Liquid hydrogen pump and methods

What is claimed is: 1 . A toolbox system for replacing a boost pump within a pump canister arrangement of an aircraft fuel system, the pump canister arrangement including a pump canister mounted to a pad bounding a fuel tank, the pad defining a cavity extending from the fuel tank to an exterior of the pad, the toolbox system comprising: a toolbox including: a toolbox body defining a main chamber having a port, the toolbox body being configured to sealingly mount to the pad so that the port aligns with the cavity, the main chamber being sized to hold a plurality of pumps, the toolbox body having a purge inlet valve, a purge outlet valve, and a suction valve;a carrier plate disposed within the main chamber of the toolbox body, the carrier plate being movable within the toolbox body to selectively align first and second sections of the carrier plate with the port of the toolbox body; anda rod extending along a length between opposite first and second ends, the first end of the rod being disposed within the main chamber, the second end being disposed outside of the toolbox body, the first end of the rod configured to engage a pump, the rod being movable within the main chamber relative to the carrier plate. 2 . The toolbox system of claim 1 , further comprising: a first gas line extending between a first gas source and the purge inlet valve of the toolbox body; a recycling line extending between a recycling chamber and the purge outlet valve; and a second gas line extending to a purge line of the pump canister arrangement, the purge line being isolated from the first gas line and from the main chamber of the toolbox body. 3 . The toolbox system of claim 2 , wherein the second gas line extends from a second gas source that holds a different gas than the first gas source. 4 . The toolbox system of claim 1 , wherein pump canister arrangement further includes: a canister mounted to the pad, the canister being positioned to be disposed within the fuel tank when the pad is mounted at the fuel tank, the canister being mounted so that a bottom opening of the canister aligns with the cavity of the pad, the canister defining a longitudinal axis extending from a bottom of the canister at the pad to a top of the canister, the canister including a discharge valve, wherein the boost pump is disposed within the canister, the boost pump extending through the bottom opening of the canister so that part of the boost pump extends into the cavity defined by the canister pad to seal part of the cavity from the fuel tank, and the boost pump including a demateable electrical connector disposed within the part of the cavity that is sealed from the fuel tank. 5 . The toolbox system of claim 4 , wherein the boost pump is an electric motor pump. 6 . The toolbox system of claim 5 , wherein the demateable electrical connector is a first demateable electrical connector; and wherein the boost pump cannister arrangement further comprises an electrical wiring harness including a second demateable electrical connector that is movably mounted within the cavity, and wherein the second demateable electrical connector is configured to mate with the first demateable electrical connector to supply power to the boost pump. 7 . The toolbox system of claim 1 , wherein the boost pump is replaced by a second boost pump by a method comprising: sealingly mounting the toolbox at the fuel tank such that the port of the toolbox aligns with the first boost pump, wherein the second boost pump is seated on the carrier plate disposed within the main chamber of the toolbox body; removing air from the main chamber by evacuating the air through a suction valve of the toolbox; closing the suction valve after removing the air from the main chamber; pumping gaseous helium through the main chamber after closing the suction valve to remove any remaining air within the main chamber; sealing an interior of the boost pump from an interior of the fuel tank; purging liquid hydrogen from the boost pump using a gas from a gas source routed through the boost pump; extracting the boost pump from the fuel tank using the rod and positioning the boost pump on the carrier plate; moving the carrier plate to align the second boost pump with the rod; and installing the second boost pump within the fuel tank using the rod. 8 . The toolbox system of claim 7 , wherein pumping gaseous helium through the main chamber comprises connecting a source of gaseous helium to the purge inlet valve and connecting a recycling chamber to the purge outlet valve. 9 . The toolbox system of claim 7 , wherein the method replacing the boost pump with the second boost pump further comprises: disconnecting an electrical connector of the boost pump from an electrical connector of an aircraft wiring loom prior to sealing the interior of the boost pump from the interior of the fuel tank; and connecting an electrical connector of the second boost pump to the electrical connector of the aircraft wiring loom after installing the second boost pump within the fuel tank.