Systems and methods for operating hydrocarbon wells to inhibit breakthrough based on reservoir saturation

What is claimed is: 1. A method for operating a hydrocarbon production well comprising: determining whether any cellular volumes of a plurality of cellular volumes surrounding a wellbore of a hydrocarbon production well has a saturation value for a given time that is above a threshold saturation value and has a location that is within a threshold distance of a perforation location, the perforation location defined by a location of perforations in the wellbore of the hydrocarbon production well; and in response to determining that at least one of the cellular volumes of the plurality of cellular volumes has a saturation value for the given time that is above the threshold saturation value and has a location that is within the threshold distance of the perforation location: determining a nearest cell distance defined by a minimum distance between the perforation location and locations of the at least one of the cellular volumes having a saturation value that is above the threshold saturation value and having a location that is within the threshold distance of the perforation location; determining operating conditions for the production well for the given time, the operating conditions comprising: an operating bottom-hole pressure (BHP) for the production well for the given time; and a surface well pressure (SWP) for the production well for the given time; determining a minimum operating BHP (BHP n+1 min ) for the given time according to the following relationship: BHP n+1 min =BHP n +(SWP n −BHP n )*S T *(1− D NC /D T ), wherein BHP n is the operating BHP for the production well for the given time, SWP n is the SWP for the production well for the given time, S T is the threshold saturation value, D T is the threshold distance, and D NC is the nearest cell distance; and operating the hydrocarbon production well at a production rate to maintain a BHP of the production well at or above the minimum operating BHP for a time period associated with the given time. 2. The method of claim 1 , wherein the perforations comprise perforations in a casing of the wellbore, and wherein the perforation location comprises a location of the perforations in the casing of the wellbore. 3. The method of claim 1 , further comprising: determining, using a well model for the production well, a saturation value for each cellular volume of the plurality of cellular volumes for the given time; determining, using the well model for the production well, the operating BHP for the production well for the given time; and determining, using the well model for the production well, the SWP for the production well for the given time. 4. The method of claim 1 , wherein the saturation value is a water saturation value, and the threshold saturation value is a threshold water saturation value. 5. The method of claim 1 , wherein determining a nearest cell distance comprises: for each cellular volume of the at least one of the cellular volumes having a saturation value that is above the threshold saturation value and having a location that is within the threshold distance of the perforation location: determining a cell location; and determining a cell distance defined by a distance between the cell location and the perforation location, wherein the nearest cell distance is the minimum of the cell distances determined for the at least one of the cellular volumes having a saturation value for the given time that is above the threshold saturation value and having a location that is within the threshold distance of the perforation location. 6. The method of claim 5 , wherein the cell location for each cellular volume comprises a location at a center of the cellular volume. 7. The method of claim 1 , wherein operating the hydrocarbon production well at a production rate to maintain the BHP of the production well at or above the minimum operating BHP comprises adjusting a flow control valve to achieve the production rate to maintain the BHP of the production well at or above the minimum operating BHP. 8. The method of claim 1 , further comprising: determining whether any of the cellular volumes of the plurality of cellular volumes has a second saturation value for a second time that is above the threshold saturation value and has a location that is within the threshold distance of the perforation location; and in response to determining that none of the cellular volumes of the plurality of cellular volumes has a second saturation value for the second time that is above the threshold saturation value and has a location that is within the threshold distance of the perforation location: determining a second minimum operating BHP for the second time defined by an absolute minimum operating BHP for the hydrocarbon production well; and operating the hydrocarbon production well to maintain the BHP of the production well at or above the second minimum operating BHP for a second time period associated with the second time. 9. The method of claim 8 , wherein the absolute minimum operating BHP for the hydrocarbon production well is above a dew point pressure or a bubble point pressure for the hydrocarbon production well. 10. The method of claim 1 , further comprising generating a production schedule defining, for each of a plurality of different time periods, a minimum operating BHP, wherein the production schedule defines the minimum operating BHP for the time period associated with the given time, and wherein the hydrocarbon production well is operated in accordance with the production schedule to, for each individual time period of the plurality of different time periods, maintain the BHP for the production well at or above the minimum operating BHP defined by the production schedule for the individual time period. 11. A hydrocarbon production well system, comprising: a well production system configured to regulate a production rate of a hydrocarbon production well; and a well control system configured to perform the following operations: determine whether any cellular volumes of a plurality of cellular volumes surrounding a wellbore of the hydrocarbon production well has a saturation value for a given time that is above a threshold saturation value and has a location that is within a threshold distance of a perforation location, the perforation location defined by a location of perforations in the wellbore of the hydrocarbon production well; and in response to determining that at least one of the cellular volumes of the plurality of cellular volumes has a saturation value for the given time that is above the threshold saturation value and has a location that is within the threshold distance of the perforation location: determine a nearest cell distance defined by a minimum distance between the perforation location and locations of the at least one of the cellular volumes having a saturation value that is above the threshold saturation value and having a location that is within the threshold distance of the perforation location; determine operating conditions for the production well for the given time, the operating conditions comprising: an operating bottom-hole pressure (BHP) for the production well for the given time; and a surface well pressure (SWP) for the production well for the given time; determine a minimum operating BHP (BHP min n+1 ) for the given time according to the following relationship: BHP min n + 1 =