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  • Suzhou Jingli Hydrogen Production Equipment Co., Ltd
  • ADD:No.16,Fengjin Road,Wuzhong District,Suzhou,Jiangsu,Province,
  • China
  • Hydrogen Production: Water Electrolysis
    Jul 25, 2018

    Electrolysis is a promising option for hydrogen production from renewable resources. Electrolysis is the process of using electricity to split water into hydrogen and oxygen. This reaction takes place in a unit called an electrolyzer. Electrolyzers can range in size from small, appliance-size equipment that is well-suited for small-scale distributed hydrogen production to large-scale, central production facilities that could be tied directly to renewable or other non-greenhouse-gas-emitting forms of electricity production.

    HOW DOES IT WORK?

    Like fuel cells, electrolyzers consist of an anode and a cathode separated by an electrolyte. Different electrolyzers function in slightly different ways, mainly due to the different type of electrolyte material involved.

    Alkaline Electrolyzers

    Illustration of a polymer electroyte membrane electrolyzer.

    Alkaline electrolyzers operate via transport of hydroxide ions (OH-) through the electrolyte from the cathode to the anode with hydrogen being generated on the cathode side. Electrolyzers using a liquid alkaline solution of sodium or potassium hydroxide as the electrolyte have been commercially available for many years.

    • Water reacts at the anode to form oxygen and positively charged hydrogen ions.

    • The electrons flow through an external circuit and the hydrogen ions selectively move across the memberane to the cathode.

    • At the cathode, hydrogen ions combine with electrons from the external circuit to form hydrogen gas.
      Anode Reaction: 2H2O → O2 + 4H+ + 4e-
      Cathode Reaction: 4H+ + 4e- → 2H2

    WHY IS THIS PATHWAY BEING CONSIDERED?

    Hydrogen produced via electrolysis can result in zero greenhouse gas emissions, depending on the source of the electricity used. The source of the required electricity—including its cost and efficiency, as well as emissions resulting from electricity generation—must be considered when evaluating the benefits and economic viability of hydrogen production via electrolysis. In many regions of the country, today's power grid is not ideal for providing the electricity required for electrolysis because of the greenhouse gases released and the amount of fuel required due to the low efficiency of the electricity generation process. Hydrogen production via electrolysis is being pursued for renewable (wind) and nuclear energy options. These pathways result in virtually zero greenhouse gas and criteria pollutant emissions.

    Potential for synergy with renewable energy power generation
    Hydrogen production via electrolysis may offer opportunities for synergy with variable power generation, which is characteristic of some renewable energy technologies. For example, though the cost of wind power has continued to drop, the inherent variability of wind is an impediment to the effective use of wind power. Hydrogen fuel and electric power generation could be integrated at a wind farm, allowing flexibility to shift production to best match resource availability with system operational needs and market factors. Also, in times of excess electricity production from wind farms, instead of curtailing the electricity as is commonly done, it is possible to use this excess electricity to produce hydrogen through electrolysis.

    It is important to note...

    • Today's grid electricity is not the ideal source of electricity for electrolysis because most of the electricity is generated using technologies that result in greenhouse gas emissions and are energy intensive. Electricity generation using renewable or nuclear energy technologies, either separate from the grid, or as a growing portion of the grid mix, is a possible option to overcome these limitations for hydrogen production via electrolysis.

    • The world continue efforts to bring down the cost of renewable-based electricity production and develop more efficient coal-based electricity production with carbon capture, utilization, and storage. Wind-based electricity production, for example, is growing rapidly globally.(excerpted from energy.gov)

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