An exemplary autonomous seabased resupply system includes an unmanned blob positioned in a water body, the blob containing fuel, a pump on the blob configured to pump the fuel through a conduit to a craft, and a ballast system operable to change a vertical position of the blob in the water body.

An exemplary autonomous seabased resupply system includes an unmanned blob positioned in a water body, the blob containing fuel, a pump on the blob configured to pump the fuel through a conduit to a craft, and a ballast system operable to change a vertical position of the blob in the water body.

A device for the supply of fuel to aircraft includes an elevating arm (1) situated above a mobile trolley (1.2) and where the elevating arm (1) is articulated with respect to a shaft (1.1) between a first position that is substantially horizontal and parallel to the surface of the floor and a second elevated position; an adaptor assembly (2) integrally joined to the upper surface of the elevating arm (1) and from which a drive handle (5) emerges frontally which is configured to mobilise the mobile trolley (1.2) by multiple wheels (1.3); and an articulated clamp (3) actuated by an actuation mechanism (4) integrally joined to the adaptor assembly (2) on the lower and internal surface of the elevating arm (1) such that said the articulated clamp (3) is configured to be adjusted on a handle of the pit coupler.

A device for the supply of fuel to aircraft includes an elevating arm (1) situated above a mobile trolley (1.2) and where the elevating arm (1) is articulated with respect to a shaft (1.1) between a first position that is substantially horizontal and parallel to the surface of the floor and a second elevated position; an adaptor assembly (2) integrally joined to the upper surface of the elevating arm (1) and from which a drive handle (5) emerges frontally which is configured to mobilise the mobile trolley (1.2) by multiple wheels (1.3); and an articulated clamp (3) actuated by an actuation mechanism (4) integrally joined to the adaptor assembly (2) on the lower and internal surface of the elevating arm (1) such that said the articulated clamp (3) is configured to be adjusted on a handle of the pit coupler.

An aircraft electrical power supply system includes a fuel cell auxiliary power unit (APU) that supplies auxiliary electrical power to an aircraft, a fuel cell power plant that supplies primary electrical power to the aircraft, and a hydrogen storage unit that supplies hydrogen to the fuel cell APU and the fuel cell power plant.

The present disclosure provides systems and methods for storing, transporting, and using hydrogen. In some embodiments, the method may comprise (a) storing hydrogen fuel in one or more fuel storage modules; (b) transporting the one or more fuel storage modules to a vehicle fueling site, wherein one or more hydrogen fuel compatible vehicles are located at or near the vehicle fueling site; (c) loading the one or more fuel storage modules into the one or more hydrogen fuel compatible vehicles, wherein the one or more fuel storage modules are configured to be releasably coupled to the one or more hydrogen fuel compatible vehicles; and (d) decoupling the one or more fuel storage modules from the one or more hydrogen fuel compatible vehicles after the one or more fuel storage modules are depleted or partially depleted.

The present disclosure provides systems and methods for storing, transporting, and using hydrogen. In some embodiments, the method may comprise (a) storing hydrogen fuel in one or more fuel storage modules; (b) transporting the one or more fuel storage modules to a vehicle fueling site, wherein one or more hydrogen fuel compatible vehicles are located at or near the vehicle fueling site; (c) loading the one or more fuel storage modules into the one or more hydrogen fuel compatible vehicles, wherein the one or more fuel storage modules are configured to be releasably coupled to the one or more hydrogen fuel compatible vehicles; and (d) decoupling the one or more fuel storage modules from the one or more hydrogen fuel compatible vehicles after the one or more fuel storage modules are depleted or partially depleted.

Systems and techniques are provided for autonomous or semi-autonomous connection and disconnection of an end effector to a port, such as a refueling port associated with a fuel tank. The end effector may be coupled with a carriage system, such as a robotic arm and have a connection with a supply source. A sensor suite may be coupled with the carriage system and output optical and/or proximity data that is received at a controller system. The controller system may identify a location of the port, position the end effector in proximity with the port, and provide a connection therebetween. The controller system may identify a fiducial target associated with the port that provides for alignment with the end effector and port. The end effector may also include a compensation system to adjust a location of the end effector to a finer degree than is possible using the carriage system.

Systems and techniques are provided for autonomous or semi-autonomous connection and disconnection of an end effector to a port, such as a refueling port associated with a fuel tank. The end effector may be coupled with a carriage system, such as a robotic arm and have a connection with a supply source. A sensor suite may be coupled with the carriage system and output optical and/or proximity data that is received at a controller system. The controller system may identify a location of the port, position the end effector in proximity with the port, and provide a connection therebetween. The controller system may identify a fiducial target associated with the port that provides for alignment with the end effector and port. The end effector may also include a compensation system to adjust a location of the end effector to a finer degree than is possible using the carriage system.

A fuel storage and dispensing device that includes one or more storage tanks that are housed in a cabinet. A dispenser is fluidly attached to one or more of the storage tanks through a conduit. The dispenser includes one or more safety features to prevent inadvertent dispensing of fuel and to control the dispensing of the fuel.