Independently developing industry-leading industrial grade high-performance alkaline water ALK electrolysis cells

  • An internationally leading catalyst research and development team, promoting the improvement and replacement of electrodes.
  • The energy consumption of hydrogen production equipment has decreased by 18%, accelerating the improvement of green hydrogen's competitiveness in energy transformation.

The only industrial grade seawater electrolysis equipment in the world

  • Eliminate the high dependence on pure water, significantly improve the environmental universality of hydrogen production equipment, and save freshwater resources. Provide disruptive energy consumption solutions for areas with abundant new energy electricity and scarce freshwater resources
  • Promote the development of marine resources, solve the problem of new energy electricity consumption in the ocean and islands, and help marine defense move towards deep blue.

Energy consumption records of electrolytic cells certified by international authoritative third-party SGS and multiple national patent certificates for core technologies

Electrode Technology

Manganese doped nickel/nickel oxide composite electrode

  • Our team's self-developed new type of non precious metal electrode can work stably and efficiently in alkaline electrolytes and alkaline seawater electrolytes
  • The energy consumption per cubic meter of hydrogen produced through tank testing can be reduced to 4.0-4.3 kW · h
  • The maximum working current density reaches 5000 A/㎡

Electrolytic cell technology

The world's first industrial grade seawater hydrogen production electrolysis tank/setting a global energy efficiency record

  • Our team's self-developed new type of non precious metal electrode can work stably and efficiently in alkaline electrolytes and alkaline seawater electrolytes
  • The energy consumption per cubic meter of hydrogen produced through tank testing can be reduced to 4.0-4.3 kW · h
  • The maximum working current density reaches 5000 A/m2

Turing Renewable Energy Storage System

Manganese doped nickel/nickel oxide composite electrode

  • Our team independently develops a control system for renewable energy (photovoltaic, wind power, hydropower) and applies it to the storage of renewable energy
  • Improving energy storage efficiency by suppressing the impact of renewable energy fluctuations on electrolysis hydrogen production systems
  • Fully utilize renewable energy by abandoning electricity, and efficiently electrolyze green hydrogen, which can be used in various production fields such as industry, transportation, and chemical industry
  • Achieving complete zero emissions during the energy storage cycle for renewable energy storage
Yue ICP Bei 11057395-1