Apparatus and method for operating a plurality of hydraulic pumps

What is claimed is: 1. A hydraulic system for delivering hydraulic fluid to a hydraulic motor in a cryogenic pumping apparatus in an engine system fuelled with a gaseous fuel, comprising: a source of hydraulic fluid; a plurality of hydraulic pumps, respective inlets of said plurality of hydraulic pumps in fluid communication with said source of hydraulic fluid and respective outlets of said plurality of hydraulic pumps in fluid communication with a delivery line in fluid communication with said hydraulic motor; a return line from said cryogenic pumping apparatus to said source of hydraulic fluid; a controller operatively connected with said plurality of hydraulic pumps and programmed to: periodically determine a priority for each hydraulic pump as a function of predetermined criteria, wherein higher priority hydraulic pumps are operated before lower priority hydraulic pumps to supply hydraulic fluid to said hydraulic motor; determine gas flow demand of said engine system; calculate hydraulic flow demand required for said hydraulic motor to actuate said cryogenic pumping apparatus to provide said gas flow demand; select hydraulic pumps to supply said hydraulic flow demand; and operate said selected hydraulic pumps to supply said hydraulic flow demand, each hydraulic pump that is operated has an equal priority or a higher priority than each hydraulic pump that is not operated. 2. The hydraulic system of claim 1 , wherein for each hydraulic pump, priority is determined as a function of at least one of: a count of respective cumulative pumping cycles; a count of cumulative compression strokes of said cryogenic pumping apparatus while respective hydraulic pump speed is nonzero; area under respective pressure versus time curves when respective hydraulic pumps are operating; area under respective current versus time curves when respective hydraulic pumps are operating; and respective hydraulic pump status. 3. The hydraulic system of claim 1 , wherein said priority is determined when at least one of the following priority assignment events occurs: said controller is powered on; said engine system is powered on; hydraulic pump status for any one of said plurality of hydraulic pumps changes; after a predetermined amount of time since a previous priority assignment event; and said cryogenic pumping apparatus changes from a suspended state to an operational state. 4. The hydraulic system of claim 1 , wherein one of: when two or more hydraulic pumps are selected to operate each one of these hydraulic pumps provides an identical hydraulic flow rate; and when two or more hydraulic pumps are selected to operate, said selected hydraulic pump with the lowest priority supplies a hydraulic flow rate less than a maximum hydraulic flow rate, and said selected hydraulic pumps with priorities greater than the lowest priority provide said maximum hydraulic flow rate. 5. The hydraulic system of claim 1 , wherein said selected hydraulic pumps are operated in at least one of: a first mode comprising equalizing hydraulic fluid flow from each hydraulic pump within a predetermined flow tolerance; a second mode comprising equalizing power consumption of each hydraulic pump within a predetermined power tolerance; a third mode comprising equalizing hydraulic pump speed of each hydraulic pump within a predetermined speed tolerance; a fourth mode comprising equalizing volumetric flow rate versus power consumption for each hydraulic pump within a predetermined tolerance; and a fifth mode comprising selecting a power consumption for each hydraulic pump as a function of at least one of said hydraulic fluid flow rate, hydraulic fluid outlet pressure, hydraulic fluid temperature, hydraulic pump input current, hydraulic pump input voltage and hydraulic fluid viscosity whereby a power consumption is reduced compared to said first, second, third and fourth modes. 6. The hydraulic system of claim 1 , wherein one of: said plurality of hydraulic pumps are electrically driven hydraulic pumps; and said plurality of hydraulic pumps are variable displacement hydraulic pumps. 7. The hydraulic system of claim 1 , wherein at least one hydraulic pump is specified differently than the other hydraulic pumps. 8. The hydraulic system of claim 1 , further comprising a cryogenic storage vessel, wherein said engine system is fuelled with said gaseous fuel from a vapor space in said cryogenic storage vessel when pressure in said vapor space is above a predetermined value, and from a liquid space in said storage vessel when said pressure is below said predetermined value, said cryogenic pumping apparatus pressurizing gaseous fuel from said liquid space. 9. A system for delivering fuel to an internal combustion engine comprises: a fuel pump; a hydraulic motor for said fuel pump; a plurality of hydraulic pumps, arranged in parallel to pump hydraulic fluid from a hydraulic fluid reservoir to said hydraulic motor; a controller in communication with said hydraulic pumps, said controller receiving inputs and programmed to determine a commanded speed for said fuel pump, said controller further programmed to determine a priority for each hydraulic pump as a function of predetermined criteria, wherein higher priority hydraulic pumps are operated before lower priority hydraulic pumps to supply hydraulic fluid to said hydraulic motor and to determine which ones of said hydraulic pumps operate to deliver hydraulic fluid to said hydraulic motor; conduits for delivering hydraulic fluid from said reservoir to said plurality of hydraulic pumps, from said plurality of hydraulic pumps to said hydraulic motor, and then from said hydraulic motor back to said reservoir; and valves controlled by said controller to direct hydraulic fluid through said conduits. 10. The system of claim 9 , wherein said fuel pump is a cryogenic pump for pumping a liquefied gaseous fuel. 11. The system of claim 9 , wherein at least one of: said controller records operational data associated with each one of said plurality of hydraulic pumps, and factors respective hydraulic pump operational cycles into its determination of which ones of said plurality of hydraulic pumps to operate; and said controller is programmed to operate said plurality of hydraulic pumps to distribute operational cycles according to a predetermined proportion. 12. The system of claim 9 , wherein said predetermined proportion distributes operational cycles substantially evenly between system service intervals. 13. The system of claim 9 , wherein said controller determines a priority for selecting which one of said plurality of hydraulic pumps to operate, said priority being determined as a function of at least one of: a count of respective cumulative pumping cycles; a count of cumulative compression strokes of said cryogenic pumping apparatus while respective hydraulic pump speed is nonzero; area under respective pressure versus time curves when respective hydraulic pumps are operating; and area under respective current versus time curves when respective hydraulic pumps are operating. 14. The system of claim 9 , wherein said priority is determined periodically. 15. The system of claim 9 , wherein said priority is determined when one of the following events occurs: said controller is powered on; said engine system is powered on; there is a change in hydraulic pump status for any one of said plurality of hydraulic pumps; there has not been a determination of priority for more than a predetermined amount of time; and said cryogenic pumping apparatus changes from a suspended state to an op