Axial magnetic bearing for centrifugal refrigerant compressor

The invention claimed is: 1. A centrifugal refrigerant compressor system, comprising: an impeller connected to a shaft; a magnetic bearing system supporting the shaft, wherein the magnetic bearing system includes an axial magnetic bearing comprising: a first permanent magnet configured to generate a first bias flux; a second permanent magnet axially spaced-apart from the first permanent magnet and configured to generate a second bias flux; an electromagnet including a coil arranged radially outward of the first and second permanent magnets, wherein the electromagnet is configured to selectively generate either a first control flux or a second control flux to apply a force to the shaft in a first axial direction or second axial direction opposite the first axial direction, respectively; and a first pole and a second pole, wherein the first permanent magnet is supported by the first pole and the second permanent magnet is supported by the second pole, wherein the first pole includes a first slot receiving the first permanent magnet and the second pole includes a second slot receiving the second permanent magnet wherein the first permanent magnet is one of a plurality of first permanent magnets supported by the first pole, wherein the first slot is one of a plurality of first slots formed in the first pole, wherein each of the first permanent magnets are arranged in a respective one of the first slots, wherein the second permanent magnet is one of a plurality of second permanent magnets supported by the second pole, wherein the second slot is one of a plurality of second slots formed in the second pole, and wherein each of the second permanent magnets are arranged in a respective one of the second slots. 2. The system as recited in claim 1 , wherein: the first pole is axially spaced-apart from the second pole by a gap, and a disc formed of magnetic material and configured to rotate with the shaft projects into the gap. 3. The system as recited in claim 1 , wherein the first permanent magnets and the second permanent magnets are shaped substantially as rectangular cuboids. 4. The system as recited in claim 1 , wherein the first slot extends axially through an entirety of the first pole and the second slot extends axially through an entirety of the second pole. 5. The system as recited in claim 1 , wherein: the first slots are circumferentially spaced-apart from one another by respective bridges of the first pole, and the second slots are circumferentially spaced-apart from one another by respective bridges of the second pole. 6. The system as recited in claim 5 , wherein the bridges of the first and second pole are magnetically saturated. 7. The system as recited in claim 6 , wherein a magnetic flux density of the bridges of the first and second poles is greater than or equal to 1.5 Teslas (T). 8. The system as recited in claim 1 , further comprising: a sensor configured to produce an output indicative of an axial position of the shaft; and a controller configured to receive the output and to selectively issue an instruction activating the electromagnet. 9. A centrifugal refrigerant compressor system, comprising: an impeller connected to a shaft; a magnetic bearing system supporting the shaft, wherein the magnetic bearing system includes an axial magnetic bearing comprising: a first permanent magnet configured to generate a first bias flux; a second permanent magnet axially spaced-apart from the first permanent magnet and configured to generate a second bias flux; an electromagnet including a coil arranged radially outward of the first and second permanent magnets, wherein the electromagnet is configured to selectively generate either a first control flux or a second control flux to apply a force to the shaft in a first axial direction or second axial direction opposite the first axial direction, respectively; and a first pole and a second pole, wherein the first permanent magnet is supported by the first pole and the second permanent magnet is supported by the second pole, wherein the first pole includes a first slot receiving the first permanent magnet and the second pole includes a second slot receiving the second permanent magnet, wherein the first permanent magnet and the second permanent magnets are shaped substantially as rectangular cuboids, wherein the first pole includes an inner pole and an outer pole, wherein the first permanent magnet is one of a plurality of first permanent magnets radially between the inner and outer poles of the first pole, wherein the second pole includes an inner pole and an outer pole, and wherein the second permanent magnet is one of a plurality of second permanent magnets radially between the inner and outer poles of the second pole. 10. A centrifugal refrigerant compressor system, comprising: an impeller connected to a shaft; a magnetic bearing system supporting the shaft, wherein the magnetic bearing system includes an axial magnetic bearing comprising: a first permanent magnet configured to generate a first bias flux; a second permanent magnet axially spaced-apart from the first permanent magnet and configured to generate a second bias flux; an electromagnet including a coil arranged radially outward of the first and second permanent magnets, wherein the electromagnet is configured to selectively generate either a first control flux or a second control flux to apply a force to the shaft in a first axial direction or second axial direction opposite the first axial direction, respectively; and a first pole and a second pole, wherein the first permanent magnet is supported by the first pole and the second permanent magnet is supported by the second pole, wherein the first permanent magnet is one of a plurality of first permanent magnets connected to a radially innermost surface of the first pole, and wherein the second permanent magnet is one of a plurality of second permanent magnets connected to the radially innermost surface of the second pole. 11. A method, comprising: activating an electromagnet of an axial magnetic bearing of a centrifugal refrigerant compressor to apply an axial force to a shaft of the centrifugal refrigerant compressor, wherein the axial magnetic bearing further comprises: a first permanent magnet configured to generate a first bias flux; a second permanent magnet axially spaced-apart from the first permanent magnet and configured to generate a second bias flux; wherein the electromagnet includes a coil arranged radially outward of the first and second permanent magnets, and the step of activating the electromagnet includes generating either a first control flux or a second control flux to apply a force to the shaft in a first axial direction or second axial direction opposite the first axial direction, respectively; and a first pole and a second pole, wherein the first permanent magnet is supported by the first pole and the second permanent magnet is supported by the second pole, wherein the first pole includes a first slot receiving the first permanent magnet and the second pole includes a second slot receiving the second permanent magnet wherein the first permanent magnet is one of a plurality of first permanent magnets supported by the first pole, wherein the first slot is one of a plurality of first slots formed in the first pole, wherein each of the first permanent magnets are arranged in a respective one of the first slots, wherein the second permanent magnet is one of a plurality of second permanent magnets supported by the second pole, wherein the second slot is one of a plurality of second slots formed in the second pole, and wherein each of the second pe