Cooling system with low temperature load

What is claimed is: 1. An apparatus comprising: a temperature sensor configured to measure a temperature of a refrigerant at a first compressor, the first compressor configured to: receive the refrigerant from a second compressor; and send the refrigerant to a high side heat exchanger configured to remove heat from the refrigerant; a pressure sensor configured to measure a pressure of the refrigerant at the first compressor; and a controller communicatively coupled to the temperature sensor and the pressure sensor, the controller configured to: receive one or more of the measured temperature and the measured pressure; determine whether one or more of the measured temperature and the measured pressure exceed a first threshold; in response to a determination that one or more of the received temperature and the received pressure exceed the first threshold, actuate a pulse valve coupled to a liquid injection line, the pulse valve configured to control the flow of a liquid refrigerant from a flash tank through the liquid injection line to mix with the refrigerant at the first compressor; determine whether a rate of change of one or more of the measured temperature and the measured pressure is above a second threshold; determine whether one or more of the measured temperature and the measured pressure is above a third threshold, the third threshold below the first threshold; in response to a determination that the rate of change is above the second threshold and a determination that one or more of the measured temperature and the measured pressure is above the third threshold, initiate closing of a flash gas bypass valve coupled to a flash gas bypass line coupled to the flash tank to restrict the flow of a flash gas through the flash gas bypass line; wherein the flash tank is configured to: store the refrigerant from the high side heat exchanger; and send the flash gas through the flash gas bypass line to mix with the refrigerant at the first compressor. 2. The apparatus of claim 1 , wherein the flash gas bypass valve is configured to control the flow of the flash gas through the flash gas bypass line. 3. The apparatus of claim 1 , wherein the flash gas bypass valve is piloted based on an interior pressure of the flash tank. 4. The apparatus of claim 1 , wherein the controller is configured to fully open the flash gas bypass valve when one or more of the measured temperature and the measured pressure does not exceed a threshold. 5. The apparatus of claim 1 , wherein the flash gas bypass valve is configured to create a pressure differential of at least 45 pounds per square inch between the first compressor and the liquid injection line. 6. The apparatus of claim 1 , wherein the flash tank is further configured to send the refrigerant to a load that uses the refrigerant to remove heat from a space proximate the load. 7. A method comprising: measuring a temperature of a refrigerant at a first compressor, the first compressor configured to: receive the refrigerant from a second compressor; and send the refrigerant to a high side heat exchanger configured to remove heat from the refrigerant; measuring a pressure of the refrigerant at the first compressor; receiving one or more of the measured temperature and the measured pressure; determining whether one or more of the measured temperature and the measured pressure exceed a first threshold; in response to a determination that one or more of the received temperature and the received pressure exceed the first threshold, actuating a pulse valve coupled to a liquid injection line, the pulse valve configured to control the flow of a liquid refrigerant from a flash tank through the liquid injection line to mix with the refrigerant at the first compressor; determining whether a rate of change of one or more of the measured temperature and the measured pressure is above a second threshold; determining whether one or more of the measured temperature and the measured pressure is above a third threshold, the third threshold below the first threshold; and in response to a determination that the rate of change is above the second threshold and a determination that one or more of the measured temperature and the measured pressure is above the third threshold, initiating closing of a flash gas bypass valve coupled to a flash gas bypass line coupled to the flash tank to restrict the flow of a flash gas through the flash gas bypass line; wherein the flash tank is configured to: store the refrigerant from the high side heat exchanger; and send the flash gas through the flash gas bypass line to mix with the refrigerant at the first compressor. 8. The method of claim 7 , wherein the flash gas bypass valve is configured to control the flow of the flash gas through the flash gas bypass line. 9. The method of claim 7 , wherein the flash gas bypass valve is piloted based on an interior pressure of the flash tank. 10. The method of claim 7 , further comprising fully opening the flash gas bypass valve when one or more of the measured temperature and the measured pressure does not exceed a threshold. 11. The method of claim 7 , wherein the flash gas bypass valve is configured to create a pressure differential of at least 45 pounds per square inch between the first compressor and the liquid injection line. 12. The method of claim 7 , wherein the flash tank is further configured to send the refrigerant to a load that uses the refrigerant to remove heat from a space proximate the load. 13. A system comprising: a temperature sensor configured to measure a temperature of a refrigerant at a first compressor, the first compressor configured to receive the refrigerant from a second compressor; a pressure sensor configured to measure a pressure of the refrigerant at the first compressor; and a controller communicatively coupled to the temperature sensor and the pressure sensor, the controller configured to: receive one or more of the measured temperature and the measured pressure; determine whether one or more of the measured temperature and the measured pressure exceed a first threshold; in response to a determination that one or more of the received temperature and the received pressure exceed the threshold, actuate a pulse valve coupled to a liquid injection line, the pulse valve configured to control the flow of a liquid refrigerant from a flash tank through the liquid injection line to mix with the refrigerant at the first compressor; determine whether a rate of change of one or more of the measured temperature and the measured pressure is above a second threshold; determine whether one or more of the measured temperature and the measured pressure is above a third threshold, the third threshold below the first threshold; and in response to a determination that the rate of change is above the second threshold and a determination that one or more of the measured temperature and the measured pressure is above the third threshold, initiate closing of a flash gas bypass valve coupled to a flash gas bypass line coupled to the flash tank to restrict the flow of a flash gas through the flash gas bypass line. 14. The system of claim 13 , wherein the flash gas bypass line is configured to control the flow of a flash gas through a flash gas bypass line. 15. The system of claim 13 , wherein the flash gas bypass valve is piloted based on an interior pressure of the flash tank. 16. The system of claim 13 , wherein the controller is configured to fully open the flash gas bypass valve when one or more of the measured temperature and the measured pressure