Tee arrester with directional venting

What is claimed is: 1. A high voltage electrical system comprising: a transformer including a front plate; a plurality of connectors, wherein each of the plurality of connectors is coupled to an electrical phase of a plurality of electrical phases; and a plurality of arresters, wherein each of the plurality of arresters is coupled to one of the plurality of connectors, and wherein a housing portion of each arrester of the plurality of arresters is angled towards the front plate. 2. The high voltage electrical system of claim 1 , wherein the plurality of electrical phases includes a first electrical phase, a second electrical phase, and a third electrical phase, and wherein the plurality of connectors includes a first connector coupled to the first electrical phase, a second connector coupled to the second electrical phase, and a third connector coupled to the third electrical phase. 3. The high voltage electrical system of claim 2 , wherein the plurality of arresters includes a first arrester coupled to the first connector, a second arrester coupled to the second connector, and a third arrester coupled to the third connector. 4. The high voltage electrical system of claim 1 , wherein each electrical phase of the plurality of electrical phases is separated by a phase angle of approximately 120°. 5. The high voltage electrical system of claim 1 , wherein each of the plurality of arresters includes a metal oxide varistor (MOV) stack, wherein the MOV stack is released through an opening of the housing portion based on a fault to ground condition. 6. The high voltage electrical system of claim 5 , wherein the fault to ground condition is the result of a fault current within the respective arrester being greater than a current threshold. 7. The high voltage electrical system of claim 1 , wherein each of the plurality of arresters is one selected from the group consisting of a tee arrester, a deadfront arrester, a lightning arrester, a bushing arrester, a 200 A loadbreak arrester, and a 600 A deadbreak arrester. 8. The high voltage electrical system of claim 1 , wherein the transformer is one selected from the group consisting of a feedthrough transformer, a vault transformer, a pad-mounted transformer, a direct-buried transformer, and a submersible transformer. 9. The high voltage electrical system of claim 1 , wherein an opening of the housing portion includes a cap coupled to a ground. 10. A high voltage electrical system comprising: a transformer including a front plate; a plurality of connectors, wherein each of the plurality of connectors is coupled to an electrical phase of a plurality of electrical phases; and a plurality of arresters, wherein each of the plurality of arresters is coupled to one of the plurality of connectors, and wherein a first housing portion of each arrester of the plurality of arresters is perpendicular to the front plate, and wherein a second housing portion of each arrester is angled towards the front plate. 11. The high voltage electrical system of claim 10 , wherein the plurality of electrical phases includes a first electrical phase, a second electrical phase, and a third electrical phase, and wherein the plurality of connectors includes a first connector coupled to the first electrical phase, a second connector coupled to the second electrical phase, and a third connector coupled to the third electrical phase. 12. The high voltage electrical system of claim 11 , wherein the plurality of arresters includes a first arrester coupled to the first connector, a second arrester coupled to the second connector, and a third arrester coupled to the third connector. 13. The high voltage electrical system of claim 10 , wherein each electrical phase of the plurality of electrical phases is separated by a phase angle of approximately 120°. 14. The high voltage electrical system of claim 10 , wherein each of the plurality of arresters includes a metal oxide varistor (MOV) stack, wherein the MOV stack is released through an opening of the second housing portion based on a fault to ground condition. 15. The high voltage electrical system of claim 14 , wherein the fault to ground condition is the result of a fault current within the respective surge arrester being greater than a current threshold. 16. The high voltage electrical system of claim 10 , wherein each of the plurality of arresters is one selected from a group consisting of a tee arrester, a deadfront arrester, a lightning arrester, a bushing arrester, a 200 A loadbreak arrester, and a 600 A deadbreak arrester. 17. The high voltage electrical system of claim 10 , wherein the transformer is one selected from a group consisting of a feedthrough transformer, a vault transformer, a pad-mounted transformer, a direct-buried transformer, and a submersible transformer. 18. The high voltage electrical system of claim 10 , wherein an opening of the second housing portion includes a cap coupled to a ground. 19. The high voltage electrical system of claim 10 , wherein the first housing portion includes a plug interface configured to receive an insulating plug and a bushing interface configured to receive a bushing. 20. The high voltage electrical system of claim 10 , wherein each of the plurality of arresters includes an elastomeric primary insulation.