Hydraulically controlled reciprocating pump system

What is claimed is: 1. A system for pressurizing a working fluid, the system comprising: a first piston-cylinder assembly including: a first cylinder having a first outlet through which the working fluid is exhausted at a first discharge pressure; a first pair of opposing pistons; and a first variable-volume chamber disposed between the first pair of opposing pistons, the first variable-volume chamber substantially filled with hydraulic fluid; a first control valve fluidicly coupled to the first variable-volume chamber, the first control valve actuatable to relieve hydraulic fluid from the first variable-volume chamber when the first discharge pressure exceeds a first pre-selected pressure and to enable delivery of hydraulic fluid to the first variable-volume chamber when the first discharge pressure is less than the first pre-selected pressure; and a first transducer disposed within the first variable-volume chamber and coupled between the first pair of opposing pistons such that the first transducer extends from a first piston of the first pair of opposing pistons to a second piston of the first pair of opposing pistons, wherein the first transducer is configured to measure a distance from the first piston of the first pair of opposing pistons to the second piston of the first pair of opposing pistons; wherein the first control valve is configured to adjust the first pre-selected pressure based at least partially on the distance from the first piston of the first pair of opposing pistons to the second piston of the first pair of opposing pistons measured by the first transducer. 2. The system of claim 1 , wherein the first control valve is configured to adjust the first pre-selected pressure, whereby the distance from the first piston of the first pair of opposing pistons to the second piston of the first pair of opposing pistons remains substantially constant. 3. The system of claim 1 , wherein the first discharge pressure is maintained at a substantially constant value. 4. The system of claim 1 , further comprising: a second piston-cylinder assembly including: a second cylinder having a second outlet through which the working fluid is exhausted at a second discharge pressure; a second pair of opposing pistons; and a second variable-volume chamber disposed between the second pair of opposing pistons, the second variable-volume chamber substantially filled with hydraulic fluid; a second control valve fluidicly coupled to the second variable-volume chamber, the second control valve actuatable to relieve hydraulic fluid from the second variable-volume chamber when the second discharge pressure exceeds a second pre-selected pressure and to enable delivery of hydraulic fluid to the second variable-volume chamber when the second discharge pressure is less than the second pre-selected pressure; and a second transducer coupled between the second pair of opposing pistons, wherein the second transducer is configured to measure a distance from a first piston of the second pair of opposing pistons to a second piston of the second pair of opposing pistons; wherein the second control valve is configured to adjust the second pre-selected pressure based at least partially on the distance from the first piston of the second pair of opposing pistons to the second piston of the second pair of opposing pistons measured by the second transducer; and a flowline fluidicly coupling the first variable-volume chamber and the second variable-volume chamber. 5. The system of claim 4 , wherein a pressure of hydraulic fluid within each of the first variable-volume chamber and the second variable-volume chamber is substantially the same. 6. The system of claim 5 , further comprising a one-way check valve disposed on the flowline, wherein the one-way check valve is configured to limit the flow of hydraulic fluid therethrough in only one direction. 7. The system of claim 5 , wherein the first discharge pressure and the second discharge pressure are substantially the same. 8. The system of claim 4 , wherein the first piston of the first pair of opposing pistons is displaceable by changes in a first volume of hydraulic fluid contained within the first variable-volume chamber; wherein the second piston of the first pair of opposing pistons is driven to reciprocate; wherein the first piston of the second pair of opposing pistons is displaceable by changes in a second volume of hydraulic fluid contained within the second variable-volume chamber; and wherein the second piston of the second pair of opposing pistons is driven to reciprocate. 9. The system of claim 8 , wherein the second piston of the first pair of opposing pistons and the second piston of the second pair of opposing pistons are each mechanically driven. 10. The system of claim 9 , wherein the second piston of the first pair of opposing pistons and the second piston of the second pair of opposing pistons are each driven by a rotating crankshaft. 11. A system for pressurizing a working fluid, the system comprising: a cylinder having an outlet through which the working fluid is exhausted at a discharge pressure; a plunger translatably disposed within the cylinder, the plunger including a first piston coupled thereto; a second piston disposed opposite the first piston, the second piston driven to reciprocate; a variable-volume chamber disposed between the first piston and the second piston, the variable-volume chamber substantially filled with a volume of hydraulic fluid; a hydraulic system configured to adjust the volume of hydraulic fluid within the variable-volume chamber, whereby the discharge pressure is maintained substantially at a first predetermined level; and a transducer disposed within the variable-volume chamber and coupled to each of the first piston and the second piston such that the transducer extends from the first piston to the second piston, wherein the transducer is configured to measure a distance from the first piston to the second piston. 12. The system of claim 11 , wherein the hydraulic system is configured to adjust the first predetermined level of the discharge pressure based at least partially on the distance from the first piston to the second piston measured by the transducer. 13. The system of claim 12 , wherein the hydraulic system is configured to adjust the first predetermined level of the discharge pressure whereby the distance from the first piston to the second piston remains substantially constant. 14. The system of claim 11 , wherein the hydraulic system further comprises a first control valve fluidicly coupled to the variable-volume chamber and electrically coupled to the transducer, wherein the first control valve is actuatable to increase and decrease the volume of hydraulic fluid within the variable-volume chamber. 15. The system of claim 14 , wherein the hydraulic system further comprises a first sensor electrically coupled to the first control valve and configured to measure the discharge pressure, wherein the first control valve is actuatable dependent upon the discharge pressure measured by the first sensor. 16. The system of claim 15 , wherein the first control valve is configured to increase the volume of hydraulic fluid within the variable-volume chamber when the discharge pressure measured by the first sensor is below the first predetermined level and to decrease the volume of hydraulic fluid within the variable-volume chamber when the discharge pressure measured by the first sensor is above the first predetermined level. 17. The system of claim 15 , further comprising: a sou