All FAQ

Ammonia power generation uses ammonia as an energy carrier. Ammonia is converted or cracked to produce hydrogen, which is then utilized in fuel cells or power generation systems to generate electricity.

Compared with conventional fossil fuel power generation, ammonia energy can achieve low-carbon or even zero-carbon emissions during operation, making it one of the next-generation clean energy solutions.

A direct ammonia power generation system uses ammonia directly as a reactant for energy conversion.

An indirect system first converts ammonia into hydrogen, which is then supplied to hydrogen power generation systems or fuel cells.

Each approach is suitable for different system scales and application scenarios, and selection should be evaluated based on specific operational requirements.

Yes. Ammonia is widely regarded as an ideal carrier for hydrogen. Through ammonia-to-hydrogen conversion technologies, ammonia energy systems can be integrated with hydrogen power generation systems, improving overall flexibility in energy storage, transportation, and power generation.

Solid Oxide Fuel Cells (SOFCs) offer high efficiency and strong fuel flexibility. They can operate with hydrogen derived from ammonia cracking or with mixed fuels, making them one of the most promising core technologies in ammonia and hydrogen power generation systems.

Ammonia power generation systems are suitable for:

• Demonstration site deployment

• Industrial power applications

• Off-grid power systems

• Research and testing platforms

• Small- to medium-scale distributed energy systems

Systems can be modularly configured according to specific operational needs.

Demonstration site deployment refers to implementing ammonia or hydrogen power generation technologies in real operating environments for testing and validation.

It helps evaluate system stability, safety, and practical feasibility, serving as a critical stage before technology commercialization.

We provide customized energy consulting services covering:

• Requirement assessment

• System planning and architecture design

• Technology selection

• Demonstration project deployment

Our services support organizations in adopting suitable ammonia and hydrogen power generation solutions tailored to their needs.

The Materials and Technology Transfer Platform primarily supports:

• Enterprises

• Academic and research institutions

• Government organizations

It helps transform research outcomes into practical energy technologies, accelerating the deployment and industrialization of ammonia and hydrogen energy solutions.

Fuel cell stacks and testing platforms are critical components for performance validation in fuel cell and power generation systems.

They are used for:

• Efficiency testing

• Lifetime evaluation

• System optimization

and are essential for improving technology readiness and reliability.

Leading European and U.S. manufacturers possess mature technologies and extensive operational experience in fuel cells and energy equipment.

Through equipment agency and technical integration services, high-reliability ammonia and hydrogen power generation systems can be efficiently introduced and deployed.