Method to detect and intervene relative to cavitation and pulsation events during a hydraulic fracturing operation

What is claimed is: 1. A method to detect one or more of (a) cavitation or (b) pulsation, associated with operating a hydraulic fracturing unit, the hydraulic fracturing unit including one or more of a plurality of hydraulic fracturing pumps to pump fracturing fluid into a wellhead, the method comprising: (i) receiving, via a supervisory controller positioned to control one or more of the plurality of hydraulic fracturing pumps, one or more of: (a) pump signals indicative of one or more of (1) pump discharge pressure, (2) pump suction pressure, (3) pump speed, or (4) pump vibration associated with operation of the one or more of the plurality of hydraulic fracturing pumps, or (b) blender signals indicative of one or more of (1) blender flow rate or (2) blender discharge pressure; and (ii) performing one or more of: (a)(1) associating, via the supervisory controller, one or more cavitation values with one or more of (x) the one or more pump signals or (y) the one or more blender signals, (2) combining the one or more cavitation values to determine a combined cavitation value, (3) comparing the combined cavitation value to a threshold cavitation value, and (4) when the combined cavitation value equals or exceeds the threshold cavitation value, generating a cavitation notification signal indicative of detection of cavitation associated with operation of the hydraulic fracturing pump of one or more of the plurality of hydraulic fracturing pumps, or (b)(1) determining, via the supervisory controller, based at least in part on the pump signals at a first time, a first average pump suction pressure and a first average pump discharge pressure associated with operation of the one or more of the plurality of hydraulic fracturing pumps, (2) determining, via the supervisory controller, based at least in part on the pump signals at a second time after the first time, a second average pump suction pressure and a second average pump discharge pressure, (3) determining, via the supervisory controller, a suction pressure difference between the first average pump suction pressure and the second average pump suction pressure, and a discharge pressure difference between the first average pump discharge pressure and the second average pump discharge pressure, (4) comparing the suction pressure difference to a suction pressure threshold, (5) comparing the discharge pressure difference to a discharge pressure threshold, and (6) when the suction pressure difference is equal to or exceeds the suction pressure threshold and the discharge pressure difference is equal to or exceeds the discharge pressure threshold, generating a pulsation notification signal indicative of detection of pulsation associated with operation of the hydraulic fracturing pump. 2. The method of claim 1 , wherein the comparing of the combined cavitation value to a threshold cavitation value comprises counting cavitation occurrences each time the combined cavitation value equals or exceeds the threshold cavitation value, and generating the cavitation notification signal indicative of detection of cavitation associated with operation of the one or more of the plurality of hydraulic fracturing pumps. 3. The method of claim 1 , further comprising, based at least in part on the cavitation notification signal, initiating an alarm indicative of the detection of cavitation, the alarm comprising one or more of a visual alarm, an audible alarm, or a tactile alarm, and periodically or continuously storing cavitation data indicative of the detection of cavitation in a hydraulic fracturing unit profiler associated with the hydraulic fracturing unit thereby to provide access to the cavitation data to the supervisory controller. 4. The method of claim 1 , further comprising, when the combined cavitation value equals or exceeds the threshold cavitation value, reducing one or more of a pump flow rate of the hydraulic fracturing pump of one or more of the plurality of hydraulic fracturing pumps or a blender flow rate of the blender. 5. The method of claim 1 , further comprising: counting detected cavitation occurrences to determine a cavitation occurrence count; and when the cavitation occurrence count equals or exceeds a threshold cavitation occurrence count, reducing one or more of a pump flow rate of the hydraulic fracturing pump of one or more of the plurality of hydraulic fracturing pumps or a blender flow rate of the blender. 6. The method of claim 1 , wherein the pulsation notification signal comprises a first pulsation notification signal, and the method further comprising after generation of the first pulsation notification signal indicative of detection of pulsation associated with operation of the hydraulic fracturing pump of one or more of the plurality of hydraulic fracturing pumps, (a) determining, via the supervisory controller, based at least in part on the pump signals at a third time, a third average pump suction pressure and a third average pump discharge pressure, (b) determining, via the supervisory controller, based at least in part on the pump signals at a fourth time after the third time, a fourth average pump suction pressure and a fourth average pump discharge pressure, (c) determining, via the supervisory controller, a second suction pressure difference between the third average pump suction pressure and the fourth average pump suction pressure, and a second discharge pressure difference between the third average pump discharge pressure and the fourth average pump discharge pressure, (d) comparing the second suction pressure difference to the suction pressure threshold, (e) comparing the second discharge pressure difference to the discharge pressure threshold, and (f) when the second suction pressure difference is equal to or exceeds the suction pressure threshold and the second discharge pressure difference is equal to or exceeds the discharge pressure threshold, generating a second pulsation notification signal indicative of a second detection of pulsation associated with operation of the hydraulic fracturing pump of one or more of the plurality of hydraulic fracturing pumps. 7. The method of claim 6 , further comprising, based at least in part on the second pulsation notification signal, initiating an alarm indicative of the detection of second pulsation, the alarm comprising one or more of a visual alarm, an audible alarm, or a tactile alarm. 8. The method of claim 6 , further comprising, based at least in part on the second pulsation notification signal, storing pulsation data indicative of the detection of pulsation in a hydraulic fracturing unit profiler associated with the hydraulic fracturing unit thereby to provide access to the pulsation data to the supervisory controller. 9. The method of claim 6 , further comprising, based at least in part on the second pulsation notification signal, reducing one or more of (a) a pump flow rate of the hydraulic fracturing pump of one or more of the plurality of hydraulic fracturing pumps, or (b) a blender flow rate of the blender. 10. The method of claim 1 , further comprising, based at least in part on the cavitation notification signal, initiating an alarm indicative of the detection of cavitation, the alarm comprising one or more of a visual alarm, an audible alarm, or a tactile alarm, and wherein associating one or more cavitation values comprises associating an integer value with one or more of the one or more pump signals or the one or more blender signals, and wherein combining the one or more cavitation values to determine a combined cavitation value comprises adding the integer values. 11. The method of claim 1 , wherein associating one or more cavitation values with one or more of