Patent ID: 11953034
Assignee: BAKER HUGHES ENERGY TECHNOLOGY UK LIMITED
Field: Mechanical elements (Mechanical engineering)
Classification: CPC F | IPC F

Claim 10:
11. A system comprising:
an actuator of a hydraulic fluid subsystem;
a valve controllably coupled to the actuator;
an accumulator fluidly coupled to the actuator;
a directional control valve within a flow path between the accumulator and the actuator;
a first sensing device associated with the accumulator;
a second sensing device along the flow path between the directional control valve and the actuator;
a third sensing device associated with an outlet flow path of the directional control valve; and
a processing subsystem operationally coupled to the first sensing device, the second sensing device, and the third sensing device and configured to:
determine a plurality of forces acting on the actuator;
generate a plurality of dynamic equations based on the plurality of forces and one or more of an actuator inlet flow rate, an actuator outlet flow rate, an area of a cylinder of the actuator, a volume of the cylinder, a damping coefficient of the cylinder and a stiffness of a spring in the cylinder;
generate, from at least some of the plurality of dynamic equations, a plurality of parameters associated with operation of the actuator;
receive a valve inlet pressure of one or more of oil and gas flowing through a pipe while entering a valve operationally coupled to the actuator and a valve outlet pressure of the one or more of the oil and the gas flowing through the pipe while flowing out of the valve;
determine, based at least on the plurality of forces acting on the actuator, the valve inlet pressure, the valve outlet pressure, and at least some of the plurality of parameters, that a likelihood of one or more defects in a component of the hydraulic fluid system is below a first threshold;
communicate absence of the one or more defects;
monitor, after communicating the absence of the one or more defects, the health of the hydraulic fluid subsystem based, at least, on the plurality of forces acting on the actuator and at least some of the plurality of parameters;
determine, after monitoring the hydraulic fluid subsystem for a period of time after communicating the absence of the defect, and based at least on the plurality of forces acting on the actuator, the valve inlet pressure, the valve outlet pressure, and at least some of the plurality of parameters, that a second likelihood of one or more defects in the component of the hydraulic fluid system is above a second threshold;
determine, based at least on one or more selected parameters, of the plurality of parameters used to determine the presence of the one or more defects, that the one or more defects is associated with the actuator;
in response to determining the one or more defects is associated with the actuator, identify a cause of the one or more defects based, at least, on the valve inlet pressure, the valve outlet pressure, and a portion of the one or more selected parameters;
generate an alarm to inform a user of the one or more defects in semi real time or real time; and
cause, responsive to the alarm, execution of a corrective action to repair the one or more defects.