HYDROGEN FUELING STATION PUMPS

Brand Owner (click to sort) Address Description
HYDROGEN 2.0 Molecular Power Systems 540 West Avenue, Suite 1011 Miami FL 331396796 Hydrogen fueling station pumps, gas compressors, hydrogen feedstock fluid mixers, hydrogen-powered generators and turbines, and auxiliary power units;Chemicals, namely, additives for treating water molecules for generation of hydrogen gas;Hydrogen gas-generation equipment and components, namely, hydrogen gas generators, hydrogen gas purifiers and apparatus, namely, hydrogen gas dispensers, hydrogen gas storage vessels, hydrogen burners and associated boilers and hydrogen safety equipment for handling and concentrating of hydrogen gas;HYDROGEN;
HYDROGEN 2.0 Joi Scientific, Inc. 505 Odyssey Way Merritt Island FL 32953 Hydrogen fueling station pumps, gas compressors, hydrogen feedstock fluid mixers, hydrogen-powered generators and turbines, and auxiliary power units;HYDROGEN TWO POINT ZERO;Chemicals, namely, additives for treating water molecules for generation of hydrogen gas;Hydrogen gas-generation equipment and components, namely, hydrogen gas generators, hydrogen gas purifiers and apparatus, namely, hydrogen gas dispensers, hydrogen gas storage vessels, hydrogen burners and associated boilers and hydrogen safety equipment for handling and concentrating of hydrogen gas;HYDROGEN;
 

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

    
Technical Examples
  1. This application relates to a fuel dispensing system and method for safely regulating transfer of fuel between a fuel dispenser and a fuel recipient. The fuel dispensing system may be used, for example, to replenish electric vehicles that use refillable electro-chemical power generation systems, such as fuel cell hybrid systems using hydrogen fuel. The system employs a combination of interlocks and other safety features specifically adapted for high-risk indoor environments. Fueling cannot commence until the dispenser and the recipient are electrically bonded to minimize the risk of spark generation. The system may include, for example, a fuel supply subsystem for preventing fuel flow except during a fueling session, an immobilization subsystem for preventing relative movement of the dispenser and the recipient during a fueling session, a communication subsystem for enabling data exchange between the dispenser and the recipient, and a leak detection subsystem for monitoring the fueling site for fuel leaks. In order to minimize or negate the risk that hazardous and/or flammable products could be exposed to the atmosphere during a fueling session, the system ensures that fueling cannot commence until multiple safety criteria are satisfied.