Spiral wound assembly with integrated flow restrictor and sensor

The invention claimed is: 1. A spiral wound assembly ( 38 ) comprising: i) a pressure vessel ( 40 ) including an inner chamber ( 39 ), feed inlet ( 42 ), concentrate outlet ( 44 ) and permeate outlet ( 46 ); ii) a spiral wound membrane module ( 2 ) comprising at least one membrane envelope ( 4 ) wound about a permeate collection tube ( 8 ) extending along an axis (X) between a first end ( 13 ′) and a second end ( 13 ) and forming an inlet scroll face ( 30 ) and an outlet scroll face ( 32 ); wherein the spiral wound membrane module ( 2 ) is located within an inner chamber ( 39 ) of the pressure vessel ( 40 ) with the inlet scroll face ( 30 ) in fluid communication with the feed inlet ( 42 ), the outlet scroll face ( 32 ) in fluid communication with the concentrate outlet ( 44 ) and the permeate collection tube ( 8 ) in fluid communication with the permeate outlet ( 46 ); and wherein the spiral wound assembly ( 38 ) is characterized by comprising: iii) a flow restrictor ( 54 ) comprising: a) a first ( 56 ) and second plate ( 58 ) in sealing contact with one another; and b) a fluid channel ( 62 / 74 ) located between the first ( 56 ) and second ( 58 ) plate and including a first end ( 64 / 76 ) in fluid communication with at least one of the concentrate outlet ( 44 ) and the permeate outlet ( 46 ), and a second end ( 66 / 78 ) adapted for discharging fluid from the spiral wound assembly ( 38 ); and iv) a sensor sheet ( 68 ) comprising at least one sensor element ( 70 / 80 ) located between the first ( 56 ) and second ( 58 ) plates and in contact with the fluid channel ( 62 / 74 ), wherein the sensor sheet ( 68 ) is adapted for measuring a property of fluid passing through the fluid channel ( 62 / 74 ). 2. The spiral wound assembly ( 38 ) of claim 1 wherein the fluid channel comprises a concentrate fluid channel ( 62 ) including a first end ( 64 ) in fluid communication with concentrate outlet ( 44 ) and a second end ( 66 ) adapted for discharging fluid from the spiral wound assembly ( 38 ); and wherein the sensor sheet ( 68 ) is in contact with the concentrate fluid channel ( 62 ) and is adapted for measuring at least one of the pressure, temperature or conductivity of the fluid passing through the concentrate fluid channel ( 62 ). 3. The spiral wound assembly ( 38 ) of claim 1 wherein the fluid channel comprises a permeate fluid channel ( 74 ) including a first end ( 76 ) in fluid communication with the permeate outlet ( 46 ) and a second end ( 78 ) adapted for discharging fluid from the spiral wound assembly ( 38 ); and wherein the sensor sheet ( 68 ) is in contact with the permeate fluid channel ( 74 ) and is adapted for measuring at least one of the pressure, temperature or conductivity of fluid passing through the permeate fluid channel ( 74 ). 4. The spiral wound assembly ( 38 ) of claim 1 wherein: i) the flow restrictor ( 54 ) further comprises: (a) a concentrate fluid channel ( 62 ) including a first end ( 64 ) in fluid communication with concentrate outlet ( 44 ) and a second end ( 66 ) adapted for discharging fluid from the spiral wound assembly ( 38 ), and (b) a permeate fluid channel ( 74 ) including a first end ( 76 ) in fluid communication with the permeate outlet ( 46 ) and a second end ( 78 ) adapted for discharging fluid from the spiral wound assembly ( 38 ); and ii) the sensor sheet ( 68 ) comprises a sensor element ( 70 ) fixed upon a surface ( 72 ) and in contact with the concentrate fluid channel ( 62 ), wherein the sensor sheet ( 68 ) is adapted for measuring at least one of the pressure, temperature or conductivity of fluid passing through the concentrate fluid channel ( 62 ); and sensor element ( 80 ) applied to the surface ( 72 ) and in contact with the permeate fluid channel ( 74 ), wherein the sensor sheet ( 68 ) is adapted for measuring at least one of the pressure, temperature or conductivity of fluid passing through the permeate fluid channel ( 74 ). 5. The spiral wound assembly ( 38 ) of claim 1 wherein the sensor sheet ( 68 ) further comprises a signal transmitter. 6. The spiral wound assembly ( 38 ) of claim 1 wherein the sensor sheet ( 68 ) further comprises a micro-processor. 7. The spiral wound assembly ( 38 ) of claim 2 further comprising a deformable sheet ( 60 ) located between the first ( 56 ) and second ( 58 ) plates; wherein the concentrate fluid channel ( 62 ) has a resistance to flow, and wherein the deformable sheet ( 60 ) is adapted to deform under compression of the first ( 56 ) and second ( 58 ) plates to increase the resistance to flow through the concentrate fluid channel ( 62 ). 8. The spiral wound assembly ( 38 ) of claim 2 wherein the concentrate fluid channel ( 62 ) has a resistance to flow, the spiral wound module ( 2 ) as a resistance to transmembrane flow, and wherein the resistance to flow of the concentrate fluid channel ( 62 ) is greater than the resistance to transmembrane flow of the spiral wound module ( 2 ). 9. The spiral wound assembly ( 38 ) of claim 2 wherein the resistance to flow of the concentrate fluid channel ( 62 ) is within a factor of three of the resistance to transmembrane flow of the spiral wound module ( 2 ). 10. The spiral wound assembly ( 38 ) of claim 8 wherein the resistance of the concentrate fluid channel ( 62 ) exceeds the resistance of the permeate fluid channel ( 74 ) by more than a factor of ten.