Reverse osmosis unit

What is claimed is: 1 . A reverse osmosis energy recovery system comprising: a first piston having a first piston head and a second piston head connected to the first piston head, the first and second piston heads each having a pump side and a wastewater side; a second piston having a third piston head and a fourth piston head connected to the third piston head. the third and fourth piston heads each having a pump side and a wastewater side; a pump water conduit for supplying water from a pump to the pump side of the first, second, third and fourth piston heads; a wastewater conduit for supplying pressurized wastewater from a reverse osmosis filter arrangement to the wastewater side of the of first, second, third and fourth piston heads; a release valve having: a valve body having a pump water inlet port in fluid communication with the pump water conduit, a wastewater inlet port in fluid communication with the wastewater conduit, and a drain port; a valve member within the valve body movable between a first position in which fluid is prevented from flowing from the wastewater inlet port to the drain port and a second position in which fluid is permitted to flow from the wastewater inlet port to the drain port. 2 . The reverse osmosis energy recovery system of claim 1 , wherein the valve member has a length between a distal end thereof and o-ring carried thereby of between about 0.262 and 0.274 inches. 3 . The reverse osmosis energy recovery system of claim 1 , wherein the valve member carries first and second o-rings, the first and second o-rings being axially spaced apart along an axis defined by the valve member, the first o-ring being axially spaced from a first end of the valve member between about 0.262 and 0.274 inches and the second o-ring being spaced from a second end of the valve member between about 0.262and 0.274 inches. 4 . The reverse osmosis energy recovery system of claim 3 , wherein the valve member translates within the valve body along the axis between the first and second positions. 5 . The reverse osmosis energy recovery system of claim 3 , wherein: the first o-ring is located between and seals the wastewater inlet port from the drain in the first position and the second o-ring is located between and seals the pump water inlet port from the drain in the first position; and the first o-ring does not seal the wastewater inlet port from the drain in the first position. 6 . The reverse osmosis energy recover system of claim 1 , wherein: a first end of the valve member has a first region and a second region, wastewater within the wastewater conduit acting against only the first region when the valve member is in the first position; a second end of the valve member has a first region and a second region, pressurized pump water acting on the first and second regions when the valve member is in the first position 7 . A reverse osmosis system further comprising a reverse osmosis energy recovery system of claim 1 ; a pump fluidly connected to the pump water conduit; and a reverse osmosis filter arrangement having a wastewater outlet fluidly connected to the wastewater conduit. 8 . A reverse osmosis energy recovery system comprising: a first piston having: a first piston head and a second piston head connected to the first piston head, the first and second piston heads each having a pump side and a wastewater side; first and second piston rods connecting the first piston head to the second piston head, each of the first and second piston rods having opposed, spaced apart first and second cylindrical portions and a reduced diameter region interposed between the first and second cylindrical portions, the reduced diameter region having a maximum diameter of between 0.385 and 0.395 inches. 9 . The reverse osmosis energy recovery system of claim 8 , wherein the first and second piston rods each have first and second transition regions, the first transition region tapering from the first cylindrical portion to a first end of the reduced diameter region, the second transition region tapering from the second cylindrical portion to a second end of the reduced diameter region. 10 . The reverse osmosis energy recovery system of claim 9 , wherein the maximum diameter of the reduced diameter region is at the first and second ends. 11 . The reverse osmosis energy recovery system of claim 10 , wherein the reduced diameter region has a midpoint between the first and second ends, the midpoint having a minimum diameter of the reduced diameter region, the minimum diameter being between 0.378 and 0.386 inches. 12 . The reverse osmosis energy recovery system of claim 11 , wherein: a first portion of the reduced diameter region between the first end and the midpoint tapers between the first end and the midpoint, with the diameter of the first portion decreasing when moving from the first end toward the midpoint; and a second portion of the reduced diameter region between the second end and the midpoint tapers between the second end and the midpoint, with the diameter of the second portion decreasing when moving from the second end toward the midpoint. 13 . The reverse osmosis energy recovery system of claim 9 , further comprising: at least one pressure relief groove having a first end formed in the first cylindrical portion and a second end formed in the first transition region; and at least one pressure relief groove having a first end formed in the second cylindrical portion and a second end formed in the second transition region. 14 . The reverse osmosis energy recovery system of claim of 9 , wherein a first intersection between the first cylindrical portion and the first transition region is spaced apart along a longitudinal axis of the piston rod a length of between 0.651 and 0.675 inches from a second intersection between the second cylindrical portion and the second transition region. 15 . The reverse osmosis energy recovery system of claim 14 , wherein the first transition region has an axial length along the longitudinal axis measured between the first intersection and the first end of between 0.0855 and 0.1055 inches; and the second transition region has an axial length along the longitudinal axis measured between the second intersection and the second end of between 0.0855 and 0.1055 inches. 16 . The reverse osmosis energy recovery system of claim 8 , wherein the piston head is received in a piston cylinder, the piston head has an outer diameter of between 1.869 and 1.873 inches and the piston cylinder has an inner diameter of between 1.875 and 1.879 inches. 17 . The reverse osmosis energy recovery system of claim 8 , further comprising a second piston having: a third piston head and a fourth piston head connected to the third piston head, the third and fourth piston heads each having a pump side and a wastewater side; third and fourth piston rods connecting the third piston head to the fourth piston head, each of the third and fourth piston rods having opposed, spaced apart first and second cylindrical portions and a reduced diameter region interposed between the first and second cylindrical portions, the reduced diameter region having a maximum diameter of between 0.385 and 0.395 inches. 18 . The reverse osmosis energy recovery system of claim 8 , wherein: the first piston is located within a first piston cylinder, the first piston cylinder including a depressurized wastewater outlet chamber in fluid communication with a drain and first and second depressurized wastewater inlet chambers,