Leak detection systems and methods for components of a mineral extraction system

The invention claimed is: 1. A leak detection system, comprising: an annular housing that defines a bore; an annular packer disposed within the annular housing and configured to seal against a rod that moves through the bore; a constriction within the bore; a channel extending radially-outwardly from the bore and positioned upstream of the constriction; a sensor positioned outside of the bore and fluidly coupled to the channel, wherein the sensor is configured to detect a leaked fluid within the bore; and an actuator configured to compress the annular packer to adjust the seal against the rod in response to the sensor detecting the leaked fluid within the bore. 2. The leak detection system of claim 1 , wherein the constriction is formed by a radially-inner wall of the annular housing. 3. The leak detection system of claim 1 , wherein the constriction is formed by an annular insert coupled to the annular housing. 4. The leak detection system of claim 1 , wherein the sensor comprises a flow sensor, a pressure sensor, an acoustic sensor, an optical sensor, a mechanical sensor, or any combination thereof. 5. The leak detection system of claim 1 , wherein the channel is positioned between the annular packer and the constriction along a longitudinal axis of the bore. 6. The leak detection system of claim 5 , comprising a cavity within the bore, wherein the cavity is a region of an expanded diameter within the bore and is positioned at an intersection between the longitudinal axis of the bore and a respective longitudinal axis of the channel. 7. The leak detection system of claim 1 , comprising an additional channel extending radially-outwardly from the bore and an additional sensor positioned outside of the bore and fluidly coupled to the additional channel. 8. The leak detection system of claim 7 , wherein the additional channel is axially aligned with the constriction. 9. The leak detection system of claim 7 , comprising one or more processors, wherein the one or more processors are configured to receive pressure data from the sensor and the additional sensor, to process the pressure data, and to determine that the leaked fluid is present within the bore in response to identifying a difference between a first pressure at the sensor and a second pressure at the additional sensor. 10. The leak detection system of claim 1 , comprising one or more processors, where in the one or more processors are configured to receive sensor data from the sensor, to process the sensor data, and to determine that the leaked fluid is present within the bore in response to identifying a difference between the sensor data and baseline data. 11. A component of a mineral extraction system, comprising: an annular housing that defines a bore; an annular packer configured to seal against a rod that moves through the bore; a constriction within the bore; a channel extending radially-outwardly from the bore; a sensor positioned outside of the bore and fluidly coupled to the channel, wherein the sensor is configured to detect a leaked fluid that leaked across the annular packer; and one or more processors, wherein the one or more processors are configured to receive sensor data from the sensor, to process the sensor data, to determine that the leaked fluid is present in response to identifying a difference between the sensor data and baseline data, and to instruct an actuator to compress the annular packer to adjust the seal against the rod in response to determining that the leaked fluid is present. 12. The component of claim 11 , wherein the channel is positioned between the annular packer and the constriction along a longitudinal axis of the bore. 13. The component of claim 11 , comprising an additional channel extending radially-outwardly from the bore and an additional sensor positioned outside of the bore and fluidly coupled to the additional channel. 14. The component of claim 13 , wherein the additional channel is axially aligned with the constriction. 15. The component of claim 11 , wherein the component comprises a stuffing box of a pressure control equipment stack. 16. The component of claim 11 , wherein the component comprises a valve, and the rod comprises a reciprocating or rotating valve stem of the valve. 17. A method of operating a leak detection system for a component of a mineral extraction system, comprising: moving a rod through a bore defined by an annular housing; sealing an annular packer about the rod as the rod moves through the bore defined by the annular housing; operating a sensor to detect a leaked fluid that leaked across the annular packer as the rod moves through the bore defined by the annular housing, wherein the sensor is positioned outside of the bore and is fluidly coupled to a channel that extends radially-outwardly from the bore at an axial location between a constriction within the bore and the annular packer; and compressing the annular packer to adjust the seal against the rod in response to determining that the leaked fluid is present. 18. The method of claim 17 , operating an additional sensor to detect the leaked fluid that leaked across the annular packer as the rod moves through the bore defined by the annular housing, wherein the additional sensor is positioned outside of the bore and is fluidly coupled to an additional channel that extends radially-outwardly from the bore at a respective location that is axially aligned with the constriction. 19. The method of claim 17 , diverting the leaked fluid into the channel using the constriction to facilitate detection of the leaked fluid by the sensor.