Isolating bus enclosure arrangements for switchgear

What is claimed is: 1. A switchgear assembly comprising: a plurality of gas insulated switches arranged in first and second parallel rows; a plurality of enclosures arranged in first and second rows extending parallel to respective ones of the first and second rows of switches and configured to receive ambient air from outside of the enclosures; and first and second bus assemblies providing respective first and second phases of the same multi-phase service electrically isolated from one another, each comprising interconnected bus sections comprising an inner conductor covered by at least one insulation layer and at least one shield conductor, the first and second bus assemblies disposed in the respective first and second rows of enclosures and exposed to the ambient air therein, wherein each of the interconnected bus sections comprises an inner conductor, an inner insulation layer surrounding the inner conductor, an outer shield conductor surrounding the inner insulation layer and the inner conductor, and an outer insulation layer surrounding the outer shield conductor, the inner insulation layer and the inner conductor. 2. The switchgear assembly of claim 1 , wherein the first row of enclosures is separated from the second row of enclosures by an air gap. 3. The switchgear assembly of claim 1 , wherein the first and second bus assemblies are electrically connected to the gas insulated switches via connectors positioned at external faces of gas-containment enclosures of the gas insulated switches. 4. The switchgear assembly of claim 1 , wherein the first and second rows of enclosures comprise respective rows of tubular enclosures having a rectangular cross-section. 5. A switchgear assembly comprising a plurality of gas insulated switches in respective first and second rows; a bus containment structure comprising first and second rows of enclosures configured to receive ambient air from outside of the enclosures and arranged in parallel such that each enclosure in the first row of enclosures is separated from an adjacent enclosure in the second row of enclosures by an air gap; a first bus assembly providing a first phase of a multiphase service, comprising interconnected bus sections comprising an inner conductor covered by at least one insulation layer and at least one shield conductor, disposed in the first row of enclosures and exposed to the ambient air; and a second bus assembly providing a second phase of the multiphase service electrically isolated from the first phase, comprising interconnected bus sections covered by at least one insulation layer, disposed in the second row of enclosures and exposed to the ambient air, wherein the first and second bus assemblies each comprise bus sections comprising an inner conductor, an inner insulation layer surrounding the inner conductor, an outer shield conductor surrounding the inner insulation layer and the inner conductor, and an outer insulation layer surrounding the outer shield conductor, the inner insulation layer and the inner conductor. 6. The switchgear assembly of claim 5 , wherein the first row of enclosures is a first row of tubular enclosures and wherein the second row of enclosures is a second row of tubular enclosures. 7. The switchgear assembly of claim 6 , wherein the tubular enclosures of the first row abut in an end-to-end manner and wherein the tubular enclosures of the second row abut in an end-to-end manner. 8. The switchgear assembly of claim 5 , wherein the first and second rows of enclosures comprise respective rows of tubular enclosures having a rectangular cross-section. 9. A switchgear assembly comprising: a plurality of gas insulated switches arranged in first and second parallel rows; first and second tubular enclosures extending parallel to respective ones of the first and second rows of switches and configured to receive ambient air from outside of the enclosures; and first and second bus assemblies providing respective first and second phases of the same multiphase service electrically isolated from one another, each comprising interconnected bus sections comprising an inner conductor covered by at least one insulation layer and at least one shield conductor, the first and second bus assemblies disposed in respective ones of the first and second tubular enclosures and exposed to the ambient air therein, wherein each of the first and second bus assemblies comprises interconnected bus sections, each comprising an inner conductor, an inner insulation layer surrounding the inner conductor, an outer shield conductor surrounding the inner insulation layer and the inner conductor, and an outer insulation layer surrounding the outer shield conductor, the inner insulation layer and the inner conductor. 10. The switchgear assembly of claim 9 , wherein the first and second tubular enclosures comprise respective first and second rows of tubular enclosure sections joined in an end-to-end arrangement. 11. The switchgear assembly of claim 9 , wherein the first and second bus assemblies are electrically connected to the gas insulated switches via connectors positioned at external faces of gas-containment enclosures of the gas insulated switches. 12. The switchgear assembly of claim 9 , wherein the first and second tubular enclosures each have a rectangular cross-section.