Compressor

What is claimed is: 1 . A compressor defining an axial direction, the compressor comprising: a casing defining a chamber that extends along the axial direction, the casing also defining a plurality of gas bearing conduits, each gas bearing conduit of the plurality of gas bearing conduits having an exit positioned at the chamber of the casing, the exits of the plurality of gas bearing conduits distributed along the axial direction; a piston slidably received within the chamber of the casing; a motor configured for selectively reciprocating the piston along the axial direction within the chamber of the casing; and a plurality of gas bearing control valves configured for regulating fluid flow through the plurality of gas bearing conduits, each gas bearing control valve of the plurality of gas bearing control valves coupled to a respective one of the plurality of gas bearing conduits, each gas bearing control valve of the plurality of gas bearing control valves configured for permitting fluid flow through the respective one of the plurality of gas bearing conduits when the piston is positioned adjacent the exit of the respective one of the plurality of gas bearing conduits in the chamber of the casing. 2 . The compressor of claim 1 , wherein the plurality of gas bearing control valves comprise solenoid valves or pressure actuated reed valves. 3 . The compressor of claim 1 , further comprising a valve and a compressed fluid conduit, the valve positioned at an end of the chamber such that the valve is disposed between the chamber of the casing and a downstream compressed fluid volume, the valve configured for regulating a flow of compressed fluid from the chamber of the casing to the downstream compressed fluid volume, the compressed fluid conduit extending between the downstream compressed fluid volume and the plurality of gas bearing conduits. 4 . The compressor of claim 3 , further comprising an accumulator coupled to the compressed fluid conduit, the accumulator defining a reservoir for receiving compressed fluid from the downstream compressed fluid volume. 5 . The compressor of claim 4 , further comprising a check valve coupled to the compressed fluid conduit between the downstream compressed fluid volume and the accumulator. 6 . The compressor of claim 1 , wherein each exit of the plurality of gas bearing conduits has a different size. 7 . The compressor of claim 6 , wherein the casing extends between a first axial portion and a second axial portion, the exits of the plurality of gas bearing conduits increasing in size from the first axial portion of the casing to the second axial portion of the casing. 8 . The compressor of claim 1 , wherein the casing extends between a first axial portion and a second axial portion, a first one of the plurality of gas bearing conduits positioned adjacent the first axial portion of the casing and a second one of the plurality of gas bearing conduits positioned adjacent the second axial portion of the casing, an exit of the first one of the plurality of gas bearing conduits being smaller than an exit of the second one of the plurality of gas bearing conduits. 9 . The compressor of claim 1 , wherein each gas bearing control valve of the plurality of gas bearing control valves is further configured for blocking fluid flow through the respective one of the plurality of gas bearing conduits when the piston is not positioned adjacent the exit of the respective one of the plurality of gas bearing conduits in the chamber of the casing. 10 . A compressor defining an axial direction, the compressor comprising: a casing defining a chamber that extends along the axial direction, the casing also defining a plurality of gas bearing conduits, each gas bearing conduit of the plurality of gas bearing conduits having an exit, the exits of the plurality of gas bearing conduits distributed along the axial direction; a piston having a piston head slidably received within the chamber of the casing, the piston also having a piston base, the piston head defining a plurality of gas bearing outlets and the piston base defining a plurality of gas bearing inlets; a motor configured for selectively reciprocating the piston head along the axial direction within the chamber of the casing; and a plurality of gas bearing control valves configured for regulating fluid flow through the plurality of gas bearing conduits, each gas bearing control valve of the plurality of gas bearing control valves coupled to a respective one of the plurality of gas bearing conduits, each gas bearing control valve of the plurality of gas bearing control valves configured for permitting fluid flow through the respective one of the plurality of gas bearing conduits when one of the plurality of gas bearing inlets of the piston base is positioned adjacent the exit of the respective one of the plurality of gas bearing conduits. 11 . The compressor of claim 10 , wherein the plurality of gas bearing control valves comprise solenoid valves or pressure actuated reed valves. 12 . The compressor of claim 10 , further comprising a valve and a compressed fluid conduit, the valve positioned at an end of the chamber such that the valve is disposed between the chamber of the casing and a downstream compressed fluid volume, the valve configured for regulating a flow of compressed fluid from the chamber of the casing to the downstream compressed fluid volume, the compressed fluid conduit extending between the downstream compressed fluid volume and the plurality of gas bearing conduits. 13 . The compressor of claim 12 , further comprising an accumulator coupled to the compressed fluid conduit, the accumulator defining a reservoir for receiving compressed fluid from the downstream compressed fluid volume. 14 . The compressor of claim 13 , further comprising a check valve coupled to the compressed fluid conduit between the downstream compressed fluid volume and the accumulator. 15 . The compressor of claim 10 , wherein each gas bearing outlet of the plurality of gas bearing outlets has a different size. 16 . The compressor of claim 15 , wherein the piston head extends between a first axial portion and a second axial portion along the axial direction, the gas bearing outlets of the plurality of gas bearing outlets increasing in size from the first axial portion of the piston head to the second axial portion of the piston head. 17 . The compressor of claim 10 , wherein the piston head extends between a first axial portion and a second axial portion, a first one of the plurality of gas bearing outlets positioned adjacent the first axial portion of the piston head and a second one of the plurality of gas bearing outlets positioned adjacent the second axial portion of the piston head, the first one of the plurality of gas bearing outlets being smaller than the second one of the plurality of gas bearing outlets. 18 . The compressor of claim 10 , wherein each gas bearing control valve of the plurality of gas bearing control valves is further configured for blocking fluid flow through the respective one of the plurality of gas bearing conduits when one of the plurality of gas bearing inlets of the piston base is not positioned adjacent the exit of the respective one of the plurality of gas bearing conduits. 19 . The compressor of claim 18 , further comprising a piston location sensor configured for determining a position of the plurality of gas bearing inlets of the piston base relative to the plurality of gas bearing conduits. 20 . A