Lubricant temperature control with a flow regulating device

What is claimed is: 1. A heating, ventilation, and air conditioning (HVAC) system, comprising: a centrifugal compressor; a lubricant sump of the centrifugal compressor in the HVAC system; a condenser; a refrigerant source, the refrigerant source being the condenser such that refrigerant is provided directly from the condenser; a lubricant temperature regulator, including, a heat exchanger, the heat exchanger including, a lubricant input in fluid communication with the lubricant sump of the centrifugal compressor through which lubricant is received from the lubricant sump and flows into the heat exchanger via a lubricant input line; a lubricant output in fluid communication with a mechanical component via a lubricant output line through which lubricant flows from the heat exchanger via the lubricant output line to the mechanical component; a refrigerant input through which refrigerant flows into the heat exchanger from the refrigerant source, the refrigerant source being upstream of the refrigerant input; a refrigerant output through which refrigerant flows from the heat exchanger, wherein the refrigerant flow and the lubricant flow are in a heat exchange relationship in the heat exchanger; a flow control device disposed upstream of the refrigerant input and downstream of the refrigerant source; and a temperature sensor operatively connected to the flow control device, the temperature sensor to control an opening of the flow control device, wherein the temperature sensor determines a temperature of lubricant; when the temperature of the lubricant is higher than a first temperature, the flow control device is controlled to increase the opening of the flow control device to increase a flow of refrigerant into the heat exchanger; when the temperature of the lubricant is lower than the first temperature, the flow control device is controlled to reduce the opening of the flow control device to decrease the flow of refrigerant into the heat exchanger. 2. The HVAC system according to claim 1 , wherein the mechanical component is disposed downstream of the heat exchanger, the lubricant output being in fluid communication with the mechanical component, the mechanical component being lubricated by the lubricant that flows from the lubricant output via the lubricant output line. 3. The HVAC system according to claim 1 , wherein the temperature sensor is operatively connected to a source of heat that heats the lubricant, the temperature sensor to regulate a heating output of the source of heat; when the temperature is higher than a third temperature, the heating output is disabled or decreased; and when the temperature is lower than a second temperature, the heating output is enabled or increased. 4. The HVAC system according to claim 3 , wherein, the first temperature ranges from at or about 110° F. to at or about 170° F., the second temperature ranges from at or about 95° F. to at or about 155° F., the third temperature ranges from at or about 110° F. to at or about 170° F., and the fourth temperature ranges from at or about 95° F. to at or about 155° F. 5. The HVAC system according to claim 1 , further comprising: a control unit disposed operatively downstream of the temperature sensor and operatively upstream of the flow control device, wherein the control unit controls the flow control device according to the temperature of the lubricant determined by the temperature sensor. 6. The HVAC system according to claim 1 , wherein the mechanical component is a bearing of the centrifugal compressor. 7. The HVAC system according to claim 1 , wherein the heat exchanger is a brazed plate heat exchanger.