FUEL TRANSFER SYSTEMS COMPRISED

Brand Owner (click to sort) Address Description
E CAN Fuel Transfer Technologies Inc. P.O. Box 23014 Moncton, New Brunswick E1A6S8 Canada Fuel transfer systems comprised of automatic fueling nozzles; automatic fueling nozzles;Fuel transfer systems comprised of manually operable pumps; manually operable pumps;Fuel transfer systems comprised of non-metal fuel hoses, non-metal vapor hoses, and non-metal spouts; non-metal fuel hoses; non-metal vapor hoses;ELECTRONIC CANADA; E CANADA;CAN;Fuel transfer systems comprised of portable fuel containers made from plastic; portable fuel containers made from plastic;
G CAN Fuel Transfer Technologies Inc. P.O. Box 23014 Moncton, New Brunswick E1A6S8 Canada Fuel transfer systems comprised of automatic fueling nozzles and fuel pumps not for land vehicles for use with portable fuel containers;Fuel transfer systems comprised of non-metal fuel hoses and non-metal vapor hoses;G CANADA;CAN;Portable fuel containers made from plastic, namely, containers for industrial and commercial liquids not made of metal;
ZERO Fuel Transfer Technologies Inc. P.O. Box 23014 Moncton, New Brunswick E1A6S8 Canada Fuel transfer systems comprised of manually operable pumps; manually operable pump; Fuel transfer systems comprised of automatic fueling nozzles; automatic fueling nozzles; Fuel transfer systems comprised of non-metal fuel hoses, non-metal vapor hoses, and non-metal spouts; non-metal fuel hoses; non-metal vapor hoses; and non-metal spouts; Fuel transfer systems comprised of portable fuel containers made from plastic; portable fuel containers made from plastic;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Hydrogen-producing fuel processing systems, hydrogen purification membranes, hydrogen purification devices, and fuel processing and fuel cell systems that include hydrogen purification devices. In some embodiments, the fuel processing systems and the hydrogen purification membranes include a metal membrane, which is at least substantially comprised of palladium or a palladium alloy. In some embodiments, the membrane contains trace amounts of carbon, silicon, and/or oxygen. In some embodiments, the membranes form part of a hydrogen purification device that includes an enclosure containing a separation assembly, which is adapted to receive a mixed gas stream containing hydrogen gas and to produce a stream that contains pure or at least substantially pure hydrogen gas therefrom. In some embodiments, the membrane(s) and/or purification device forms a portion of a fuel processor, and in some embodiments, the membrane(s) and/or purification device forms a portion of a fuel processing or fuel cell system.