Battery thermal mitigation using coolant

What is claimed is: 1. A vehicle comprising: a cooling system having a coolant; and a battery system comprising: a first battery module comprising: a first plurality of energy storage cells; and a cooling element disposed below the first plurality of energy storage cells, the cooling element in fluid communication with the cooling system; and a second battery module comprising: a second plurality of energy storage cells, the second battery module being disposed below the first battery module such that a cell of the second plurality of energy storage cells is disposed below the cooling element, wherein the cooling element is a cooling plate configured, in response to the cell entering thermal runaway, to expel coolant onto the cell. 2. The vehicle of claim 1 , wherein the cooling plate comprises: a first surface having a first thickness, the first surface disposed adjacent to the first plurality of energy storage cells; and a second surface having a second thickness, the second surface opposite the first surface, and the second thickness being thinner than the first thickness. 3. The vehicle of claim 1 , wherein the cooling plate comprises: a first surface disposed adjacent to the first plurality of energy storage cells; and a second surface comprising a first area and a second area, the second area being thinner than the first area. 4. The vehicle of claim 3 , wherein the second surface comprises a first sheet of material bonded to a second sheet of material, the second sheet of material having a void corresponding to the second area. 5. The vehicle of claim 1 , wherein the cooling plate comprises: a first surface comprising a first material, the first surface disposed adjacent to the first plurality of energy storage cells; and a second surface, including a second material, the second surface opposite the first surface, and the first material having a higher melting temperature than the second material. 6. The vehicle of claim 1 , wherein the cooling system comprises a heating ventilation and air conditioning system to cool a passenger compartment of the vehicle. 7. The vehicle of claim 1 , further comprising: a second cooling system; and a second battery system, the second cooling system in fluid communication with the second battery system, and in fluid communication with the cooling system. 8. The vehicle of claim 1 , wherein the second battery module further comprising a heat shield disposed above the second plurality of energy storage cells, the heat shield being frangible and configured to breach in response to the cell entering thermal runaway. 9. The vehicle of claim 1 , wherein the second battery module comprises at least one of a valve or a trough to direct coolant expelled from the cooling element to exit the battery system after being expelled onto the cell. 10. A battery system comprising: a first battery module comprising: a first plurality of energy storage cells; and a cooling element disposed below the first plurality of energy storage cells, the cooling element containing coolant; and a second battery module comprising: a second plurality of energy storage cells, the second battery module being disposed below the first battery module such that a cell of the second plurality of energy storage cells is disposed below the cooling element, wherein the cooling element is a cooling plate configured, in response to the cell entering thermal runaway, to expel coolant onto the cell. 11. The battery system of claim 10 , wherein the cooling plate comprises: a first surface having a first thickness, the first surface disposed adjacent to the first plurality of energy storage cells; and a second surface having a second thickness, the second surface opposite the first surface, and the second thickness being thinner than the first thickness. 12. The battery system of claim 10 , wherein the cooling plate comprises: a first surface disposed adjacent to the first plurality of energy storage cells; and a second surface comprising a first area and a second area, the second area being thinner than the first area. 13. The battery system of claim 12 , wherein the second surface comprises a first sheet of material bonded to a second sheet of material, the second sheet of material having a void corresponding to the second area. 14. The battery system of claim 10 , wherein the cooling plate comprises: a first surface comprising a first material, the first surface disposed adjacent to the first plurality of energy storage cells; and a second surface, including a second material, the second surface opposite the first surface, and the first material having a higher melting temperature than the second material. 15. The battery system of claim 10 , wherein the second battery module further comprises a heat shield disposed above the second plurality of energy storage cells, the heat shield being frangible and configured to breach in response to the cell entering thermal runaway. 16. The battery system of claim 10 , wherein the second battery module comprises at least one of a valve or a trough to direct coolant expelled from the cooling element to exit the battery system after being expelled onto the cell. 17. A thermal runaway mitigation system, comprising: a plurality of energy storage cells; and a cooling element disposed above the plurality of energy storage cells such that a cell of the plurality of energy storage cells is disposed below the cooling element, the cooling element containing coolant, wherein the cooling element is a cooling plate configured, in response to the cell entering thermal runaway, to expel coolant onto the cell. 18. The thermal runaway mitigation system of claim 17 , wherein the cooling plate comprises: a first surface having a first thickness; and a second surface having a second thickness, the second surface opposite the first surface and disposed between the first surface and the cell, and the second thickness being thinner than the first thickness. 19. The thermal runaway mitigation system of claim 17 , wherein the cooling plate comprises: a first surface; and a second surface, the second surface opposite the first surface and between the first surface and the cell, the second surface comprising a first area and a second area, the second area being thinner than the first area. 20. The thermal runaway mitigation system of claim 17 , wherein the cooling plate comprises: a first surface comprising a first material; and a second surface including a second material, the second surface opposite the first surface and disposed between the first surface and the cell, and the first material having a higher melting temperature than the second material.