Energy-recovery turbines for gas streams

What is claimed is: 1. A process for controlling a flowrate of and recovering energy from a gas stream in a processing unit comprising: directing at least a portion of the gas stream through one or more variable-resistance power-recovery turbine to control the flowrate of the gas stream and generate electric power therefrom, wherein the flowrate to the one or more power-recovery turbine varies by less than about 10%; controlling a pressure and temperature of the gas stream through the one or more power-recovery turbines so that the gas exiting the one or more power-recovery turbine remains in a gas phase; and measuring the flowrate using turbine revolutions per minute of the one or more power-recovery turbine and a load on a circuit. 2. The process of claim 1 further comprising controlling the flowrate by varying one or more of the speed or shaft torque of the one or more power-recovery turbine. 3. The process of claim 1 further comprising replacing a control valve with the one or more power-recovery turbine before directing the at least the portion of the gas stream through the one or more power-recovery turbine. 4. The process of claim 1 wherein the one or more power-recovery turbine is used in conjunction with a control valve, and further comprising directing a second portion of the gas stream through the control valve. 5. The process of claim 4 wherein the portion of the gas stream directed through the one or more power-recovery turbine is greater than the second portion of the gas stream directed though the control valve. 6. The process of claim 1 wherein the power recovered is displayed on at least one display screen. 7. The process of claim 1 further comprising: receiving information from a plurality of pressure reducing devices, the plurality of pressure reducing devices comprising: the one or more power-recovery turbine; a control valve; or, both; determining a power loss value or a power generated value for each of the pressure reducing devices; determining a total power loss value or a total power generated value based upon the power loss values or the power generated values from each of the pressure reducing devices; and, displaying the total power loss value or the total power generated value on at least one display screen. 8. The process of claim 7 further comprising adjusting at least one process parameter in the processing unit based upon the total power loss value or the total power generated value. 9. The process of claim 8 further comprising: after the at least one process parameter has been adjusted, determining an updated power loss value or an updated power generated value for each of the pressure reducing devices; determining an updated total power loss value or an updated total power generated value for the processing unit based upon the updated power loss values or the updated power generated values from each of the pressure reducing devices; and, displaying the updated total power loss value or the updated total power generated value on the at least one display screen. 10. The process of claim 7 further comprising: receiving information associated with conditions outside of the processing unit, wherein a total power loss value target or a total power generated value target is determined based in part upon the information associated with conditions outside of the processing unit. 11. The process of claim 7 further comprising: receiving information associated with a throughput of the processing unit, wherein the total power loss value or the total power generated value is determined based in part upon the information associated with the throughput of the processing unit. 12. The process of claim 11 further comprising: maintaining the throughput of the processing unit while adjusting at least one process parameter of the processing unit based upon the total power loss value or the total power generated value. 13. A process for controlling a flowrate of and recovering energy from a gas stream in a processing unit comprising: directing at least a portion of the gas stream through one or more variable-resistance power-recovery turbines to control the flowrate of the gas stream and generate electric power therefrom, wherein the flowrate to the one or more power-recovery turbine varies by less than about 10%; controlling a pressure and temperature of the gas stream through the one or more power-recovery turbines so that the gas exiting the one or more power-recovery turbine remains in the gas phase; and measuring the flowrate using a position of the variable position inlet guide vanes, turbine revolutions per minute of the one or more power-recovery turbine, and power output; wherein the one or more power-recovery turbine replaces a control valve in the process. 14. The process of claim 13 further comprising: receiving information from a plurality of pressure reducing devices, the plurality of pressure reducing devices comprising: the one or more power-recovery turbine; a control valve; or, both; determining a power loss value or a power generated value for each of the pressure reducing devices; determining a total power loss value or a total power generated value based upon the power loss values or the power generated values from each of the pressure reducing devices; and, displaying the total power loss value or the total power generated value on at least one display screen. 15. A process for controlling a flowrate of and recovering energy from a gas stream in a processing unit comprising: directing at least a portion of the gas stream through one or more variable-resistance power-recovery turbine to control the flowrate of the gas stream and generate electric power therefrom, wherein the flowrate to the one or more power-recovery turbine varies by less than about 10%; controlling a pressure and temperature of the gas stream through the one or more power-recovery turbines so that the gas exiting the one or more power-recovery turbine remains in the gas phase; measuring the flowrate using turbine revolutions per minute of the one or more power-recovery turbine and a load on a circuit; receiving information from a plurality of pressure reducing devices, the plurality of pressure reducing devices comprising: the one or more power-recovery turbine, a control valve, or, both; determining a power loss value or a power generated value for each of the pressure reducing devices; determining a total power loss value or a total power generated value based upon the power loss values or the power generated values from each of the pressure reducing devices; and, displaying the total power loss value or the total power generated value on at least one display screen. 16. The process of claim 15 further comprising replacing a control valve with the one or more power-recovery turbine before directing the at least the portion of the gas stream through the one or more power-recovery turbine. 17. The process of claim 15 wherein the one or more power-recovery turbine is used in conjunction with a control valve, and further comprising directing a second portion of the gas through the control valve. 18. The process of claim 17 wherein the portion of the gas stream directed through the one or more power-recovery turbine is greater than the second portion of the gas stream directed though the control valve. 19. The process of claim 15 further comprising controlling the flowrate by varying one or more of the speed or shaft torque of the one or more power-recovery turbine.