System and cooling for rapid pressurization of a motor-bearing cooling loop for a hermetically sealed motor/compressor system

We claim: 1. A motor-compressor system, comprising: a compressor configured to receive a process gas at a suction pressure and to discharge the process gas via an outlet; a motor coupled to the compressor via a rotatable shaft to drive the compressor; a housing having a motor compartment in which the motor is disposed and a compressor compartment in which the compressor is disposed; a bearing coupled to the housing and configured to support the shaft; a shaft seal arranged between the compressor and the bearing; a seal gas system fluidly communicating with the motor compartment via a motor pressurization line, with the outlet of the compressor, and with the shaft seal, the seal gas system being configured to receive the process gas from the outlet of the compressor, and to supply seal gas at a seal gas supply pressure to the shaft seal; a motor pressurization valve coupled to the motor pressurization line; and a controller configured to open the motor pressurization valve at start-up to supply seal gas to the motor compartment, to open the motor pressurization valve during a compressor surge to supply the seal gas to the motor compartment, and to pressurize the motor compartment when a difference between the seal gas supply pressure and the suction pressure is indicative of the seal gas supply pressure being insufficient. 2. The motor-compressor system of claim 1 , wherein the controller is configured to open the motor pressurization valve during a shutdown. 3. The motor-compressor system of claim 1 , wherein the shaft seal comprises a carbon ring seal and the bearing comprises a magnetic bearing. 4. The motor-compressor system of claim 1 , further comprising a cooling system fluidly coupled to the bearing and the motor compartment, wherein pressurization of the motor compartment increases a pressure of the cooling system. 5. The motor-compressor system of claim 4 , wherein the cooling system includes a make-up gas line, the cooling system being configured to receive pressurized gas via the make-up gas line in response to a fluctuation in the suction pressure. 6. The motor-compressor system of claim 4 , wherein the cooling system includes a first interior cooling passage defined in the compressor compartment between the shaft seal and the bearing, the first interior cooling passage being in fluid communication with the motor compartment. 7. The motor-compressor system of claim 6 , wherein the cooling system further includes a second interior cooling passage defined in the motor compartment, the second interior cooling passage being in fluid communication with the first interior cooling passage. 8. The motor-compressor system of claim 1 , wherein the seal gas system is coupled to an initial source of seal gas upstream of the compressor. 9. The motor-compressor system of claim 1 , wherein the seal gas system further comprises a pressurized gas containment vessel configured to supply pressurized gas to the motor compartment when the motor pressurization valve is opened. 10. The motor-compressor system of claim 1 , wherein the seal gas system is configured to receive pressurized gas from a location downstream of the motor-compressor and to supply the pressurized gas to the motor compartment when the motor pressurization valve is opened.