Filter assembly including spiral wound membrane module and brine seal

The invention claimed is: 1. A filter assembly adapted for insertion into an inner chamber of a pressure vessel, wherein the assembly comprises: a spiral wound membrane module ( 2 ) comprising at least one membrane envelope ( 4 ) and feed spacer sheet ( 6 ) concentrically wound about a central permeate tube ( 8 ) extending along an axis (X) forming an inlet scroll face ( 30 ) and outlet scroll face ( 32 ) and a cylindrical outer peripheral surface ( 38 ), and a brine seal ( 65 ) disposed concentrically about a portion of the outer peripheral surface ( 38 ); characterized by the brine seal ( 65 ) comprising: i) a radially extending flexible lip ( 70 ) defining a maximum outer diameter adapted to engage the inner chamber of the pressure vessel, ii) an end cap surface ( 72 ) sealed to the inlet scroll face ( 30 ) which restricts flow through a majority of the inlet scroll face ( 30 ), and iii) at least one opening ( 76 ) in the end cap surface ( 72 ) adjacent the permeate collection tube ( 8 ) for permitting fluid to flow through the inlet scroll face ( 30 ) and into the feed spacer sheet ( 6 ) of the module ( 2 ) wherein the end cap surface ( 72 ) covers at least 75% of the inlet scroll face ( 30 ) and restricts feed flow to areas located near the permeate collection tube ( 8 ) and spaced away from the outer peripheral surface ( 38 ); and iv) an outward radial flow path extending through the feed spacer sheet ( 6 ) wherein the majority of feed flow enters the module ( 2 ) near the permeate tube ( 8 ), flows in a radial direction relative to the permeate collection tube ( 8 ) and exits the module ( 2 ) from: i) the outer peripheral surface ( 38 ) or ii) outlet scroll face ( 32 ) near the outer peripheral surface ( 38 ) of the module ( 2 ). 2. The filter assembly of claim 1 wherein in the lip ( 70 ) and end cap surface ( 72 ) of the brine seal ( 65 ) comprise an integral unit of non-porous material. 3. The filter assembly of claim 1 wherein the brine seal ( 65 ) further comprises a sleeve ( 74 ) concentrically located about a portion of the outer peripheral surface ( 38 ) and extending axially at least 1 cm from the lip ( 70 ) to the end cap surface ( 72 ). 4. The filter assembly of claim 3 and wherein the sleeve ( 74 ), lip ( 70 ) and end cap surface ( 72 ) comprise an integral unit of non-porous elastomeric material. 5. The filter assembly of claim 1 wherein the lip ( 70 ) flexes radially outward when subject to fluid pressure that is greater at the first scroll face ( 30 ) than the second scroll face ( 32 ). 6. The filter assembly of claim 1 wherein the outer peripheral surface ( 38 ) of the module ( 2 ) comprises a porous surface ( 80 ).