Fluid systems for machines with integrated energy recovery circuit

What is claimed is: 1. A fluid system for a machine, the machine including a linkage, the fluid system comprising: an actuator configured to manipulate the linkage; an accumulator configured to store, under pressure, a fluid discharged by the actuator; a pilot circuit fluidly coupled to the accumulator, and configured to receive the fluid from the accumulator; and a pressure reducing valve positioned between the accumulator and the pilot circuit to regulate the pressure of the fluid delivered to the pilot circuit from the accumulator. 2. The fluid system of claim 1 , wherein the linkage comprises at least one of a boom or a stick. 3. The fluid system of claim 1 further comprising a primary power source configured to fluidly power the actuator. 4. The fluid system of claim 1 further comprising a secondary power source configured to be fluidly powered by the accumulator, the secondary power source configured to be selectively and fluidly coupled to the pilot circuit. 5. The fluid system of claim 4 further comprising a regenerative circuit for selectively and fluidly coupling the secondary power source to the actuator. 6. The fluid system of claim 4 further comprising a fan circuit including a fan unit, the fan circuit fluidly coupled to the accumulator and configured to receive the fluid from the accumulator. 7. The fluid system of claim 6 further comprising a fan control valve positioned between the fan circuit and the accumulator and upstream of the pressure reducing valve. 8. The fluid system of claim 6 , wherein the secondary power source is configured to be selectively and fluidly coupled to the fan circuit. 9. A hydraulic system for a machine, the machine including a linkage, the hydraulic system comprising: an actuator configured to manipulate the linkage; a primary power source configured to fluidly power the actuator; an energy recovery circuit configured to operate in a first mode and a second mode, the energy recovery circuit including: an accumulator configured to store under pressure a fluid discharged by the actuator; a pilot circuit fluidly coupled to the accumulator and configured to receive the fluid from the accumulator; a fan circuit fluidly coupled to the accumulator and configured to receive the fluid from the accumulator; and a secondary power source configured to be selectively and fluidly coupled with the pilot circuit and the fan circuit, wherein in the first mode, the accumulator is configured to fluidly power at least one of the fan circuit and the pilot circuit, and in the second mode, the secondary power source is configured to fluidly power at least one of the fan circuit and the pilot circuit. 10. The hydraulic system of claim 9 , wherein the linkage is one of a boom or a stick. 11. The hydraulic system of claim 9 further comprising a pressure reducing valve positioned between the accumulator and the pilot circuit to regulate the pressure of the fluid delivered to the pilot circuit from the accumulator. 12. The hydraulic system of claim 11 further comprising a fan control valve positioned between the fan circuit and the accumulator and upstream of the pressure reducing valve, the fan control valve configured to regulate the pressure of the fluid delivered to the fan circuit from the accumulator. 13. The hydraulic system of claim 9 further comprising a regenerative circuit that selectively and fluidly couples the secondary power source to the actuator. 14. The hydraulic system of claim 9 , wherein the secondary power source is drivingly coupled to the primary power source and configured to be selectively and fluidly coupled with the accumulator. 15. A method for recovering energy in a fluid system of a machine, the method comprising: storing in an accumulator, a fluid under pressure, the fluid being discharged by an actuator of a linkage of the machine; and delivering the fluid from the accumulator to a pilot circuit of the machine to fluidly power the pilot circuit, the pressure of the fluid delivered to the pilot circuit being regulated by a pressure reducing valve. 16. The method of claim 15 further comprising fluidly powering the pilot circuit by a secondary power source if an output fluid pressure of the accumulator falls below a predefined fluid pressure threshold. 17. The method of claim 15 further comprising delivering the fluid from the accumulator to a fan circuit of the machine to fluidly power the fan circuit. 18. The method of claim 17 further comprising regulating delivery of the fluid from the accumulator to the fan circuit by a fan control valve. 19. The method of claim 17 further comprising fluidly powering the fan circuit by a secondary power source if an output fluid pressure of the accumulator falls below a predefined fluid pressure threshold. 20. The method of claim 19 further comprising delivering the fluid from the secondary power source to the actuator by a regenerative circuit.