The
FH2R can produce as much as 1,200 Nm3 of hydrogen per hour (rated power operation) using renewable energy. Renewable energy output is subject to large fluctuations, so FH2R will adjust to supply and demand in the power grid in order to maximize utilization of this energy while establishing low-cost, Green hydrogen production technology.
Hydrogen produced at FH2R will also be used to power stationary hydrogen fuel cell systems and to provide for the mobility devices, fuel cell cars and buses, and more.
Today an opening ceremony was held on-site at FH2R to celebrate its completion.
Project Outline
Hydrogen, a concentrated energy source that can be stored for long periods of time and transported over long distances, has emerged as the fuel of choice for a wide variety of applications including cogeneration in fuel cell batteries, and for fuel cell vehicles. Hydrogen supply systems in the future are expected to generate hydrogen from renewable energy sources, and the entire cycle from generation to use is expected to be completely CO2-free.
With sights set on expanding the use of renewable energy, Toshiba ESS,
Renewable energy is subject to large output fluctuations, so FH2R aims to maximize its utilization and establish low-cost, Green hydrogen production technology without the use of storage batteries by adjusting to supply and demand in the power grid.
Hydrogen produced at the facility will also be used to power stationary fuel cell batteries and to support the mobility of fuel cell battery-powered cars and buses, and more.
Overview of Fukushima Hydrogen Energy Research Field (FH2R)
FH2R uses 20MW of solar power generation facilities on a 180,000m2 site along with power from the grid to conduct electrolysis of water in a renewable energy-powered 10MW-class hydrogen production unit, the largest in the world. It has the capacity to produce, store, and supply up to 1,200 Nm3 of hydrogen per hour (rated power operation).
Hydrogen is produced and stored based on the hydrogen demand and supply forecasting system's forecasts for hydrogen demand in the market. Adjustments to balance supply and demand in the power grid can be made by adjusting the hydrogen volume produced by the hydrogen production unit to meet the power grid adjustment needs of the power grid control system. The most important challenge in the current stage of testing is to use the hydrogen energy management system to achieve the optimal combination of production and storage of hydrogen and power grid supply-demand balancing adjustments, without the use of storage batteries.
To address this challenge, testing will begin to identify the optimal operation control technology that combines power grid demand response with hydrogen supply and demand response, using units of equipment that each have their own different operating cycles.
Hydrogen produced at FH2R will mainly be transported in Hydrogen tube trailers and hydrogen bundles, to be supplied to users in Fukushima Prefecture, the
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