Resilient battery cooling systems and methods

We claim: 1. An electrical distribution system comprising: a first battery string having a first operating voltage; a second battery string having a second operating voltage, the second battery string being electrically coupled in series to the first battery string to generate a total output voltage substantially equal to or greater than a sum of the first operating voltage and the second operating voltage; and a hybrid load configured to be operable at a nominal voltage and at a reduced voltage, wherein the hybrid load operates at the reduced voltage in case of a failure of the first battery string or the second battery string, wherein the nominal voltage is the total output voltage supplied by the first battery string and the second battery string, wherein the reduced voltage is the first operating voltage supplied by the first battery string or the second operating voltage supplied by the second battery string, wherein the hybrid load is a cooler configured to prevent thermal runaway in the first battery string and the second battery string by providing cooling to the first battery string and the second battery strings, and further configured to provide cooling to at least one other system, wherein, during operation at the reduced voltage, the cooler is configured to selectively operate routing of a coolant to maintain sufficient cooling of the first battery string and the second battery string, while reducing the cooling of the at least one other system. 2. The electrical distribution system of claim 1 , wherein the hybrid load further comprises an ADAS. 3. The electrical distribution system of claim 1 , wherein the first operating voltage is substantially equal to the second operating voltage. 4. The electrical distribution system of claim 1 , wherein the total output voltage is equal to the sum of the first operating voltage and the second operating voltage. 5. The electrical distribution system of claim 1 , wherein the total operating voltage is equal to the sum of the first operating voltage, the second operating voltage, and a third voltage corresponding to a third battery string. 6. The electrical distribution system of claim 1 , wherein the electrical distribution system comprises a plurality of hybrid loads. 7. A method of operating an electrical system for a vehicle, the method comprising: providing a first battery string having a first operating voltage; providing a second battery string having a second operating voltage, the second battery string being electrically coupled in series to the first battery string to generate a total output voltage substantially equal to or greater than a sum of the first operating voltage and the second operating voltage; and providing a hybrid load configured to be operable at a nominal voltage and at a reduced voltage, wherein the hybrid load operates at the reduced voltage in case of a failure of the first battery string or the second battery string, wherein the nominal voltage is the total output voltage supplied by the first battery string and the second battery string, wherein the reduced voltage is the first operating voltage supplied by the first battery string or the second operating voltage supplied by the second battery string, wherein the hybrid load is a cooling system configured to prevent thermal runaway in the first battery string and the second battery string by providing cooling to the first battery string and the second battery string, and further configured to provide cooling to at least one other system, wherein, during operation at the reduced voltage, the method further comprises selectively routing a coolant to maintain sufficient cooling of the first battery string and the second battery string, while reducing the cooling of the at least one other system. 8. The method of claim 7 , wherein the cooling system has a plurality of cooling pathways. 9. The method of claim 8 , further comprising selectively coupling the first operating voltage, the second operating voltage, or the total operating voltage to the hybrid load. 10. The method of claim 9 , wherein the coolant is selectively routed through the plurality of cooling pathways. 11. The method of claim 10 , wherein the selective routing of the coolant comprises routing coolant adjacent to either the first battery string or the second battery string. 12. The method of claim 11 , wherein the selective routing of the coolant is based upon a location of a detected thermal event in either of the first battery string or the second battery string. 13. A vehicle system comprising: a battery system including: a first battery string having a first operating voltage; and a second battery string having a second operating voltage, the second battery string being electrically coupled in series to the first battery string to generate a total output voltage substantially equal to or greater than a sum of the first operating voltage and the second operating voltage; and a plurality of hybrid loads each configured to operate at a nominal voltage and at a reduced voltage, wherein at least one hybrid load of the plurality of hybrid loads operates at the reduced voltage in case of a failure of the first battery string or the second battery string, wherein the nominal voltage is the total output voltage supplied by the first battery string and second battery string, wherein the reduced voltage is the first operating voltage supplied by the first battery string or the second operating voltage supplied by the second battery string, wherein the at least one of the plurality of hybrid loads is a cooling system, the cooling system comprising a plurality of coolant tubes and a chiller, and wherein the chiller is a hybrid load, wherein the cooling system is configured to prevent thermal runaway in the first battery string and the second battery string by providing cooling to the first battery string and the second battery string, and further configured to provide cooling to at least one other system, wherein, during operation at the reduced voltage, the cooling system is configured to selectively operate routing of a coolant to maintain sufficient cooling of the first battery string and the second battery string, while reducing the cooling of the at least one other system. 14. The vehicle system of claim 13 , wherein one of the plurality of hybrid loads is an ADAS. 15. The vehicle system of claim 13 , wherein the first operating voltage is substantially equal to the second operating voltage. 16. The vehicle system of claim 13 , wherein the total output voltage is equal to the sum of the first operating voltage and the second operating voltage. 17. The vehicle system of claim 13 , wherein the total operating voltage is equal to the sum of the first operating voltage, the second operating voltage, and a third voltage corresponding to a third battery string. 18. The electrical distribution system of claim 1 , wherein the first operating voltage is different from the second operating voltage.