Vane compressor for surgical gas delivery system with gas sealed insufflation and recirculation

What is claimed is: 1. A surgical gas delivery system comprising: a) a manifold for communicating with a gas sealed access port; b) a proportional fill valve for dynamically controlling delivery of a gas into the manifold from a gas source; c) a positive displacement rotary vane compressor assembly for recirculating the gas through the gas sealed access port by way of the manifold, the positive displacement rotary vane compressor assembly including a compressor head having an inlet port on a first side surface of the compressor head for receiving a spent gas flow from the gas sealed access port through the manifold and an outlet port on a second side surface of the compressor head for discharging a pressurized gas flow to the gas sealed access port through the manifold; d) a pump body extending from a front surface of the compressor head; e) a brushless direct current motor coupled to a rear surface of the compressor head for driving the positive displacement rotary vane compressor assembly; and f) an intercooler and/or a condenser interposed between the manifold and the positive displacement rotary vane compressor assembly for conditioning the spent gas flow received by the positive displacement rotary vane compressor assembly from the manifold and for conditioning the pressurized gas flow discharged from the positive displacement rotary vane compressor assembly to the manifold, wherein the spent gas flow travels directly from an outlet of the manifold to a first inlet of the intercooler and/or the condenser and then from a first outlet of the intercooler and/or the condenser to the inlet port of the compressor head, and the pressurized gas flow travels directly from the outlet port of the compressor head to a second inlet of the intercooler and/or the condenser and then from a second outlet of the intercooler and/or the condenser to an inlet of the manifold. 2. The surgical gas delivery system as recited in claim 1 , wherein the pump body defines a cylindrical bore, and a hub is mounted for rotation within the cylindrical bore of the pump body about a shaft that defines an axis of rotation of the hub, and wherein the axis of rotation of the hub is offset from a central axis of the cylindrical bore, and wherein the hub contains a plurality of circumferentially spaced apart vane slots each containing a freely sliding vane. 3. The surgical gas delivery system as recited in claim 2 , wherein each end of the shaft is supported within the pump body by a bearing, and a mechanical shaft seal dynamically seals a gap between the shaft and the compressor head. 4. The surgical gas delivery system as recited in claim 1 , wherein the positive displacement rotary vane compressor assembly has a nominal volumetric displacement ranging from 0.1 to 10 cc/rev. 5. The surgical gas delivery system as recited in claim 1 , wherein the positive displacement rotary vane compressor assembly has a nominal volumetric displacement of about 2 cc/rev. 6. The surgical gas delivery system as recited in claim 1 , wherein the positive displacement rotary vane compressor assembly has a nominal speed ranging from 5,000 to 100,000 rpm. 7. The surgical gas delivery system as recited in claim 1 , wherein the positive displacement rotary vane compressor assembly has a nominal speed of about 20,000 rpms.