Mobile hydrogen dispenser for fuel cell vehicles

What is claimed is: 1. A mobile hydrogen dispenser for at least partially filling a hydrogen tank of a fuel cell-powered vehicle, said dispenser comprising: a first supply line having upstream and downstream ends, the upstream end of the first supply line being adapted and configured to receive a flow of hydrogen from a hydrogen source; a first orifice plate disposed in the first supply line; a back pressure regulator disposed at the downstream end of the first supply line, the back pressure regulator being a dome-loaded or spring-and-dome loaded back pressure regulator that is adapted and configured to maintain a pressure of gas in said first supply line between said orifice plate and said back pressure regulator at or below a variable set point pressure of the back pressure regulator, the variable set point pressure being set by a pressure in a dome of the back pressure regulator; a delivery line having upstream and downstream ends, the upstream end being adapted and configured to receive a flow of hydrogen from the back pressure regulator, the downstream end of the delivery line being adapted and configured to direct the received flow of hydrogen to a hydrogen tank of a fuel cell-powered vehicle; a nozzle fluidly communicating with the downstream end of the delivery line that is adapted and configured to engage with an opening of a fuel tank of a fuel cell vehicle; a reference pressure line having an upstream end and a downstream end, the upstream end of the reference pressure line being adapted and configured to receive a flow of hydrogen from the hydrogen source; a differential pressure regulator having an inlet and an outlet, the inlet of the differential pressure regulator being in downstream flow communication with the downstream end of the reference pressure line; and a first pilot line in flow communication between the differential pressure regulator and a dome of the back pressure regulator, the differential pressure regulator being adapted and configured to maintain a constant pressure differential ΔP between a pressure of hydrogen in the reference pressure line and a pressure of hydrogen in the first pilot line. 2. The mobile dispenser of claim 1 , further comprising: a second supply line having an upstream end and a downstream end; a second orifice plate disposed in the second supply line between the upstream and downstream ends thereof, the upstream end of the second supply line being adapted and configured to receive the associated flow of hydrogen from the source at either a same pressure as that of the first supply line or at a pressure such that there is a constant difference in pressure between those of the first and second supply lines, the downstream end of the second supply line being in flow communication with the first supply line in between the first orifice plate and the back pressure regulator; and a pressure control valve disposed in the second supply line that is adapted and configured to allow a flow of hydrogen through the second supply line when a pressure in the delivery line is below a first predetermined set point pressure and to prevent a flow of hydrogen through the second supply line when a pressure in the delivery line is at or above the first predetermined set point pressure, wherein the reference pressure line is further adapted and configured to receive the associated flow of hydrogen from the source at either a same pressure as that of the second supply line or at a pressure such that there is a constant difference in pressure between those of the second supply and reference pressure lines. 3. The mobile dispenser of claim 2 , further comprising: a third supply line having an upstream end and a downstream end; a third orifice plate disposed in the third supply line between the upstream and downstream ends thereof, the upstream end of the third supply line being adapted and configured to receive the associated flow of hydrogen from the source at either a same pressure as that of the first supply line or at a pressure such that there is a constant difference in pressure between those of the first and third supply lines, the downstream end of the third supply line being in flow communication with the first supply line in between the first orifice plate and the back pressure regulator; and a pressure control valve disposed in the third supply line that is adapted and configured to allow a flow of hydrogen through the third supply line when a pressure in the delivery line is below a second fixed set point pressure and to prevent a flow of hydrogen through the third supply line when a pressure in the delivery line is at or above the second fixed set point pressure, wherein the reference pressure line is further adapted and configured to receive the associated flow of hydrogen from the source at either a same pressure as that of the second supply line or at a pressure such that there is a constant difference in pressure between those of the second supply and reference pressure lines. 4. A method of at least partially filling the hydrogen tank of a fuel cell-powered vehicle, comprising the steps of: providing the mobile dispenser of claim 1 ; placing the upstream end of the first supply line in downstream fluid communication with a source of gaseous hydrogen; placing the downstream end of the delivery line in upstream fluid communication with the vehicle tank; allowing a flow of hydrogen from the source, through the mobile dispenser, and into the vehicle tank; discontinuing said allowed flow; removing the upstream end of the first supply line from fluid communication with the source; and removing the downstream end of the delivery line from fluid communication with the vehicle tank. 5. The method of claim 1 , wherein said discontinuation of said flow automatically occurs upon reaching pressure balance between the source and the vehicle tank.