Key interlock system and method for safe operation of electric power distribution system

What is claimed is: 1. A key interlock system, comprising: a static transfer switch that includes: switching logic operable to selectively deliver power from one of a first power source or a second power source to a first load bus; a first bypass breaker operable to be placed in either a closed state in which power can be delivered from the first power source to the first load bus via a path there between that bypasses the switching logic or in an open state in which power cannot be delivered from the first power source to the first load bus via the path there between that bypasses the switching logic; a first key interlock device operable to be transitioned from a first state to a second state using a first key, the first state of the first key interlock device comprising a state in which the first key interlock device impedes closing of the first bypass breaker and prevents removal of a second key from the first key interlock device and the second state of the first key interlock device comprising a state in which the first key interlock device does not impede the closing of the first bypass breaker and enables removal of the second key from the first key interlock device; and a first solenoid key release unit operable to be placed in a non-energized state when the first bypass breaker is in the open state and to be placed in an energized state when at least the first bypass breaker is in the closed state, the first solenoid key release unit being further operable to prevent removal of a third key therefrom when in the non-energized state and to enable removal of the third key therefrom when in the energized state; the second key and the third key being required to obtain a fourth key that is useable to transition a bus tie breaker that is connected between the first load bus and a second load bus from an open state to a closed state. 2. The key interlock system of claim 1 , wherein the first solenoid key release unit is operable to be placed in the energized state when the first bypass breaker is in the closed state and a push button is pressed. 3. The key interlock system of claim 2 , further comprising an auxiliary contact that is connected between a third power source and the first solenoid key release unit, the auxiliary contact being linked to the first bypass breaker and being operable to deliver power from the third power source to the first solenoid key release unit when at least the first bypass breaker is placed in the closed state. 4. The key interlock system of claim 3 , wherein the third power source comprises an uninterruptible power source. 5. The key interlock system of claim 3 , wherein the auxiliary contact is further connected between the third power source and a pilot light, the auxiliary contact being operable to deliver power from the third power source to the pilot light when the first bypass breaker is placed in the closed state. 6. The key interlock system of claim 1 , wherein the first key interlock device comprises: a first lock cylinder that is configured to receive the first key and is rotatable thereby to transition the first key interlock device from the first state to the second state; and a second lock cylinder that is configured to receive the second key and is rotatable thereby to transition the first key interlock device from the second state to the first state; wherein the first state of the first key interlock device further comprises a state in which the first key interlock device enables removal of the first key from the first key interlock device and the second state of the first key interlock device further comprises a state in which the first key interlock device prevents removal of the first key from the first key interlock device. 7. The key interlock system of claim 6 , wherein the static transfer switch further comprises: a second bypass breaker that is operable to be placed in either a closed state in which power can be delivered from the second power source to the first load bus via a path there between that bypasses the switching logic or an open state in which power cannot be delivered from the second power source to the first load bus via the path there between that bypasses the switching logic; and a second key interlock device that comprises: a lock cylinder that is configured to receive the first key and is rotatable thereby to transition the second key interlock device between a first state and a second state, the first state of the second key interlock device comprising a state in which the second key interlock device impedes closing of the second bypass breaker and in which the second key interlock device enables removal of the first key from the second key interlock device and the second state of the second key interlock device comprising a state in which the second key interlock device does not impede the closing of the second bypass breaker and in which the second key interlock device prevents removal of the first key from the second key interlock device. 8. The key interlock system of claim 1 , further comprising: a key transfer block that is operable to be transitioned from a first state to a second state using both the second key and the third key, the first state of the key transfer block comprising a state in which the key transfer block prevents removal of the fourth key from the key transfer block and the second state of the key transfer block comprising a state in which the key transfer block enables removal of fourth key from the key transfer block. 9. The key interlock system of claim 1 , wherein the bus tie breaker comprises one of two bus tie breakers that are connected in series between the first load bus and the second load bus. 10. The key interlock system of claim 1 , wherein the static transfer switch is operable to disable the switching logic from delivering power to the first load bus from either the first power source or the second power source in response to detecting that the third key has been removed from the first solenoid key release unit. 11. A key interlock system, comprising: a first static transfer switch that comprises: first switching logic operable to selectively deliver power from either a first power source or a second power source to a first load bus; a first bypass breaker that when closed enables power to be delivered from the first power source to the first load bus via a first bypass path that bypasses the first switching logic; a first solenoid key release unit that releases a first key when at least the first bypass breaker is closed; a second bypass breaker that when closed enables power to be delivered from the second power source to the first load bus via a second bypass path that bypasses the first switching logic; and a second solenoid key release unit that releases a second key when at least the second bypass breaker is closed; a second static transfer switch that comprises: second switching logic operable to selectively deliver power from either the first power source or the second power source to a second load bus; a third bypass breaker that when closed enables power to be delivered from the first power source to the second load bus via a third bypass path that bypasses the second switching logic; a third solenoid key release unit that releases a third key when at least the third bypass breaker is closed; a fourth bypass breaker that when closed enables power to be delivered from the second power source to the second load bus via a fourth bypass path that bypasses the second switching logic; and a fourth solenoid key release unit that releases a fourth key when at least the fourth bypass breaker is closed; a first key transfer block that is operable to releas