Solutions - MEA Solutions for Core Green Hydrogen Production Scenarios

Solutions

Powered by globally leading high-performance PEM membrane-electrode technology, SHINE-HYDROGEN delivers more efficient, more stable, and more economical solutions for core hydrogen production scenarios.

Affordable Green Fuels

Drive green fuel parity

For large integrated projects spanning wind, solar, hydrogen, methanol, ammonia, and e-fuels, we provide low-cost green hydrogen solutions anchored in power-generation economics. With green hydrogen costs below RMB 10/kg, the model supports large-scale production of green methanol, green ammonia, and sustainable aviation fuel.

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challenge

Wind and solar resources are abundant but highly intermittent. Conventional hydrogen systems struggle with wide-load operation, which leads to curtailment and keeps green hydrogen costs too high for large-scale green methanol, green ammonia, and e-fuel production.

plan

Using high-current-density, wide-load, and long-life PEM water-electrolysis technology, we enable off-grid hydrogen production without dedicated storage. Variable wind and solar power is converted directly into green hydrogen, improving the overall economics of hydrogen production.

value

Green hydrogen costs can be reduced to below RMB 10/kg, unlocking commercially viable production of green methanol, green ammonia, and sustainable aviation fuel at scale.

Hydrogen over Storage

Alternative energy storage coupled with industrial greening

By coupling off-grid green hydrogen directly to hard-to-abate sectors such as chemicals and steel, this model replaces conventional industrial storage logic with immediate hydrogen production and use, lowering both energy costs and decarbonization barriers.

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challenge

When renewable generation exceeds demand, the conventional answer is energy storage. But storage requires heavy upfront investment, loses energy in conversion, and does not directly decarbonize industries such as chemicals and steel.

plan

Instead of routing excess renewable power into storage, PEM water electrolysis converts it directly into green hydrogen for nearby industrial users, creating a direct path from excess power to industrial feedstock and heat.

value

The result is lower industrial energy costs, a lower decarbonization threshold, and a practical path to on-demand deep decarbonization without large storage investments.

Alternative energy storage coupled with industrial greening

Zero-carbon Park

Building a zero carbon park energy closed-loop system

Centered on modular PEM hydrogen systems, this model links wind and solar generation, off-grid hydrogen production, and diversified end use into a stable, economical, and replicable zero-carbon energy architecture for industrial parks.

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challenge

Traditional industrial parks depend heavily on the grid and often carry a high carbon footprint. Existing distributed-energy approaches struggle to balance reliability, affordability, and zero-carbon targets at scale.

plan

Modular PEM hydrogen units integrate on-site wind and solar resources into a closed-loop energy system that supports electricity, heat, mobility, and storage, enabling on-site generation and consumption.

value

This provides stable and economical zero-carbon energy services, reduces dependence on external grids, and creates a replicable industrial-park model for regional carbon neutrality.

Building a zero carbon park energy closed-loop system

Hydrogen for Agriculture

Empowering Green Agriculture Modernization

By bringing green hydrogen into modern agriculture, this model combines hydrogen-rich water irrigation with distributed clean-energy supply to improve crop quality and strengthen on-site energy self-sufficiency.

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challenge

Modern agricultural facilities such as greenhouses and irrigation systems often rely heavily on external electricity, while practical, low-carbon methods for improving crop quality remain limited.

plan

Integrating green hydrogen technology into agricultural production, utilizing hydrogen rich water irrigation to promote crop growth and quality improvement, while using distributed hydrogen energy supply (such as hydrogen fuel cell cogeneration) to meet the electricity and heat needs of agricultural facilities.

value

Improve crop quality and agricultural energy self-sufficiency, reduce carbon emissions from agricultural production, create a new paradigm of energy solutions for "green hydrogen+modern agriculture", and promote the green transformation of agriculture.

Empowering Green Agriculture Modernization

Do you need customized solutions?

Our technical team can provide exclusive membrane electrode selection and system integration recommendations based on your specific scenario needs.

Contact the technical team