Switchgear enclosure with improved venting

What is claimed is: 1. An enclosure for a switchgear, the enclosure comprising: a first circuit breaker compartment constructed and arranged to house a first circuit breaker therein, the first circuit breaker compartment having an opening therein defining a first air outlet, a second circuit breaker compartment constructed and arranged to house a second circuit breaker therein, the second circuit breaker compartment being adjacent to and vertically below the first circuit breaker compartment, the second circuit breaker compartment having an opening therein defining a compartment air inlet, a first door associated with the first circuit breaker compartment, a second door associated with the second circuit breaker compartment, each door having an opening therein defining a door air inlet, a main bus compartment adjacent to at least the second circuit breaker compartment and constructed and arranged to house circuit breaker buses therein, the main bus compartment having an opening therein defining a second air outlet, surfaces defining an air passage fluidly connecting the second circuit breaker compartment with the main bus compartment, and a cable compartment adjacent to the main bus compartment and adjacent to a portion of at least the second circuit breaker compartment, the cable compartment having an opening therein defining a third air outlet and at least one other opening therein defining a cable compartment air inlet, wherein to ventilate the enclosure, 1) air entering through the door air inlet of the first door can flow out of the first air outlet, 2) air entering through the door air inlet of the second door and air from the cable compartment air inlet that enters the second circuit breaker compartment via the compartment air inlet, can flow into the main bus compartment via the air passage and flow out of the second air outlet, and 3) air entering the cable compartment via the cable compartment air inlet can flow out of the third air outlet. 2. The enclosure of claim 1 , further comprising a vent box disposed over each of the openings that define the first, second and third air outlets, each vent box having at least one exit opening so that air flowing into the vent box can flow out of the exit opening to atmosphere. 3. The enclosure of claim 2 , wherein each vent box includes opposing exit openings and an internal V-shaped deflector constructed and arranged to route air generally transversely, with respect a direction of airflow entering the vent box, to exit through the exit openings. 4. The enclosure of claim 2 , wherein each vent box is disposed over each of the openings that define the first, second and third air outlets so that dust cannot enter the enclosure from a top of each vent box. 5. The enclosure of claim 1 , wherein the surfaces defining the air passage includes a deflector to direct air from the second circuit breaker compartment into the main bus compartment. 6. The enclosure of claim 1 , further comprising a circuit breaker in the second circuit breaker compartment, and buses electrically connected with the circuit breaker, disposed in the main bus compartment. 7. The enclosure of claim 6 , wherein the buses include first, second and third buses provided in staggered, spaced, and vertically stacked relation with the second bus disposed between the first and third buses. 8. The enclosure of claim 7 , further comprising a deflector in the main bus compartment associated with the second bus and constructed and arranged to divert air rising from the second bus toward sides of the main bus compartment. 9. The enclosure of claim 7 , wherein a center axis of the first bus is offset from a center axis of the second bus, and a center axis of the third bus is offset from the center axis of each of the first and second buses. 10. A switchgear comprising: an enclosure comprising: a first circuit breaker compartment constructed and arranged to house a first circuit breaker therein, the first circuit breaker compartment having an opening therein defining a first air outlet, a second circuit breaker compartment constructed and arranged to house a second circuit breaker therein, the second circuit breaker compartment being adjacent to and vertically below the first circuit breaker compartment, a first door associated with the first circuit breaker compartment, a second door associated with the second circuit breaker compartment, each door having an opening therein defining a door air inlet, a main bus compartment adjacent to at least the second circuit breaker compartment and constructed and arranged to house circuit breaker buses therein, the main bus compartment having an opening therein defining a second air outlet, surfaces defining an air passage fluidly connecting the second circuit breaker compartment with the main bus compartment, and a cable compartment adjacent to the main bus compartment and adjacent to a portion of at least the second circuit breaker compartment, a circuit breaker disposed in the second circuit breaker compartment and first, second and third buses provided in staggered, spaced, and vertically stacked relation disposed in the main bus compartment, the buses being electrically connected with the circuit breaker, wherein to ventilate the enclosure, 1) air entering through the door air inlet of the first door can flow out of the first air outlet, and 2) air entering through the door air inlet of the second door can flow into the main bus compartment via the air passage and flow out of the second air outlet. 11. The switchgear of claim 10 , wherein the second circuit breaker compartment has an opening therein defining a compartment air inlet and wherein the cable compartment has an opening therein defining a third air outlet and at least one other opening therein defining a cable compartment air inlet so that air entering through the door air inlet of the second door and air from the cable compartment air inlet that enters the second circuit breaker compartment via the compartment air inlet, can flow into the main bus compartment via the air passage and flow out of the second air outlet, and air entering the cable compartment via the cable compartment air inlet can flow out of the third air outlet. 12. The switchgear of claim 10 , further comprising a deflector in the main bus compartment associated with the second bus and constructed and arranged to divert air rising from the second bus toward sides of the main bus compartment. 13. The switchgear of claim 10 , wherein a center axis of the first bus is offset from a center axis of the second bus, and a center axis of the third bus is offset from the center axis of each of the first and second buses. 14. The switchgear of claim 11 , further comprising a vent box disposed over each of the openings that define the first, second and third air outlets, each vent box having at least one exit opening so that air flowing into the vent box can flow out of the exit opening to atmosphere. 15. The switchgear enclosure of claim 14 , wherein each vent box includes opposing exit openings and an internal V-shaped deflector constructed and arranged to route air generally transversely, with respect a direction of airflow entering the vent box, to exit through the exit openings. 16. The switchgear of claim 14 , wherein each vent box is disposed over each of the openings that define the first, second and third air outlets so that dust cannot enter the enclosure from a top of each vent box. 17. The switchgear of claim 10 , wherein the surfaces defining the air passage includes a deflector to direct air