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Systems and methods for combined flow control and electricity generation are described. Various embodiments may include an energy recovery device adapted to produce an electric current. At least a portion of the electric current may be used to power a pump. A control system may be adapted to adjust

Systems and methods for combined flow control and electricity generation are described. Various embodiments may include an energy recovery device adapted to produce an electric current. At least a portion of the electric current may be used to power a pump. A control system may be adapted to adjust operating parameters of the system to stabilize or maximize the efficiency of the energy recovery device.

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1. A combined flow control and electricity generation system, comprising: a turbine driven by a high pressure inlet stream;a generator coupled to the turbine to produce an electric current;a motor powered by at least a portion of the electric current;a pump coupled to the motor, wherein the pump is

1. A combined flow control and electricity generation system, comprising: a turbine driven by a high pressure inlet stream;a generator coupled to the turbine to produce an electric current;a motor powered by at least a portion of the electric current;a pump coupled to the motor, wherein the pump is configured to drive a second stream; anda control system that senses at least one of turbine inlet pressure, turbine outlet pressure, turbine inlet flow, or turbine outlet flow, diverts at least a portion of the second stream to the turbine with the high pressure inlet stream, and adjusts at least one operating parameter of at least one of the generator and motor to affect a change in at least one operating parameter of the turbine. 2. The system of claim 1, wherein the electric current is an alternating current (AC) or a direct current (DC). 3. The system of claim 2, comprising a rectifier to condition the AC to DC. 4. The system of claim 3, comprising a DC bus for distribution of the electric current. 5. The system of claim 4, comprising a variable frequency drive electrically coupled to the DC bus and outputting a 3-phase electric current to power the motor. 6. The system of claim 1, comprising a variable frequency drive configured to accept power from a power grid. 7. The system of claim 1, comprising a plurality of motors powered by at least a portion of the electric current. 8. The system of claim 3, comprising an inverter to condition the DC to AC suitable for supply to a power grid. 9. The system of claim 1, comprising a plurality of turbines. 10. The system of claim 1, comprising a plurality of generators and a plurality of motors, wherein a number of generators is different than a number of motors. 11. The system of claim 1, wherein the control system comprises one or more devices to measure any of the turbine inlet pressure, turbine outlet pressure, turbine inlet flow, or turbine outlet flow. 12. The system of claim 1, wherein the operating parameter of the turbine comprises generating efficiency. 13. The system of claim 1, wherein the control system is adapted to sense any of turbine inlet pressure, turbine outlet pressure, turbine inlet flow, or turbine outlet flow, and adjust one or more operating parameters of one or both of the generator and motor to affect a change in the flow rate of the turbine. 14. A combined flow control and electricity generation system, comprising: an energy recovery device to extract energy from a first high energy stream and convert the energy to electrical energy;a pump powered by the electrical energy to produce a second high energy stream; anda control system operative to divert at least a portion of the second high energy stream to the first high energy stream to flow through the energy recovery device, thereby increasing the operating efficiency of the energy recovery device. 15. The system of claim 14, wherein the energy recovery device comprises a turbine and a generator. 16. The system of claim 14, comprising an inverter to condition the electrical energy for distribution to a power grid. 17. The system of claim 14, wherein the control system is operative to adjust operating parameters of the system to control a flow of the high energy stream. 18. The system of claim 14, wherein the control system is operative to adjust operating parameters of the system to control a pressure drop of the first high energy stream across the energy recovery device. 19. A method for combined flow control and electricity generation, comprising: extracting energy from a first high energy stream using an energy recovery device;converting the energy to electrical energy;using the electrical energy to power a pump, wherein the pump produces a second high energy stream;diverting at least a portion of the second high energy stream to the first high energy stream to flow through the energy recovery device, thereby increasing the operating efficiency of the energy recovery device; andsensing one or more operating parameters of the system, and adjusting one or more of the operating parameters to stabilize a pressure or flow of the high energy stream. 20. The method of claim 19, wherein converting the energy to electrical energy comprises generating AC, and rectifying the AC to DC. 21. The method of claim 19, wherein using the electrical energy to power a pump comprises supplying DC to a variable frequency drive, and using an output of the variable frequency drive to power the pump. 22. The method of claim 19, wherein sensing one or more operating parameters of the system comprises sensing one or more of pressure, flow, voltage, frequency, and amperage.