Valve service detection through data analysis

What is claimed: 1. A method for detecting a mode of operation of a valve in a process plant, the method comprising: receiving, at a computing device, data generated as a result of the valve operating within the process plant to control an industrial process, the valve data including respective valve parameter values of the valve for one or more valve parameters over a plurality of instances of time; analyzing, by the computing device, the valve data to identify, from a plurality of modes of valve operation, a mode of operation of the valve, the plurality of modes of valve operation including two or more of: full stroke cycling, continuous throttling, or periodic throttling; and transmitting an indication of the identified mode of operation of the valve to at least one of a user interface or an application within the computing device or another computing device for analyzing operations in the process plant. 2. The method of claim 1 , wherein the respective valve parameter values are a first set of valve parameters, and the method further comprises: selecting, based on the identified mode of operation of the valve, a second set of valve parameters; analyzing a second set of valve parameter values of the second set of valve parameters over the plurality of instances of time, thereby detecting a condition of the valve, the second set of valve parameter values included in the valve data; and transmitting an indication of the detected condition of the valve to the user interface. 3. The method of claim 2 , wherein analyzing the second set of valve parameter values over the plurality of instances in time thereby detecting the condition of the valve includes: combining the second set of valve parameter values over the plurality of instances of time to generate one or more valve parameter metrics; and detecting the condition of the valve based on the one or more valve parameter metrics. 4. The method of claim 3 , further comprising generating a statistical model based on historical valve parameter values for the second set of valve parameters, the historical valve parameter values generated by one or more valves operating in the identified mode of operation of the valve; and wherein detecting the condition of the valve based on the one or more valve parameter metrics comprises applying the one or more valve parameter metrics to the statistical model. 5. The method of claim 4 , wherein generating the statistical model includes generating the statistical model using one or more machine learning techniques, the one or more machine learning techniques including at least one of: linear regression, polynomial regression, logistic regression, naïve Bayes, decision trees, random forests, boosting, nearest neighbors, or neural networks. 6. The method of claim 2 , further comprising: causing an alarm or an event to be generated at the process plant based on the detected condition of the valve. 7. The method of claim 2 , wherein detecting the condition of the valve includes at least one of: determining a performance metric for the valve, or detecting at least one of: dead band, dead time, or a leak at the valve. 8. The method of claim 1 , wherein analyzing the valve data to identify the mode of operation of the valve includes: combining the respective valve parameter values of the valve over the plurality of instances of time to generate a valve parameter metric of the valve; comparing the valve parameter metric of the valve to a plurality of statistical models respectively corresponding to the plurality of modes of valve operation, each statistical model corresponding to a respective mode of valve operation and generated based on respective historical valve parameter values of one or more valves operating in the respective mode of valve operation; and identifying the mode of operation of the valve based on the comparison. 9. The method of claim 1 , wherein analyzing the valve data including the respective valve parameter values to identify the mode of operation of the valve includes analyzing values corresponding to at least one of: a travel set point, a valve travel measurement, an instrument drive signal, an actuator pressure, a travel cycle, a cycle counter, a travel accumulator, or a control signal over the plurality of instances of time to identify the mode of operation of the valve. 10. The method of claim 9 , wherein analyzing the valve data to identify the mode of operation of the valve includes: analyzing respective valve travel measurements of the valve over the plurality of instances of time during on-line operation of the process plant to determine an average valve travel per cycle; determining the valve is operating in the full stroke cycling mode when the average valve travel per cycle exceeds a threshold number; determining the valve is operating in the continuous throttling mode when the average valve travel per cycle does not exceed the threshold number; and determining the valve is operating in the periodic throttling mode when the valve alternates between operating in the full stroke cycling mode and operating in the continuous throttling mode. 11. A system for detecting a mode of operation of a valve in a process plant, the system comprising: a valve operating within the process plant to control an industrial process; and one or more computing devices including: one or more processors; a communication unit; and one or more non-transitory computer-readable media coupled to the one or more processors and to the communication unit, the one or more non-transitory computer-readable media storing instructions thereon that, when executed by the one or more processors, cause the one or more computing devices to: receive, via the communication unit, data generated as a result of the valve operating within the process plant to control the industrial process, the valve data including respective valve parameter values of the valve for one or more valve parameters over a plurality of instances of time; analyze the valve data to identify, from a plurality of modes of valve operation, a mode of operation of the valve, the plurality of modes of valve operation including two or more of: full stroke cycling, continuous throttling, or periodic throttling; and transmit, via the communication unit, an indication of the identified mode of operation of the valve to at least one of a user interface or an application within the one or more computing devices or within other computing devices for analyzing operations in the process plant. 12. The system of claim 11 , wherein the respective valve parameter values are a first set of valve parameters, and the instructions are executable to further cause the computing device to: select, based on the identified mode of operation of the valve, a second set of valve parameters; analyze a second set of valve parameter values of the second set of valve parameters over the plurality of instances of time to detect a condition of the valve, the second set of valve parameter values included in the valve data; and transmit, via the communication unit, an indication of the detected condition of the valve to the user interface. 13. The system of claim 12 , wherein: the analysis of the second set of valve parameter values over the plurality of instances of time includes a combination of the second set of valve parameter values over the plurality of instances of time to generate a valve parameter metric of the valve; and the condition of the valve is detected based on the valve parameter metric. 14. The system of claim 13 , further comprising a statistical model corresponding to the ide