Startup logic for refrigeration system

What is claimed is: 1. A refrigeration system comprising: a compressor having a first stage and a second stage; a heat rejecting heat exchanger having a fan drawing ambient fluid over the heat rejecting heat exchanger, the heat rejecting heat exchanger including an intercooler and a gas cooler, the intercooler coupled to an outlet of the first stage and the gas cooler coupled to an outlet of the second stage; an unload valve coupled to an outlet of the intercooler and a suction port of the first stage; a flash tank coupled to an outlet of the gas cooler; a primary expansion device coupled to an outlet of the flash tank; a heat absorbing heat exchanger coupled to an outlet of the primary expansion device, an outlet of the heat absorbing heat exchanger coupled to the suction port of the first stage; and a controller configured to execute a startup process including the controller configured to control the fan speed to reduce refrigerant heat loss in the heat rejecting heat exchanger; wherein controlling the fan speed in the startup process includes the controller configured to control fan speed in response to superheat, wherein the fan speed is proportional to the superheat. 2. The refrigeration system of claim 1 wherein: the controller is configured to control the unload valve to direct refrigerant from the intercooler to the suction port of the first stage during the startup process. 3. The refrigeration system of claim 2 wherein: during the startup process, in addition to controlling the unload valve, the controller is configured to perform controlling the primary expansion device to restrict flow of refrigerant to the heat absorbing heat exchanger. 4. The refrigeration system of claim 3 wherein: controlling the primary expansion device includes controlling primary expansion device in response to superheat. 5. The refrigeration system of claim 4 wherein: controlling the primary expansion device includes incrementally opening the primary expansion device in response to an increase in superheat. 6. The refrigeration system of claim 2 further comprising: an economizer valve coupling the flash tank to an inlet of the second stage. 7. The refrigeration system of claim 6 wherein: during the startup process, in addition to controlling the unload valve, the controller is configured to control the economizer valve to control flow of refrigerant from the flash tank to the inlet of the second stage. 8. The refrigeration system of claim 7 wherein: control of the economizer valve includes opening the economizer valve. 9. The refrigeration system of claim 2 further comprising: a motor for driving the first stage and the second stage; wherein during the startup process, the controller is configured to apply direct current to the motor. 10. The refrigeration system of claim 2 wherein: controlling the unload valve includes opening the unload valve.