Method And System For Delivering A Gaseous Fuel Into The Air Intake System Of An Internal Combustion Engine

What is claimed is: 1 . A method for delivering a fuel in a gaseous state into an air intake system of a gaseous fuelled internal combustion engine, the method comprising: (a) determining a required fuel supply pressure according to an operating condition of said engine; (b) measuring pressure in a vapor space of a storage vessel which stores said fuel; (c) comparing said measured pressure to said required fuel supply pressure; and either of: (d) supplying said fuel in said gaseous state from said vapor space in said storage vessel when said measured pressure is equal to or higher than said required fuel supply pressure; or (e) activating a fuel pump and delivering fuel from a liquid space in said storage vessel when said measured pressure is lower than said required fuel supply pressure. 2 . The method of claim 1 , wherein determining said required fuel supply pressure comprises first determining a required engine intake pressure as a function of engine operating conditions and then adding to it a predetermined pressure threshold. 3 . The method of claim 2 , further comprising determining said predetermined pressure threshold as a function of said engine operating condition. 4 . The method of claim 1 , wherein the step of activating said fuel pump comprises supplying hydraulic fluid from a hydraulic pump to a hydraulic drive unit that drives said fuel pump. 5 . The method of claim 4 , wherein said hydraulic pump is driven by an electric motor operating independently from operation of said internal combustion engine. 6 . The method of claim 4 , wherein said hydraulic pump is a first one of at least two hydraulic pumps, the method further comprising electrically activating at least one additional hydraulic pump to deliver hydraulic fluid to said hydraulic drive unit when a commanded hydraulic fluid flow rate is higher than that which can be supplied by said first one of at least two hydraulic pumps. 7 . The method of claim 1 , further comprising increasing the temperature of said fuel by flowing it through a heat exchanger. 8 . The method of claim 7 , further comprising increasing heat exchange rate in said heat exchanger when said fuel is supplied from said liquid space, compared to when said fuel is supplied from said vapor space. 9 . The method of claim 1 , wherein said storage vessel is a first one of a plurality of storage vessels each having a respective vapor space and a liquid space, the method further comprising: (f) measuring pressure in said vapor space of each one of said plurality of storage vessels; (g) comparing measured pressure in said vapor space of each one of said plurality of storage vessels with said required fuel supply pressure; and either of: (h) supplying said fuel from said vapor space of any one of said plurality of storage vessels in which vapor pressure is higher than said required system fuel supply pressure; or (i) activating said fuel pump and supplying said fuel from one of said plurality of storage vessels when none of said plurality of storage vessels has a vapor pressure higher than said required system fuel supply pressure. 10 . The method of claim 9 , further comprising measuring the amount of fuel in each of said plurality of storage vessels and, when activating said fuel pump, supplying said fuel from one of said plurality of storage vessels that has the most of said fuel. 11 . The method of claim 1 , wherein said storage vessel is a first one of a plurality of storage vessels each having a respective vapor space and liquid space, and each having a respective fuel pump, the method further comprising: (f) measuring pressure in said vapor space of each one of said plurality of storage vessels; (g) comparing measured pressure in said vapor space of each one of said plurality of storage vessels with said required fuel supply pressure; and either of: (h) supplying said fuel from said vapor space of any one of said plurality of storage vessels in which vapor pressure is higher than said required system fuel supply pressure; or (i) selecting and activating one of said fuel pumps and supplying said fuel from an associated one of said plurality of storage vessels when none of said plurality of storage vessels has a vapor pressure higher than said required system fuel supply pressure. 12 . The method of claim 11 , wherein selecting one of said fuel pumps that is to be activated is determined by operating each one of said fuel pumps in sequential order. 13 . The method of claim 11 , wherein selecting one of said fuel pumps that is to be activated is determined by measuring the amount of fuel in each one of said plurality of storage vessels and selecting the one of said plurality of fuel pumps that is associated with the storage vessel that has the most of said fuel. 14 . The method of claim 11 , further comprising increasing the temperature of said fuel by flowing it through a heat exchanger associated with a respective storage vessel from which fuel is supplied to said engine. 15 . A system for delivering a fuel in a gaseous state into an air intake system of a gaseous fuelled internal combustion engine, the system comprising: (a) a storage vessel for holding said fuel; (b) a fuel pump fluidly connected to receive fuel from a liquid space of said storage vessel; (c) a liquid supply line in fluid communication with a discharge outlet of said fuel pump for delivering fuel from said discharge outlet of said fuel pump to a delivery line which delivers fuel to said engine; (d) a vapor supply line in fluid communication with a vapor space of said storage vessel for delivering fuel in a gaseous state from said vapor space to said delivery line; (e) a pressure sensor for measuring vapor pressure in said vapor space of said storage vessel; and (f) a controller which receives pressure measurements from said pressure sensor, determines a required fuel supply pressure according to an operating condition of said engine and compares said measured pressure to said required fuel supply pressure, wherein said controller commands said fuel pump to operate when said measured pressure is lower than said required fuel supply pressure. 16 . The system of claim 15 , further comprising a heat exchanger placed in said delivery line for increasing the temperature of said fuel being supplied to said engine. 17 . The system of claim 15 , further comprising a hydraulic pump which supplies hydraulic fluid to a hydraulic drive unit that drives said fuel pump. 18 . The system of claim 17 , wherein said hydraulic pump is driven by an electric motor operating independently from operation of said engine. 19 . The system of claim 17 , wherein said hydraulic pump is a first one of at least two hydraulic pumps which can be electrically activated to deliver hydraulic fluid to said hydraulic drive unit that drives said fuel pump. 20 . The system of claim 17 , wherein said fuel pump is disposed within a cryogenic space of said storage vessel. 21 . The system of claim 17 , wherein said engine is the prime mover for a vehicle. 22 . The system of claim 17 , wherein said storage vessel is a first one of a plurality of storage vessels each having a respective vapor space and a liquid space, and being fluidly connected to said fuel pump, and wherein said controller is programmed to activate said fuel pump to supply fuel from said liquid space of one of said plurality of storage vessels when none of said plurality of storage vessels has