Pressure pump performance monitoring system using torque measurements

What is claimed is: 1. A monitoring system for a wellbore pressure pump, comprising: a strain gauge positionable on a pressure pump to generate a strain signal representing strain in a chamber of the pressure pump; a position sensor positionable on the pressure pump to generate a position signal representing the position of a rotating member of the pressure pump; a torque sensor positionable on or proximate to the pressure pump to generate a torque signal representing torque of a component of the pressure pump, the torque signal being usable with the strain signal and the position signal to determine a condition in the pressure pump; and a computing device communicatively coupled to the strain gauge, the position sensor, and the torque sensor, the computing device including a processing device and a memory device storing instructions that are executable by the processing device to cause the processing device to: determine expected pump information based on the strain signal and the position signal; determine the condition in the wellbore pressure pump by comparing the expected pump information to the torque signal to identify the condition; and determine a location of the condition using the torque signal. 2. The monitoring system of claim 1 , wherein the instructions are executable by the processing device to cause the processing device to: determine actuation points for one or more valves of the chamber using the strain signal; determine a movement of a displacement member for the chamber by correlating the position of the rotating member with an expression representing a mechanical correlation of the displacement member to the rotating member; and determine information corresponding to a fluid end of the pressure pump by correlating the actuation points with the movement of the displacement member. 3. The monitoring system of claim 2 , wherein the expected pump information includes an expected torque value, and wherein the instructions are executable by the processing device to cause the processing device to determine the condition in the pressure pump by comparing the torque signal to the expected torque value based on the information corresponding to the fluid end, wherein the information is associated with fluid or fluid-end components located in the fluid end of the pressure pump. 4. The monitoring system of claim 3 , wherein the instructions are executable by the processing device to cause the processing device to: generate a model simulating an operation of the pressure pump using at least the information corresponding to the fluid end of the pressure pump; and determine the expected torque value based on a simulated operation of the pressure pump of the model. 5. The monitoring system of claim 2 , wherein the information corresponding to the fluid end of the pressure pump includes at least a bulk modulus of fluid in the fluid end and a flow rate of fluid through the pressure pump. 6. The monitoring system of claim 2 , wherein the information corresponding to the fluid end of the pressure pump includes actuation delays corresponding to cavitation in the chamber or a leak in a valve of the one or more valves, wherein the actuation delays correspond to a delay in an opening or a closing of the valve. 7. The monitoring system of claim 1 , wherein the torque sensor is positionable on a power end of the pressure pump, wherein the component having the torque represented by the torque signal is located in the power end or across a power source for the pressure pump, and wherein the condition corresponds to a malfunction of the component. 8. The monitoring system of claim 1 , wherein the torque sensor is integrated into a transmission of the pressure pump that is positioned at an input to a power end of the pressure pump. 9. A pumping system for a wellbore environment, comprising: a pressure pump comprising: a chamber having a valve actuatable to open and close at actuation points that are detectable by a strain gauge; and a rotating member operable to cause a displacement member to displace fluid in the chamber based on a position of the rotating member that is detectable by a position sensor; and a computing device communicatively couplable to the pressure pump and comprising a processing device and a memory device storing instructions that are executable by the processing device to: determine a condition of the pressure pump by comparing a torque signal representing a torque measurement of a component in the pressure pump to an expected torque value that is determined from a strain signal generated by the strain gauge and a position measurement generated by the position sensor; and determine a location of the condition using the torque signal. 10. The pumping system of claim 9 , wherein the computing device is communicatively couplable to the pressure pump to receive, from a torque sensor, the torque signal representing the torque measurement of the component, and wherein the memory device further includes instructions that are executable by the processing device to cause the processing device to: determine actuation points for the valve of the chamber using the strain signal; determine a movement of the displacement member for the chamber by correlating the position of the rotating member with an expression representing a mechanical correlation of the displacement member to the rotating member; and determine information corresponding to a fluid end of the pressure pump by correlating the actuation points with the movement of the displacement member. 11. The pumping system of claim 10 , wherein the instructions are executable by the processing device to cause the processing device to determine the expected torque value based on the information corresponding to the fluid end. 12. The pumping system of claim 11 , wherein the instructions are executable by the processing device to cause the processing device to: generate a model simulating an operation of the pressure pump using at least the information corresponding to the fluid end; and determine the expected torque value based on a simulated operation of the pressure pump of the model. 13. The pumping system of claim 9 , wherein the strain gauge is positioned on a fluid end of the pressure pump to generate the strain signal representing strain in the chamber, wherein one or more discontinuities in the strain signal correspond to actuation points of a valve. 14. The pumping system of claim 9 , further including a transmission positionable at an input to a power end of the pressure pump, the transmission including a torque sensor integrated into the transmission to generate the torque signal representing the torque measurement of the component. 15. A method, comprising: receiving, from a position sensor, a position signal representing a position of a rotating member of a wellbore pressure pump; receiving, from a strain gauge, a strain signal representing strain in a chamber of the wellbore pressure pump; receiving, from a torque sensor, a torque signal representing a torque measurement of a component of the wellbore pressure pump; determining, by a processing device, fluid-end information corresponding to a fluid end of the wellbore pressure pump using the position signal and the strain signal; determining, by the processing device, a condition in the wellbore pressure pump by comparing the torque signal to expected pump information based on the fluid-end information; and determining a location of the condition using the torque signal. 16. The method of claim 15 , wherein determining the fluid-end information