Hydraulic control system for a reverse osmosis hydraulic pump

What is claimed is: 1. A liquid pumping system comprising, a) a plurality of liquid pumps; b) a plurality of hydraulic cylinders, wherein each liquid pump is connected to a different hydraulic cylinder; c) a valve set connected to the hydraulic cylinders, the valve set comprising a plurality of proportional directional control valves, each proportional directional control valve connected to a different hydraulic cylinder and having a first position wherein a supply pipe is in fluid communication with a first side of the connected hydraulic cylinder and a return pipe is in fluid communication with a second side of the connected hydraulic cylinder, a second position wherein the supply pipe and the return pipe are not in fluid communication with the hydraulic cylinder, and a third position wherein the supply pipe is in fluid communication with the second side of the connected hydraulic cylinder and the return pipe is in fluid communication with the first side of the connected hydraulic cylinder, and having a controllable transition speed between positions; d) a hydraulic pump connected to the valve set, the hydraulic pump connected to the proportional directional control valves in parallel to provide an essentially constant flow of pressurized hydraulic fluid to the proportional directional control valves; e) a plurality of sensors, each sensor configured to measure the position or velocity of a hydraulic piston of one of the hydraulic cylinders and provide information regarding the measured position or velocity of the hydraulic piston to a valve set controller; and, f) the valve set controller connected to the valve set to control the proportional directional control valves to distribute a flow of hydraulic fluid from the hydraulic pump between the hydraulic cylinders to operate the liquid pumps in a phased relationship by controlling each proportional directional control valve to cycle through a sequence comprising moving from the second position to the first position, dwelling in the first position, moving from the first position to the second position, dwelling in the second position, moving from the second position to the third position, dwelling in the third position, moving from the third position to the second position, and dwelling in the second position, and adjusting the proportional directional control valves based on the information regarding the measured position or velocity of each of the hydraulic pistons. 2. The liquid pumping system of claim 1 wherein the valve set controller is configured such that the total liquid flow produced from the liquid pumps is generally constant over a period of time in which the hydraulic pump produces a generally constant output. 3. The liquid pumping system of claim 1 wherein each liquid pump comprises one or more pistons. 4. The liquid pumping system of claim 3 wherein the one or more pistons are adapted to pump liquid on both a forward and a return stroke. 5. The liquid pumping system of claim 1 wherein the valve set controller includes an independent proportional, integral and derivative loop for each of the plurality of proportional directional control valves. 6. A membrane filtration system comprising, a) a liquid pumping system according to claim 1 ; and, b) a membrane unit. 7. The membrane filtration system of claim 6 comprising a water circuit configured such that each liquid pump receives pressurized brine from the membrane unit while pumping water. 8. A liquid pumping system comprising, a) a plurality of liquid pumps, each liquid pump comprising one or more pistons adapted to pump liquid on both a forward and a return stroke and wherein one or more pistons are connected to a connecting rod; b) a plurality of hydraulic cylinders, each hydraulic cylinder comprising a hydraulic piston and a piston rod connected to the hydraulic piston, wherein a connecting rod of each liquid pump is connected to the piston rod of a different hydraulic cylinder, each hydraulic cylinder further comprising a rod extending in an opposite direction from the piston rod, the rod having a cross sectional area equal to or smaller than the piston rod; c) a valve set connected to the hydraulic cylinders, the valve set comprising a plurality of proportional directional control valves, each proportional directional control valve connected to a different hydraulic cylinder and having a first position wherein a supply pipe is in fluid communication with a first side of the connected hydraulic cylinder and a return pipe is in fluid communication with a second side of the connected hydraulic cylinder, a second position wherein the supply pipe and the return pipe are not in fluid communication with the hydraulic cylinder, and a third position wherein the supply pipe is in fluid communication with the second side of the connected hydraulic cylinder and the return pipe is in fluid communication with the first side of the connected hydraulic cylinder, and having a controllable transition speed between positions; d) a hydraulic pump connected to the valve set, the hydraulic pump connected to the proportional directional control valves in parallel to provide an essentially constant flow of pressurized hydraulic fluid to the proportional directional control valves; e) a plurality of sensors, each sensor configured to measure the position or velocity of the hydraulic piston of one of the hydraulic cylinders and provide information regarding the measured position or velocity of the hydraulic piston to a valve set controller; and, f) the valve set controller connected to the valve set to control the proportional directional control valves to distribute a flow of hydraulic fluid from the hydraulic pump between the hydraulic cylinders to operate the liquid pumps in a phased relationship by controlling each proportional directional control valve to cycle through a sequence comprising moving from the second position to the first position, dwelling in the first position, moving from the first position to the second position, dwelling in the second position, moving from the second position to the third position, dwelling in the third position, moving from the third position to the second position, and dwelling in the second position, and adjusting the proportional directional control valves based on the information regarding the measured position or velocity of each of the hydraulic pistons. 9. The liquid pumping system of claim 8 wherein the valve set controller is configured such that the total liquid flow produced from the liquid pumps is generally constant over a period of time in which the hydraulic pump produces a generally constant output. 10. A membrane filtration system comprising, a) a liquid pumping system according to claim 8 ; and, b) a membrane unit. 11. The membrane filtration system of claim 10 comprising a water circuit configured such that each liquid pump receives pressurized brine from the membrane unit while pumping water. 12. The liquid pumping system of claim 8 wherein the valve set controller includes an independent proportional, integral and derivative loop for each of the plurality of proportional directional control valves.