Automated valve actuation for frac fluid ends using position and/or pressure sensors

The invention claimed is: 1 . A pump, comprising, a power end having a plunger movable between a retracted position and an extended position; and a fluid end coupled to the power end, the fluid end having: an inlet bore; an outlet bore; a crossbore in selective fluid communication with the inlet bore and the outlet bore; a suction valve for controlling fluid communication between the inlet bore and the crossbore; a discharge valve for controlling fluid communication between the outlet bore and the crossbore; a piston and cylinder assembly for moving the discharge valve between an open position and a closed position, wherein a piston of the piston and cylinder assembly is coupled at one end to a valve body of the discharge valve, and wherein a cylinder of the piston and cylinder assembly is at least partially disposed in a retaining member, which is at least partially disposed in an access opening of the fluid end; at least one of: a position sensor for measuring a position of the plunger; or a pressure sensor for measuring a pressure of the crossbore, the inlet bore, or the outlet bore; and a processing unit controller for operating the discharge valve via the piston and cylinder assembly based on data from at least one of the position sensor or the pressure sensor. 2 . The pump of claim 1 , wherein the piston and cylinder assembly is powered by hydraulic fluid, pneumatic fluid, or electricity. 3 . The pump of claim 1 , wherein the position sensor is configured to measure a position of at least one of a crosshead or a crankshaft. 4 . The pump of claim 1 , further comprising an actuator for moving the suction valve between an open position and a closed position. 5 . The pump of claim 1 , wherein the pressure sensor is disposed in the plunger and measures the pressure of the crossbore. 6 . The pump of claim 5 , wherein the plunger includes: a chamber for housing the pressure sensor; and a plug for closing one end of the chamber. 7 . The pump of claim 1 , wherein the piston and cylinder assembly further comprises a support member, wherein the support member includes a bore for supporting the piston, and wherein the support member is disposed inward of the retaining member in the access opening. 8 . The pump of claim 1 , wherein the processing unit controller operates the discharge valve based on data from the position sensor and the pressure sensor. 9 . A pump system, comprising: a first pump having a first fluid end and a first power end; a second pump having a second fluid end and a second power end, wherein the first pump is positioned adjacent the second pump such that the first power end abuts the second power end, wherein the first pump and second pump having a total length less than or equal to 102, and wherein the first pump and the second pump each comprise: a power end having a plunger movable between a retracted position and an extended position; and a fluid end coupled to the power end, the fluid end having: an inlet bore; an outlet bore; a crossbore in selective fluid communication with the inlet bore and the outlet bore; a suction valve for controlling fluid communication between the inlet bore and the crossbore; a discharge valve for controlling fluid communication between the outlet bore and the crossbore; a piston and cylinder assembly for moving the discharge valve between an open position and a closed position, wherein a piston of the piston and cylinder assembly is coupled at one end to a valve body of the discharge valve, and wherein a cylinder of the piston and cylinder assembly is at least partially disposed in a retaining member, which is at least partially disposed in an access opening of the fluid end; at least one of: a position sensor for measuring a position of the plunger; or a pressure sensor for measuring a pressure of the crossbore, the inlet bore, or the outlet bore; and a processing unit controller for operating the discharge valve via the piston and cylinder assembly based on data from at least one of the position sensor or the pressure sensor. 10 . The pump system of claim 9 , wherein the position sensor is configured to measure the position of the plunger by measuring a position of a crosshead or a position of a crankshaft. 11 . The pump system of claim 9 , further comprising a an actuator for moving the suction valve between an open position and a closed position. 12 . The pump system of claim 9 , wherein the pressure sensor is disposed in the plunger and measures the pressure of the crossbore. 13 . A method of operating a pump, comprising: extending a plunger into a crossbore of the pump; determining a position of the plunger; in response to the plunger crossing a discharge position threshold, actuating a piston and cylinder assembly to open a discharge valve in the pump to discharge fluid from the crossbore into an outlet bore of the pump, wherein a piston of the piston and cylinder assembly is coupled at one end to a valve body of the discharge valve, and wherein a cylinder of the piston and cylinder assembly is at least partially disposed in a retaining member, which is at least partially disposed in an access opening of the pump; retracting the plunger; in response to the plunger crossing a suction position threshold, closing the discharge valve; and opening an inlet bore to allow fluid to flow into the crossbore. 14 . The method of claim 13 , further comprising: determining a pressure in the crossbore; and opening the discharge valve only if the pressure in the crossbore reaches a discharge pressure threshold. 15 . The method claim 13 , wherein the piston and cylinder assembly further comprises a support member, wherein the support member includes a bore for supporting the piston, and wherein the support member is disposed inward of the retaining member in the access opening. 16 . The method of claim 13 , wherein opening the inlet bore comprises opening a suction valve based on the inlet bore having a pressure greater than the pressure in the crossbore.