System and method for controlling hydraulic fluid flow within a work vehicle

The invention claimed is: 1. A system for controlling hydraulic fluid flow within a work vehicle, the system comprising: a hydraulic load; a pump configured to supply hydraulic fluid to the hydraulic load via a fluid supply conduit; a flow control valve fluidly coupled to the fluid supply conduit upstream of the hydraulic load; a load sense conduit fluidly coupled to the fluid supply conduit downstream of the flow control valve, the load sense conduit configured to receive a bleed flow of the hydraulic fluid from the fluid supply conduit such that an operation of the pump is controlled based on a pressure of the bleed flow within the load sense conduit; a load sense valve fluidly coupled to the load sense conduit, the load sense valve configured to adjust the pressure of the bleed flow within the load sense conduit; a pressure sensor configured to capture data indicative of a pressure of the hydraulic fluid within the fluid supply conduit downstream of the flow control valve; and a computing system communicatively coupled to the pressure sensor, the computing system configured to: determine the pressure of the hydraulic fluid within the fluid supply conduit downstream of the flow control valve based on the data captured by the pressure sensor; and control an operation of the load sense valve to selectively adjust the pressure of the bleed flow within the load sense conduit based on the determined pressure. 2. The system of claim 1 , further comprising: a pump compensator fluidly coupled to the load sense conduit such that the pump compensator receives the bleed flow from the load sense conduit, the pump compensator being configured to control the operation of the pump based on the pressure of the received bleed flow. 3. The system of claim 2 , wherein, when controlling the operation of the load sense valve, the computing system is configured to control the operation of the load sense valve in a manner that selectively reduces the pressure of the bleed flow received by the pump compensator such that a pressure of the hydraulic fluid discharged by the pump is selectively reduced. 4. The system of claim 1 , further comprising: a flow sensor configured to capture data indicative of a flow rate of the hydraulic fluid within the fluid supply conduit downstream of the flow control valve, wherein the computing device is further configured to: determine the flow rate based on the data captured by the flow sensor; and control the operation of the load sense valve to selectively adjust the pressure of the bleed flow within the load sense conduit based on the determined pressure and the determined flow rate. 5. The system of claim 4 , wherein the pressure sensor corresponds to a first pressure sensor and the pressure of the hydraulic fluid within the fluid supply conduit downstream of the flow control valve corresponds to a first pressure, the system further comprising: a second pressure sensor configured to capture data indicative of a second pressure of the hydraulic fluid being discharged by the pump, the computing system further configured to: determine the second pressure based on the data captured by the second pressure sensor; and control the operation of the load sense valve to adjust the pressure of the bleed flow within the load sense conduit based on the determined first and second pressure sand the determined flow rate. 6. The system of claim 5 , wherein the flow sensor corresponds to a first flow sensor and the flow rate of the hydraulic fluid within the fluid supply conduit downstream of the flow control valve corresponds to a first flow rate, the system further comprising: a second flow sensor configured to capture data indicative of a second flow rate of the hydraulic fluid being discharged by the pump, the computing system further configured to: determine the second flow rate based on the data captured by the second flow sensor; and control the operation of the load sense valve to adjust the pressure of the bleed flow within the load sense conduit based on the determined first and second pressures and the determined first and second flow rates. 7. The system of claim 1 , wherein the load sense valve comprises a pilot-operated valve. 8. The system of claim 7 , wherein the pilot-operated valve comprises an electronically controlled solenoid. 9. The system of claim 1 , wherein the bleed flow is retained within the load sense conduit when the pressure of the bleed flow is adjusted by the load sense valve. 10. The system of claim 1 , further comprising: a compensator valve fluidly coupled to the fluid supply conduit upstream of the flow control valve, the compensator valve configured to maintain a constant pressure drop across the flow control valve. 11. A system for controlling hydraulic fluid flow within a work vehicle, the system comprising: a first hydraulic load; a second hydraulic load in parallel with the first hydraulic load; a pump configured to supply hydraulic fluid to the first hydraulic load via a first fluid supply conduit and the second hydraulic load via a second fluid supply conduit; a first flow control valve fluidly coupled to the first fluid supply conduit upstream of the first hydraulic load; a second flow control valve fluidly coupled to the second fluid supply conduit upstream of the second hydraulic load; a load sense conduit fluidly coupled to the first and second fluid supply conduits downstream of the first and second flow control valves, respectively, the load sense conduit configured to receive a bleed flow of the hydraulic fluid from the first or second fluid supply conduit in which the hydraulic fluid is at a greater pressure such that an operation of the pump is controlled based on a pressure of the bleed flow within the load sense conduit; a load sense valve fluidly coupled to the load sense conduit, the load sense valve configured to adjust the pressure of the bleed flow within the load sense conduit; a first pressure sensor configured to capture data indicative of a first pressure of the hydraulic fluid within the first fluid supply conduit downstream of the first flow control valve; a second pressure sensor configured to capture data indicative of a second pressure of the hydraulic fluid within the second fluid supply conduit downstream of the second flow control valve; and a computing system communicatively coupled to the first and second pressure sensors, the computing system configured to: determine the first and second pressures based on the data captured by the first and second pressure sensors; and control an operation of the load sense valve to selectively adjust the pressure of the bleed flow within the load sense conduit based on the determined first and second pressures. 12. The system of claim 11 , further comprising: a pump compensator fluidly coupled to the load sense conduit such that the pump compensator receives the bleed flow from the load sense conduit, the pump compensator being configured to control the operation of the pump based on the pressure of the received bleed flow. 13. The system of claim 12 , wherein, when controlling the operation of the load sense valve, the computing system is configured to control the operation of the load sense valve in a manner that selectively reduces the pressure of the bleed flow received by the pump compensator such that a pressure of the hydraulic fluid discharged by the pump is selectively reduced. 14. The system of claim 11 , further comprising: a first flow sensor configured to capture data indicative of a first flow rate of the hydraulic fluid within the first fluid supply conduit downstream o