Electrically heated balance piston seal

We claim: 1. A balance piston seal assembly for a balance piston of a compressor, comprising: a balance piston seal configured to be disposed about the balance piston such that an inner radial surface of the balance piston seal and an outer radial surface of the balance piston define a radial clearance therebetween; and a plurality of heaters in thermal communication with the balance piston seal and configured to heat and thermally expand the balance piston seal and thereby increase a radial length of the radial clearance, wherein the balance piston seal defines a plurality of bores at least partially extending therethrough from a first axial end surface toward a second axial end surface thereof, wherein each heater of the plurality of heaters is disposed in a respective bore of the plurality of bores. 2. The balance piston seal assembly of claim 1 , wherein the plurality of bores and the respective heaters disposed therein are circumferentially spaced about the balance piston seal at substantially equal intervals. 3. The balance piston seal assembly of claim 1 , wherein the plurality of bores and the respective heaters disposed therein are circumferentially spaced about the balance piston seal at varying intervals. 4. A balance piston seal assembly piston of a compressor, comprising: a balance piston seal configured to be disposed about the balance piston such that an inner radial surface of the balance piston seal and an outer radial surface of the balance piston define a radial clearance therebetween; and a plurality of heaters in thermal communication with the balance piston seal and configured to heat and thermally expand the balance piston seal and thereby increase a radial length of the radial clearance, wherein each heater of the plurality of heaters comprises a helical heating coil configured to receive electrical power and generate heat. 5. A balance piston seal assembly for a balance piston of a compressor, comprising: a balance piston seal configured to be disposed about the balance piston such that an inner radial surface of the balance piston seal and an outer radial surface of the balance piston define a radial clearance therebetween; and a plurality of heaters in thermal communication with the balance piston seal and configured to heat and thermally expand the balance piston seal and thereby increase a radial length of the radial clearance, wherein the plurality of heaters are coupled with one another in series. 6. A balance piston seal assembly for a balance piston of a compressor, comprising: a balance piston seal configured to be disposed about the balance piston such that an inner radial surface of the balance piston seal and an outer radial surface of the balance piston define a radial clearance therebetween; and a plurality of heaters in thermal communication with the balance piston seal and configured to heat and thermally expand the balance piston seal and thereby increase a radial length of the radial clearance, wherein the plurality of heaters are coupled with one another in parallel. 7. A compressor, comprising: a casing; a rotary shaft disposed in the casing and configured to be driven by a driver; an impeller coupled with and configured to be driven by the rotary shaft; a balance piston integral with the impeller and configured to balance an axial thrust generated by the impeller; a balance piston seal disposed about the balance piston such that an inner radial surface of the balance piston seal and an outer radial surface of the balance piston define a radial clearance therebetween; and a plurality of heaters in thermal communication with the balance piston seal and configured to heat and thermally expand the balance piston seal and thereby increase a radial length of the radial clearance, wherein the balance piston seal defines a plurality of bores at least partially extending therethrough from a first axial end surface toward a second axial end surface thereof, wherein each heater of the plurality of heaters is disposed in a respective bore of the plurality of bores. 8. The compressor of claim 7 , further comprising an axial inlet coupled or integral with the casing. 9. The compressor of claim 8 , wherein the axial inlet and the casing at least partially define a fluid pathway of the compressor, the fluid pathway comprising: an inlet passageway configured to receive a process fluid comprising carbon dioxide; an impeller cavity fluidly coupled with the inlet passageway and configured to receive the impeller; a diffuser fluidly coupled with the impeller cavity; and a volute fluidly coupled with the diffuser. 10. The compressor of claim 9 , wherein the impeller is configured to receive the process fluid from the inlet passageway and discharge the process fluid to the diffuser at an absolute Mach number of about one or greater. 11. The compressor of claim 10 , wherein the compressor is configured to provide a compression ratio of at least about 10.1. 12. The compressor of claim 7 , wherein the plurality of bores and the respective heaters disposed therein are circumferentially spaced about the balance piston seal at substantially equal intervals. 13. A compression system, comprising: a diver; and a compressor couple with and configured to be driven by the driver, the compressor comprising: a casing; an inlet coupled or integral with the casing, the inlet and the casing at least partially defining a fluid pathway of the compressor, the fluid pathway configured to receive a process fluid; a rotary shaft disposed in the casing configured to couple compressor with the driver; an impeller coupled with and configured to be rotated by the driver via the rotary shaft; a balance piston integral with the impeller and configured to balance an axial thrust generated by the rotation of the impeller; a balance piston seal disposed radially outward of the balance piston such that the balance piston seal and the balance piston define a radial clearance therebetween; and a plurality of heaters in thermal communication with the balance piston seal and configured to heat and thermally expand the balance piston seal and thereby increase a radial length of the radial clearance, wherein the balance piston seal defines a plurality of bores circumferentially spaced about the balance piston seal at substantially equal intervals, and each heater of the plurality of heaters is disposed in a respective bore of the plurality of bores. 14. The compression system of claim 13 , wherein the impeller is configured to discharge the process fluid to the diffuser at an absolute Mach number of about one or greater. 15. The compression system of claim 13 , wherein the compressor is configured to provide a compression ratio of at least about 10:1.