Hydraulic circuit including hydraulic decompression energy reclamation

We claim: 1. A hydraulic circuit, comprising: a prime mover that is configured to generate flow of hydraulic fluid within the hydraulic circuit, the prime mover including a prime mover A port and a prime mover B port; an actuator that includes an actuator A port that is connected to the prime mover A port via a first fluid line, and an actuator B port that is connected to the prime mover B port via a second fluid line, the actuator being configured to a) provide a motion that oscillates between an advancing stroke in a first direction and a retracting stroke in second direction that is opposed to the first direction, the motion achieved via hydraulic fluid provided by the prime mover via the first and second fluid lines, and b) be connected to a load in each of the advancing stroke and the retracting stroke; and a reclamation device that is disposed in the hydraulic circuit between the prime mover and the actuator, wherein the prime mover comprises: a motor; a primary pump that is driven by the motor, the primary pump including a first pump port connected to the prime mover A port via the first fluid line and a second pump port connected to the prime mover B port via the second fluid line; a main accumulator; and a charge pump that is connected to the first fluid line via a first valve and to the second fluid line via a second valve, the charge pump configured to draw fluid from the main accumulator and maintain a minimum pressure in the first fluid line and the second fluid line, and the reclamation device comprises a reclamation accumulator, the reclamation accumulator is connected to, and configured to deliver fluid having a fluid pressure that is greater than the minimum pressure to, the first fluid line via a third valve and the second fluid line via a fourth valve, the fluid having a fluid pressure greater than the minimum pressure is prevented from flowing from the first fluid line to the main accumulator by a fifth valve, the fluid having a fluid pressure greater than the minimum pressure is prevented from flowing from the second fluid line to the main accumulator by a sixth valve, and the reclamation device is configured to capture and store a portion of hydraulic fluid displaced from the actuator during a transition between the advancing stroke and the retracting stroke, where the portion of hydraulic fluid corresponds to an amount of hydraulic fluid equal to a volume of fluid required to compensate for compression of fluid within the hydraulic circuit due to system pressure and load pressure. 2. The hydraulic circuit of claim 1 , wherein the reclamation accumulator is connected to the first fluid line via a first branch line and is connected to the second fluid line via a second branch line; the third valve is a control valve disposed in the first branch line between the reclamation accumulator and the first fluid line; and the fourth valve is a control valve disposed in the second branch line between the reclamation accumulator and the second fluid line, and wherein the first branch line is connected to the first fluid line at a location between the prime mover A port and the actuator A port, and the second branch line is connected to the second fluid line at a location between the prime mover B port and the actuator B port. 3. The hydraulic circuit of claim 1 , wherein the hydraulic circuit is a closed circuit, and the primary pump is a bi-direction fluid pump that is driven by a variable speed electric motor. 4. The hydraulic circuit of claim 1 , wherein the actuator is a linear actuator. 5. The hydraulic circuit of claim 1 , wherein the actuator comprises: a cylinder; a piston disposed in the cylinder that segregates an interior space of the cylinder into a first chamber that includes the actuator A port and a second chamber that includes the actuator B port; a first rod disposed in the first chamber and having a first end that is connected to one side of the piston, and a second end that is configured to be connected to a load; and a second rod disposed in the second chamber and having a first end that is connected to another side of the piston, and a second end that is configured to be connected to a load. 6. The hydraulic circuit of claim 1 , wherein the actuator comprises: a cylinder; a piston disposed in the cylinder that segregates an interior space of the cylinder into a first chamber that includes the actuator A port and a second chamber that includes the actuator B port; and a rod disposed in the second chamber and having a first end that is connected to one side of the piston, and a second end that is configured to be connected to a load. 7. The hydraulic circuit of claim 1 , wherein the hydraulic circuit is a closed circuit, the primary pump is a bi-direction fluid pump that is driven by a variable speed electric motor, and the actuator comprises: a cylinder; a piston disposed in the cylinder that segregates an interior space of the cylinder into a first chamber that includes the actuator A port and a second chamber that includes the actuator B port; a first rod disposed in the first chamber and having a first rod first end that is connected to one side of the piston, and a first rod second end that is configured to be connected to a load; and a second rod disposed in the second chamber and having a second rod first end that is connected to another side of the piston, and a second rod second end that is configured to be connected to a load. 8. The hydraulic circuit of claim 1 , wherein the main accumulator is a gas charged expansion tank that is sized to store excess hydraulic fluid volume from the actuator, the prime mover and the reclamation device. 9. The hydraulic circuit of claim 1 , wherein the prime mover comprises: a pressure relief device connected to the first fluid line at a location between the first pump port and the prime mover port A and connected to the second fluid line at a location between the second pump port and the prime mover port B. 10. The hydraulic circuit of claim 1 , wherein the charge pump is connected to the first fluid line at a location between the first pump port and the prime mover port A, and the charge pump is connected to the second fluid line at a location between the second pump port and the prime mover port B.