Compressor lubrication supply system and compressor thereof

What is claimed is: 1. A lubricant supply system for a compressor in a heat transfer circuit, the compressor configured to compress a first working fluid including a refrigerant, the lubricant supply system comprising: a lubricant tank configured to contain lubricant discharged from one or more bearings of the compressor; a lubricant pathway connected to the lubricant tank and configured to supply the lubricant from the lubricant tank to the one or more bearings of the compressor; and a lubricant refrigeration system including a second working fluid including a refrigerant, a lubricant heater configured to heat the lubricant to increase a temperature of the lubricant in the lubricant tank to be at or above a predetermined minimum temperature, and a lubricant cooler configured to cool the lubricant flowing through the lubricant pathway with the second working fluid. 2. The lubricant supply system of claim 1 , wherein the lubricant supplied from the lubricant pathway to the one or more bearings of the compressor is less than saturated with the refrigerant. 3. The lubricant supply system of claim 1 , wherein the lubricant refrigeration system is fluidly separate from the heat transfer circuit of the compressor and the second working fluid being different from the first working fluid. 4. The lubricant supply system of claim 3 , wherein the lubricant refrigeration system including an auxiliary compressor configured to compress the second working fluid and an expander configured to expand the second working fluid. 5. The lubricant supply system of claim 4 , wherein the lubricant refrigeration system includes one or more refrigeration circuits separate from the heat transfer circuit, the one or more refrigeration circuits including the second working fluid, the lubricant heater, the lubricant cooler, the auxiliary compressor, and the expander. 6. The lubricant supply system of claim 5 , wherein the one or more refrigeration circuits include: a first refrigeration circuit including the second working fluid, the expander, the auxiliary compressor, and the lubricant heater that is a heat exchanger configured to heat the lubricant with the second working fluid, and a second refrigeration circuit including a third working fluid, a second auxiliary compressor, a second expander, and the lubricant cooler that is a heat exchanger configured to cool the lubricant flowing through the lubricant pathway with the third working fluid, the third working fluid including a refrigerant and being different from the first working fluid and the second working fluid. 7. The lubricant supply system of claim 5 , wherein the one or more refrigeration circuits includes a first refrigeration circuit including the second working fluid, the auxiliary compressor, the expander, the lubricant heater, and the lubricant cooler, the lubricant heater is a heat exchanger configured to heat the lubricant with the second working fluid, and the lubricant cooler is a heat exchanger configured to cool the lubricant flowing through the lubricant pathway with the second working fluid. 8. The lubricant supply system of claim 1 , wherein the lubricant refrigeration system is configured to heat the lubricant passing through the lubricant heater and to cool the lubricant passing through the lubricant cooler simultaneously. 9. The lubricant supply system of claim 1 , further comprising: a controller for the lubricant supply system, wherein the lubricant is discharged from the one or more bearings of the compressor at a first temperature, and the controller is configured to control the lubricant supply system such that: the lubricant heater increases the temperature of the lubricant to at or above the predetermined minimum temperature that is higher than the first temperature, and the lubricant cooler cools the lubricant to at or below a predetermined maximum temperature that is lower than the predetermined minimum temperature. 10. The lubricant supply system of claim 1 , wherein the lubricant heater is disposed at the lubricant tank or between the compressor and the lubricant tank, and the lubricant pathway extends from the lubricant tank through the lubricant cooler. 11. The lubricant supply system of claim 1 , wherein the lubricant heater is an electric heater. 12. The lubricant supply system of claim 1 , further comprising: a controller for the lubricant supply system, the controller configured to control the lubricant supply system such that the lubricant heater heats the lubricant to increase the temperature of the lubricant in the lubricant tank to be at or above the predetermined minimum temperature, the predetermined minimum temperature corresponding to a dissolved refrigerant concentration of the lubricant of 40 wt % or less. 13. A lubricant supply system for a compressor in a heat transfer circuit, the compressor configured to compress a first working fluid including a refrigerant, the lubricant supply system comprising: a lubricant tank configured to contain lubricant discharged from one or more bearings of the compressor; a lubricant pathway connected to the lubricant tank and configured to supply the lubricant from the lubricant tank to the one or more bearings of the compressor; a lubricant refrigeration system including a second working fluid including a refrigerant, a lubricant heater configured to heat the lubricant to increase a temperature of the lubricant in the lubricant tank, and a lubricant cooler configured to cool the lubricant flowing through the lubricant pathway with the second working fluid, and a lubricant separator including: a housing including one or more inlets, a first outlet, and a second outlet, the one or more inlets configured to receive a mixture of the lubricant and the refrigerant of the first working fluid discharged from the one or more bearings of the compressor, the lubricant heater configured to heat the lubricant within the lubricant separator, and the first outlet configured to discharge the lubricant after being heated by the lubricant heater to the lubricant tank, a flow director disposed within the housing and blocking a direct path from the one or more inlets to the second outlet, the mixture of the lubricant and the refrigerant of the first working fluid including gaseous refrigerant, liquid lubricant, and gaseous refrigerant dissolved in the liquid lubricant, the flow director configured to direct: the gaseous refrigerant to flow around the flow director to the first outlet, the liquid lubricant through the lubricant heater to the first outlet, the lubricant heater heating the liquid lubricant and liberating the gaseous refrigerant dissolved in the liquid lubricant from the liquid lubricant, and the gaseous refrigerant liberated from the liquid lubricant to the second outlet. 14. The lubricant supply system of claim 13 , wherein the flow director has a tubular shape. 15. A method of lubricating a compressor in a heat transfer circuit, the compressor configured to compress a first working fluid including a refrigerant, the method comprising: heating, with a lubricant heater of a lubricant refrigeration system, lubricant discharged from one or more bearings of the compressor to increase a temperature of the lubricant in a lubricant tank to be at or above a predetermined minimum temperature, the lubricant refrigeration system including, the lubricant heater, a lubricant cooler, and a second working fluid including a refrigerant; directing the lubricant from the lubricant tank through a lubricant pathway to one or more bearings of the compressor; and cooling, with the lubricant cooler of the lubr