An embodiment of the present invention provides a system for evaluating the safety of a hydrogen station and an evaluation method using the same, which evaluate the performance and safety of the hydrogen station in which hydrogen charging takes place, so that hydrogen charging can be done more safely and smoothly.

An embodiment of the present invention provides a system for evaluating the safety of a hydrogen station and an evaluation method using the same, which evaluate the performance and safety of the hydrogen station in which hydrogen charging takes place, so that hydrogen charging can be done more safely and smoothly.

The various systems and methods disclosed herein provide for a secure, cost effective, and high accuracy location detection. In some implementations of the system and method for high accuracy location detection, a mobile location device obtains and calculates location data from a plurality of sources without requiring expensive and power inefficient processors. In some implementations, such secure, cost effective, and high accuracy location detection by the mobile location device is used in improved vehicle based transactions, such as energy dispensing and payment management systems and methods. In some such implementations, the mobile location device communicates with remote geomapping servers and payment systems to provide automated vehicle based transactions, such as energy dispensing sessions and payment.

The various systems and methods disclosed herein provide for a secure, cost effective, and high accuracy location detection. In some implementations of the system and method for high accuracy location detection, a mobile location device obtains and calculates location data from a plurality of sources without requiring expensive and power inefficient processors. In some implementations, such secure, cost effective, and high accuracy location detection by the mobile location device is used in improved vehicle based transactions, such as energy dispensing and payment management systems and methods. In some such implementations, the mobile location device communicates with remote geomapping servers and payment systems to provide automated vehicle based transactions, such as energy dispensing sessions and payment.

A method for hazard detection and fire prevention during mobile refueling operation includes: accessing a geospatial position of a mobile refueling platform; detecting the geospatial position within a geospatial region as a first condition in a set of conditions, the geospatial region permitted for refueling operation; accessing a distance between the mobile refueling platform and a surface of an object proximal the mobile refueling platform; detecting the distance exceeding a distance threshold as a second condition in the set of conditions; accessing a concentration of a gas proximal the mobile refueling platform; detecting the concentration falling below a concentration threshold as a third condition in the first set of conditions; and in response to the set of conditions corresponding to a set of target conditions for mobile refueling operation, transmitting a control signal to open a fuel valve of the mobile refueling platform.

A method for hazard detection and fire prevention during mobile refueling operation includes: accessing a geospatial position of a mobile refueling platform; detecting the geospatial position within a geospatial region as a first condition in a set of conditions, the geospatial region permitted for refueling operation; accessing a distance between the mobile refueling platform and a surface of an object proximal the mobile refueling platform; detecting the distance exceeding a distance threshold as a second condition in the set of conditions; accessing a concentration of a gas proximal the mobile refueling platform; detecting the concentration falling below a concentration threshold as a third condition in the first set of conditions; and in response to the set of conditions corresponding to a set of target conditions for mobile refueling operation, transmitting a control signal to open a fuel valve of the mobile refueling platform.

The present disclosure relates to a power system comprising: a power unit for supplying power to a load in a building; an electric vehicle charging unit for receiving power from the power unit and charging an electric vehicle to be charged; and a control unit for controlling operations of the power unit and the electric vehicle charging unit by monitoring consumption of the load and charging of the electric vehicle. The power unit includes: a first supply unit receiving commercial power from a system connected to the building; and one or more second supply units installed in the building to self-supply power.

A gas supply marine vessel and a refueling facility are described. The gas supply marine vessel includes a hull with an upper deck having an elongated cargo cavity formed therein. Gas interface modules are disposed in the cavity and extend between hull sides, each module having a plurality of fuel vessel docking stations. A plurality of stacked fuel container assemblies are fluidically coupled to the docking stations. A gantry, is movable along the length of the cavity, straddles the cargo cavity between hull sides. An articulating crane is mounted on the gantry and it utilized to move fuel container assemblies to a fuel container depression formed in the deck of a floating refueling facility. The floating refueling facility includes a concave side to facilitate mooring adjacent a shoreline, the concave side forming angled extensions at corners of the deck with a linkspan extending from each of the angled extensions.

A gas supply marine vessel and a refueling facility are described. The gas supply marine vessel includes a hull with an upper deck having an elongated cargo cavity formed therein. Gas interface modules are disposed in the cavity and extend between hull sides, each module having a plurality of fuel vessel docking stations. A plurality of stacked fuel container assemblies are fluidically coupled to the docking stations. A gantry, is movable along the length of the cavity, straddles the cargo cavity between hull sides. An articulating crane is mounted on the gantry and it utilized to move fuel container assemblies to a fuel container depression formed in the deck of a floating refueling facility. The floating refueling facility includes a concave side to facilitate mooring adjacent a shoreline, the concave side forming angled extensions at corners of the deck with a linkspan extending from each of the angled extensions.

Method for authenticating a motor vehicle (13) at a hydrogen fuel pump (11), characterized by the following features: the motor vehicle (13) is identified based on an identifier fitted in the interior (14) of the motor vehicle (13). a key is retrieved from the motor vehicle (13) by the mobile phone (12) via a radio link, the key is transferred to the hydrogen fuel pump (11) by means of an NFC transceiver (15) and a link, which is encrypted with the key, is built up to the motor vehicle (13) by the hydrogen fuel pump (11) via a wireless computer network (16).