From Lab to Industry: EPC Energy Advances PEM & AEM Electrolysis Systems for Green Hydrogen Production

As the global energy system transitions toward low-carbon solutions, hydrogen energy is emerging as a critical component of future energy infrastructure. Among various hydrogen production pathways, water electrolysis has become one of the most important technologies for producing green hydrogen.

In this transition from research to industrial deployment, reliable electrolysis equipment and robust system engineering capabilities are essential to scaling hydrogen technologies.

EPC Energy (Electro Power Cell) has long focused on electrochemical energy technologies and system engineering, continuously advancing the engineering and commercialization of water electrolysis systems. The company has established a dual-technology platform based on:

• PEM (Proton Exchange Membrane) electrolysis

• AEM (Anion Exchange Membrane) electrolysis

These platforms have been successfully translated into commercially deployable hydrogen production systems.

Building a Dual Platform: PEM and AEM Electrolysis Technologies

Water electrolysis technologies can be classified based on electrolyte type. Among them, PEM and AEM electrolysis technologies are two of the most promising pathways in today’s hydrogen economy.

PEM Electrolysis Systems

PEM electrolysis offers:

• High current density

• Fast dynamic response

• High-purity hydrogen output

These characteristics make PEM systems particularly suitable for:

• Renewable energy coupling (wind and solar)

• High-purity hydrogen applications

• Dynamic hydrogen production systems

AEM Electrolysis Systems

AEM electrolysis combines advantages of both alkaline and PEM systems, offering:

• Potential for reduced catalyst cost

• Simplified system architecture

• Improved scalability

AEM technology is widely regarded as a next-generation hydrogen production pathway, with strong potential for cost optimization and large-scale deployment.

EPC’s Engineering Approach

By developing both PEM and AEM platforms, EPC Energy provides flexible technology pathways tailored to different project requirements. The company focuses on engineering integration rather than isolated performance, enabling practical deployment across diverse hydrogen applications.

Industrialized Water Electrolysis System Platform

EPC’s hydrogen production systems are designed with industrial cabinet-based architecture, integrating:

• Electrolyzer stack

• Water management system

• Gas purification and handling system

• Automated control system

This integrated design forms a complete water electrolysis hydrogen production solution.

Intelligent Control and System Monitoring

The systems are equipped with:

• PLC-based control systems

• Industrial touch-screen interfaces

Key operational parameters are monitored in real time, including:

• System pressure

• Temperature

• Equipment status

• Safety conditions

This ensures stable, safe, and continuous operation of hydrogen production systems.

Integrated Water and Gas Management

To support long-term operation and hydrogen quality, the system includes:

• Automatic water supply and purification

• Gas purification modules

• Stable process environment control

These features ensure consistent hydrogen purity and system reliability, which are critical for industrial and energy applications.

System Engineering Capability

Through integration of:

• Electrolyzer stacks

• Power supply systems

• Water treatment systems

• Gas processing systems

EPC Energy has established a complete engineering capability for water electrolysis systems, enabling scalable deployment.

Applications of Water Electrolysis Hydrogen Systems

As hydrogen energy applications expand, demand for electrolysis-based hydrogen production systems continues to grow across multiple sectors.

EPC’s systems are designed for a wide range of applications:

• Hydrogen energy demonstration projects

• Distributed hydrogen production systems

• Fuel cell hydrogen supply

• Power-to-X energy conversion systems

• Hydrogen technology validation platforms

Through standardized equipment design and system integration, EPC enables reliable deployment of hydrogen systems across different project scales and use cases.

Enabling Real-World Hydrogen Energy Deployment

The transition to a hydrogen-based energy system requires more than technological breakthroughs—it requires engineering-ready, deployable solutions.

By combining:

• PEM and AEM electrolysis technologies

• Modular system design

• Industrial-grade integration

EPC Energy is helping bridge the gap between laboratory innovation and real-world hydrogen applications.

Conclusion

As the hydrogen economy continues to evolve, water electrolysis systems will play a central role in green hydrogen production.

The key to industrial success lies not only in technology performance, but in system stability, scalability, and engineering integration.

EPC Energy remains committed to advancing hydrogen technologies through engineering-driven system solutions, supporting the global transition toward sustainable and low-carbon energy systems.