Hydrogen Energy Solution

Powering the Future with Stable, Efficient, and Affordable Clean Energy

In the face of global warming and climate change challenges, countries worldwide are actively developing renewable energy to reduce carbon emissions. Hydrogen energy, with its high heat value and low emission characteristics, is considered one of the keys to energy transition. However, the relatively high unit price of green hydrogen makes its promotion challenging.

Delta is committed to being a key force in affordable hydrogen energy solutions. Leveraging its globally leading power electronics, control, and thermal management technologies, Delta integrates hydrogen production power supply and Solid Oxide Electrolysis Cell(SOEC) to provide the market with stable, efficient, and affordable hydrogen energy solutions.

Products List

Hydrogen Power Supply for ALK Electrolyzer

Delta's hydrogen production power supply offers MW-scale and above solutions for electrolyzers. Its wide operating range of 20-110% perfectly accommodates the high fluctuation of renewable energy, delivering cost-effective and stable DC power required for water electrolysis. The modular design is scalable up to 25MW, flexibly meeting the deployment needs of various sites.

Hydrogen Power Supply for PEM Electrolyzer

Delta’s hydrogen power supply is specifically designed for PEM electrolyzers with a capacity of 500 N·m³. It effectively accommodates the high fluctuations of renewable energy and delivers stable, efficient, and cost-effective DC power required for hydrogen production. With a modular design, the system can be expanded up to 10 MW, offering flexible deployment for various application scenarios.

Solid Oxide Electrolysis Cell (SOEC) Hydrogen Production

Delta employs Solid Oxide Electrolysis Cell(SOEC) technology, utilizing medium-to-high temperature electrolysis with solid oxides as the electrolyte to reform water into hydrogen and oxygen. SOEC operates in a medium-to-high temperature environment of 500°C to 600°C, and can integrate external heat sources, such as industrial waste heat, to reduce electricity demand and enhance hydrogen production efficiency. Compared to traditional electrolysis technologies, SOEC offers higher energy conversion efficiency and is particularly suitable for integration with industrial processes, enabling low-cost, large-scale hydrogen production. This is a crucial technology for promoting green hydrogen development and achieving carbon neutrality goals.

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