Systems and methods for protecting a turbomachine

We claim: 1. A trip throttle valve, comprising: a trip throttle valve inlet configured to receive a flow of process fluid from a process fluid source; a trip throttle valve outlet configured to fluidly communicate with a turbomachine; a throttle valve assembly defining a throttle valve chamber in fluid communication with the trip throttle valve inlet and the trip throttle valve outlet, the throttle valve assembly configured to control an amount of the process fluid flowing into the turbomachine, and the throttle valve assembly comprising a valve seat disposed within the throttle valve chamber; a valve head displaceable in the throttle valve chamber and configured in an open position to allow the process fluid to flow into the turbomachine and in a closed position to seat in the valve seat to prevent the process fluid from flowing into the turbomachine; a piston connected to the valve head via a valve stem; a biasing member disposed about the valve stem and configured to bias the piston in a first position such that the valve head is seated in the valve seat; a hydraulic cylinder configured to receive the piston and a hydraulic fluid therein; and an actuator assembly fluidly coupled with the hydraulic cylinder, the actuator assembly configured to transfer the hydraulic fluid to and from the hydraulic cylinder via a pressure differential across the piston; and a trip valve assembly configured to selectively remove hydraulic pressure from the hydraulic cylinder, the trip valve assembly comprising a plurality of trip valves fluidly coupled to the hydraulic cylinder via a first flow path and a second flow path, the plurality of trip valves comprising a first trip valve and a second trip valve arranged in fluid communication with a first pressure relief valve in the first flow path; and a third trip valve and a fourth trip valve arranged in fluid communication with a second pressure relief valve in the second flow path, the first flow path and the second flow path being in parallel with one another; and a plurality of isolation valves fluidly coupled to the hydraulic cylinder via the first flow path and the second flow path, the plurality of isolation valves comprising a first isolation valve and a second isolation valve arranged in the first flow path and configured to selectively prevent fluid communication between the first trip valve and the second trip valve and the hydraulic cylinder; and a third isolation valve and a fourth isolation valve arranged in the second flow path and configured to selectively prevent fluid communication between the third trip valve and the fourth trip valve and the hydraulic cylinder. 2. The trip throttle valve of claim 1 , wherein one or more trip valves of the plurality of trip valves are pilot-to-close check valves. 3. The trip throttle valve of claim 1 , wherein one or more isolation valves of the plurality of isolation valves are manually-operated valves. 4. The trip throttle valve of claim 1 , wherein the actuator assembly further comprises a pump fluidly coupled to the hydraulic cylinder in a closed loop configuration and configured to circulate the hydraulic fluid in the closed loop configuration. 5. The trip throttle valve of claim 4 , wherein the hydraulic cylinder defines a cylindrical chamber in which the piston is disposed, wherein the piston separates the cylindrical chamber into a first cylindrical chamber section and a second cylindrical chamber section. 6. The trip throttle valve of claim 5 , wherein the pump is reversible such that the pump may supply hydraulic fluid to either the first cylinder chamber section or the second cylinder chamber section. 7. The trip throttle valve of claim 6 , wherein the actuator assembly further comprises: a driver operatively coupled to the pump and configured to drive the pump in a first rotational direction to supply the hydraulic fluid to the first cylinder chamber section and a second rotational direction to supply the hydraulic fluid to the second cylinder chamber section; and a reservoir fluidly coupled to a suction side of the pump and configured to store additional hydraulic fluid. 8. The trip throttle valve of claim 1 , wherein: the biasing member is a spring disposed in a spring housing coupled to the hydraulic cylinder and compressible based on an amount of hydraulic fluid provided to the first cylinder chamber section; and the first pressure relief valve is fluidly coupled with a reservoir via a flow control orifice. 9. The trip throttle valve of claim 1 , wherein the first pressure relief valve and the second pressure relief valve are in fluid communication with a reservoir.