Huade Hydrogen Energy has successfully delivered and accepted the Green Energy Materials Research Center's Hydrogen-Electricity Green Energy Key Materials and System Integration Laboratory project at Shenzhen MSU-BIT University. This marks the creation of China’s first full-chain, off-grid "Green Electricity to Green Hydrogen-Solid-State Hydrogen Storage-Low-Temperature PEM Fuel Cell" demonstration platform for academic research and education.

This innovative skid-mounted laboratory integrates photovoltaic power generation + hydrogen production and storage, forming a self-sustaining energy system completely independent of the municipal power grid. With zero carbon emissions, this platform not only supports research and teaching but also serves as a replicable, scalable model for sustainable, off-grid, zero-carbon energy solutions at universities and research institutions.

A Cutting-Edge Collaboration

Shenzhen MSU-BIT University, a Sino-foreign cooperative university jointly established by the Shenzhen Municipal Government, Beijing Institute of Technology, and Lomonosov Moscow State University, is dedicated to advancing scientific research and education. Positioned at the intersection of innovation and national strategic priorities, the university is focused on high-level research and serving initiatives like China’s Belt and Road and the Guangdong-Hong Kong-Macao Greater Bay Area.

The Green Energy Materials Research Center at SMBU is committed to carbon-neutral renewable energy solutions, with a focus on hydrogen coupling technologies. Its new Green Power-Hydrogen Energy Nexus Hub aims to push the boundaries of sustainable energy research, and Huade Hydrogen Energy is proud to be a key partner in realizing this vision.

Innovative Energy Solutions for Future Research

In response to the university’s stringent safety and environmental standards, Huade proposed an advanced smart energy microgrid system solution. This system, built around hydrogen energy, integrates a photovoltaic power generation-battery energy storage-fuel cell cogeneration model, ensuring a stable, low-carbon energy supply for the lab.

From concept to delivery, the system has been highly praised by the project leader. He noted that this laboratory will significantly contribute to the university’s hydrogen energy research and provide a solid foundation for future projects aimed at integrating science, industry, education, and research.

Breaking New Ground in Hydrogen Energy Solutions

With over six years of experience in the hydrogen energy sector, Huade Hydrogen Energy continues to lead with innovative solutions. The HyESS-C off-grid hydrogen fuel cell cogeneration system delivered to SMBU represents a breakthrough in overcoming the high entry barriers of hydrogen infrastructure. Through the integration of five key modules—photovoltaic power generation, energy storage, hydrogen production, hydrogen storage, and fuel cells—we’ve created a flexible, mobile container solution that’s ready to be deployed in various applications.

This intelligent system operates independently of the grid and is designed to serve multiple purposes: from educational demonstration projects to off-grid backup power, emergency rescue supply, and temporary field operations. The system showcases the versatility and potential of hydrogen energy, as well as Huade Hydrogen Energy's competitive edge in multi-energy coupling, off-grid integration, and core hydrogen technology development.

Shaping a Zero-Carbon Future

"Hydrogen-Electricity Coupling for a Zero-Carbon Future" is more than a vision—it's a reality in progress. Huade Hydrogen Energy remains committed to advancing hydrogen energy applications across industrial, commercial, and residential energy storage sectors. We will continue to innovate and deliver cutting-edge solutions that support a sustainable, zero-carbon future, partnering with like-minded organizations to drive forward the global energy transition.