Subsea fluid pressure regulation systems and methods

What is claimed is: 1. A subsea hydraulic fluid pressure regulation system, comprising: a. a hydraulic power unit for supplying hydraulic fluid, the hydraulic power unit comprising a hydraulic fluid reservoir and a hydraulic power unit pump for pumping hydraulic fluid from the hydraulic fluid reservoir into a fluid supply line; b. the fluid supply line for transporting hydraulic fluid from the hydraulic power unit to subsea equipment wherein the fluid supply line is adapted to be connected to the subsea equipment; c. a fluid return line for transporting hydraulic fluid from a subsea location in the fluid supply line upstream of the subsea equipment to the hydraulic fluid reservoir; d. a supply-side module located downstream of the hydraulic power unit, comprising: i. a circulation pump in fluid communication with the fluid return line and the fluid supply line for receiving hydraulic fluid from the fluid return line and pumping hydraulic fluid into the fluid supply line; ii. a line connecting the fluid return line with the circulation pump; iii. a line connecting the circulation pump with the fluid supply line; iv. a check valve in the line connecting the circulation pump with the fluid supply line and downstream of the circulation pump for preventing backflow of hydraulic fluid into the circulation pump; and v. a pressure transducer in the fluid supply line downstream of the circulation pump for monitoring pressure of the hydraulic fluid; and e. a demand-side module located upstream of the subsea equipment, comprising: i. a connection line connecting the fluid supply line with the fluid return line, intersecting the fluid return line at a location; ii. a diverter valve in the connection line for controlling fluid communication between the fluid supply line and the fluid return line thereby opening or closing a circuit comprising the fluid supply line and the fluid return line; and iii. a pressure transducer in the fluid supply line for monitoring pressure of the hydraulic fluid located downstream of a point of intersection of the fluid supply line and the connection line; wherein adjustments can be made to the circulation pump and the diverter valve such that hydraulic fluid is circulated through the circuit comprising the fluid supply line and the fluid return line, and such that the pressure monitored by the pressure transducer of the supply-side module is greater than the pressure monitored by the pressure transducer of the demand-side module and does not exceed twice the pressure monitored by the pressure transducer of the demand-side module. 2. A subsea hydraulic fluid pressure regulation system, comprising: a. a hydraulic power unit for supplying hydraulic fluid, the hydraulic power unit comprising a hydraulic fluid reservoir and a hydraulic power unit pump for pumping hydraulic fluid from the hydraulic fluid reservoir into a fluid supply line; b. a fluid return line adapted to be connected to subsea equipment for transporting hydraulic fluid from the subsea equipment to the hydraulic fluid reservoir; c. the fluid supply line for transporting hydraulic fluid from the hydraulic power unit to a location in the fluid return line and upstream of the subsea equipment; d. a supply-side module located downstream of the hydraulic power unit, comprising: i. a circulation pump in fluid communication with the fluid return line and the fluid supply line for receiving hydraulic fluid from the fluid return line and pumping hydraulic fluid into the fluid supply line; ii. a line connecting the fluid return line with the circulation pump; iii. a line connecting the circulation pump with the fluid supply line; iv. a check valve in the line connecting the circulation pump with the fluid supply line and downstream of the circulation pump for preventing backflow of hydraulic fluid into the circulation pump; and v. a pressure transducer in the fluid supply line downstream of the circulation pump for monitoring pressure of the hydraulic fluid; and e. a demand-side module located upstream of the subsea equipment, comprising: i. a connection line connecting the fluid supply line with the fluid return line, intersecting the fluid return line at a location; ii. a diverter valve in the connection line for controlling fluid communication between the fluid supply line and the fluid return line thereby opening or closing a circuit comprising the fluid supply line and the fluid return line; and iii. a pressure transducer in the fluid return line for monitoring pressure of the hydraulic fluid located downstream of the location of intersection of the fluid return line and the connection line; wherein adjustments can be made to the circulation pump and the diverter valve such that hydraulic fluid is circulated through the circuit comprising the fluid supply line and the fluid return line, and such that the pressure monitored by the pressure transducer of the supply-side module is greater than the pressure monitored by the pressure transducer of the demand-side module and does not exceed twice the pressure monitored by the pressure transducer of the demand-side module. 3. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the hydraulic fluid reservoir is open to the atmosphere. 4. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the fluid supply line has a fluid supply line length and the fluid return line has a fluid return line length approximately equal to the fluid supply line length. 5. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the diverter valve in the demand-side module is configured to be normally closed. 6. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the supply-side module further comprises a filter located between the check valve and the fluid supply line for removing particulate matter from the hydraulic fluid. 7. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , further comprising a variable frequency drive for varying the speed of a motor for driving the circulation pump wherein the variable frequency drive operates the circulation pump to achieve desired flow rates or pressures. 8. The subsea hydraulic fluid pressure regulation system of claim 1 , wherein the demand-side module further comprises a pressure relief valve for preventing overpressure in the fluid supply line in the event the diverter valve fails to open. 9. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the diverter valve is controlled by a control system using the pressure monitored by the pressure transducer of the demand-side module as input to achieve and maintain a predetermined pressure as monitored by the pressure transducer of the demand-side module. 10. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the circulation pump is controlled by a control system using the pressure monitored by the pressure transducer of the supply-side module and the pressure monitored by the pressure transducer of the demand-side module as inputs to achieve and maintain a predetermined pressure as monitored by the pressure transducer of the demand-side module. 11. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , wherein the demand-side module further comprises a pressure dampening accumulator for dampening sudden pressure increases and decreases associated with opening and closing the diverter valve. 12. The subsea hydraulic fluid pressure regulation system of claim 1 or claim 2 , further comprising a topside u