OnSite Generation

The OnSite Generation business segment is based on water electrolysis technology, which involves the decomposition of water into oxygen (O₂) and hydrogen gas (H
₂) by passing an electric current through a liquid electrolyte.^[4] The resultant hydrogen gas is then captured and used for industrial gas applications, hydrogen fueling applications, and is used to store renewable and surplus energy in the form of hydrogen gas.^[4] Hydrogenics' HySTAT electrolyzer products can be used both indoors and outdoors.^[4]

Power Systems

The Power Systems business segment is based on PEM fuel cell technology, which transforms chemical energy resulting from the electrochemical reaction of hydrogen and oxygen into electrical energy. (Edgar) Its HyPM products can handle electrical power outputs ranging from 1 kilowatt to 1 megawatt.^[4] The company also develops and delivers hydrogen generation products based on PEM water electrolysis.^[4]

Power to Gas

Power-to-Gas is an energy process and storage technology, which takes the excess power generated by wind turbines, solar power, or biomass power plants and converts carbon dioxide and water into methane using electrolysis, enabling it be stored.^[5][6][7] The excess electricity can then be held in existing reserves, including power and natural gas grids.^[6][7] This allows for seasonally adjusted storage of significant amounts of power and the provision of CO₂-neutral fuels in the form of the resulting renewable energy source gas.^[6][7]

Projects

In June 2000, General Motors and Hydrogenics released their codeveloped HydroGen1, a vehicle powered by a first generation proton exchange membrane fuel cell system.^[8] The following year, in October, the two companies developed low-pollution technology to power cars and trucks.^[17]

In December 2002, Natural Resources Canada (NRCan) selected Hydrogenics to develop a next-generation hybrid fuel cells bus; Hydrogenics integrated its vehicle-to-grid technology into a 12.5 meter New Flyer Inverno 40i transit bus.^[8] Hydrogenics' FC Hybrid Tecnobus midibus was exhibited in Europe in 2005.^[8]

In January 2010, Hydrogenics began development of a next-generation power system to be used for surface mobility applications on the moon for the Canadian Space Agency.^[2] The system includes an electrolyzer that produces both hydrogen and oxygen using solar power, and a fuel cell system that can be used for mobility, auxiliary, and life support systems.^[2] Heliocentris and FAUN Umwelttechnick collaborated with Hydrogenics to develop a hybrid waste disposal vehicle for BSR (Berliner Stadtreinigung) in August of that year.^[8]

In July 2012, Hydrogenics joined a consortium with EU members to build the world's largest steady state hydrogen storage facility in the Puglia region of Italy.^[18] The system is part of the R&D smart grid project "INGRID."^[12][18]

In April 2013, Hydrogenics won a contract to supply a 1 megawatt hydrogen energy storage system to German utility E.ON in Hamburg.^[19] The system will use electrolyzers based on Hydrogenics' proton exchange membrane (PEM) technology for hydrogen production and use excess power generated from regional renewable energy sources, primarily wind energy.^[19] In November the first of E.ON's P2G facilities provided by Hydrogenics became operational.^[15] The Falkenhagen facility uses wind-powered electrolysis equipment to transform water to hydrogen, which is then mixed with natural gas.^[3][15]

In February 2014, Hydrogenics was awarded two projects with the United Kingdom government.^[20] Hydrogenics will provide its technology to build hydrogen fuel stations throughout the UK.^[12][20]

Hydrogenics was selected as a Preferred Respondent for a power-to-gas project in Ontario by the Independent Electricity System Operator.^[21][22] (IESO), a corporation responsible for operating the electricity market and directing the operation of the bulk electrical system in the province of Ontario, Canada, in July 2014.