such that a particulate cake is formed, wherein said pressure source of slurry is configured to gradually increase said pressure from a minimum pressure of at least 25 p.s.i. to a maximum pressure throughout a filter cycle to compensate for the particulate component building up within the particulate collection space, wherein said maximum pressure is sufficient to cause said particulate cake to occupy substantially an entirety of said particulate collection space upon the completion of the filter cycle and wherein said particulate collection space remains sealed and a volume of said particulate collection space is fixed during said filter cycle.