Patent ID: 8851860
Filing Date: 2014-10-07
Classification: F04B

Abstract:
1. An oil well pumping system comprising: a. a cylinder using hydraulic fluid flow and pressure to reciprocate a cylinder piston up and down; b. a drive train providing flow and pressure to the cylinder; c. a mechanism for coupling the reciprocating cylinder piston to a rod string which includes a polished rod and sucker rods connected to a downhole pump to remove a mixture of oil, water and gas located in a well bore; d. at least one position transducer continuously measuring the position of the cylinder piston along its stroke; e. an electronic control unit (ECU) including a computer controlling fluid flow to the cylinder through control of the drive train speed to thereby continuously control real time motion of the cylinder piston in accordance with preset algorithms; f. a predictive theoretical model of loads and speeds versus stroke based on desired production, well conditions, downhole pump, rod string and surface mounted pump characteristics, providing optimal production performance at given conditions, the information input to the ECU; g. a set of control laws comparing actual real time data with the theoretical predictive model and providing corrective signals to the ECU to maximally approximate actual performance to the predictive theoretical model h. said computer connected to and collecting real time data from a plurality of sensors measuring well and pumping parameters selected from a group consisting of fluid level in the well bore, downhole and surface fluid pressure, real time position of the cylinder piston, hydraulic pressure in the cylinder, hydraulic fluid level in a hydraulic reservoir, hydraulic fluid temperature and hydraulic fluid cleanliness; i. the computer continuously monitoring stroke length of the reciprocating cylinder piston, direction, position, speed, acceleration and deceleration of the reciprocating cylinder piston and continuously adjusting the speeds of the reciprocating cylinder piston to maximize up stroke speed, minimize acceleration and deceleration phases while minimizing peak inertia loads and maximizing the up and down stroke speeds until the level of the mixture of oil, water and gas reaches the down hole pump; j. the computer optimizes the down stroke speed to allow complete fillage of the downhole pump, slows down the pump's speed when persistent incomplete fillage is detected and operates intermittently when further slow down becomes impossible; k. the computer brakes the cylinder piston and lands softly in the case of a rod separation failure when an abnormal low sucker rod load is detected; l. the computer reverses the up stroke motion when abnormal high rod string loads are detected; m. the cylinder is a dual acting triple chamber hydro-pneumatic cylinder, comprising an up hydraulic chamber wherein hydraulic fluid is forced into the up chamber and causes the cylinder piston to move upwardly, a down hydraulic chamber wherein hydraulic fluid is forced into the down chamber and causes the cylinder piston to move downwardly, and a third counterbalance gas chamber into which gas is fed to counterbalance to the dead weight of the rod string; n. said computer connected to and collecting real time data from a plurality of sensors measuring pressure in the cylinder's up hydraulic chamber, down hydraulic chamber and counterbalance gas chamber; o. the drive train comprises a hydraulic pump connected to said hydro-pneumatic cylinder, the hydraulic pump is a fixed displacement pump displacing a fixed volume of hydraulic fluid per turn of the pump, the hydraulic pump connected to an electric motor which transfers output torque to the pump's input shaft, the electric motor direction of rotation and speed controlled by a variable speed drive controlling voltage and frequency of AC power to the electric motor, the direction of rotation of the hydraulic pump causing hydraulic fluid to flow into the cylinder up chamber and move the cylinder piston in the up direction, rotation of the hydraulic pump in the opposite direction causing hydraulic fluid to flow into the cylinder down chamber and move the cylinder in the down direction, the ECU commanding the variable speed drive to produce direction of rotation and speed input parameters to the electric motor; and p. the mechanism for coupling the reciprocating cylinder piston to the sucker rod includes a pulley attached to the reciprocating cylinder piston, the pulley having a cable wrapped around the pulley, the cable fixed at one end to a stationary point, the other end of the cable connected to the rod string.