Proven Hydrogen Projects: From Industrial Scale to R&D Innovation
We provides tailored project solutions to meet the unique needs of customers across various industries. With extensive experience and solid technology expertise, we serve clients worldwide, helping them achieve their project goals.
Contact Us
Hovogen offers comprehensive integrated solutions that include teams, technology, and equipment for Sinopec. They manufacture large-scale electrolysis hydrogen production systems, which were utilized in hydrogen refueling stations during the Beijing Winter Olympics.
Hovogen has supplied a customized 5-cubic meter hydrogen production unit to Tripod Nano Tech in Taiwan through OEM. This system is designed for their semiconductor production line, providing a reliable source of high-purity hydrogen essential for manufacturing processes.
Xian Jiaotong University and Gree Electric are collaborating on a small-scale off-grid solar hydrogen project. This initiative uses solar energy to power an electrolyzer, producing hydrogen from water and promoting sustainable energy solutions for remote areas.
On-site hydrogen production system for a factory, significantly reducing gas costs compared to purchasing bottled hydrogen. This on-demand H2 production system enhances efficiency and lowers operational expenses.
Focuses on the development of PEM technology for hydrogen production, specifically for use in fuel cells. The initiative aims to enhance the efficiency of hydrogen generation while ensuring high purity levels suitable for fuel cell applications.
Project focuses on providing an on-site hydrogen supply system for the chemical vapor deposition (CVD) diamond manufacturing process. By ensuring a reliable and efficient hydrogen source, the project aims to enhance the quality and consistency of CVD diamond production.
This project focuses on developing a large-scale on-site hydrogen production system with a capacity of 5 Nm³. It is designed for efficient integration with the factory's existing hydrogen production line, ensuring seamless operation and enhanced productivity.
The MOCVD Ultra-Pure Hydrogen Supply Project focuses on providing high-purity hydrogen (99.999%) to support MOCVD processes in semiconductor and materials research. This project is essential for ensuring the quality and reliability of thin film deposition.
The project combines 500 kW PV power, a 50 Nm³/h PEM electrolyzer, and a 250 kW/500 kWh battery storage system. The system converts solar energy into hydrogen via electrolysis, stores it, and generates electricity using PEM fuel cells.
The SAF synthesis process demonstration research project at East China Normal University employs Hovogen's hydrogen production equipment to advance sustainable aviation fuel development. Utilizing efficient water electrolysis to generate high-purity hydrogen.
Our company has provided a complete set of hydrogen production and pressurization equipment for a university project focused on renewable energy research. The hydrogen will be utilized in fuel cell experiments and energy storage studies.
Xian Jiaotong University is developing a project that combines PEM hydrogen production with electrochemical pressurization. This approach efficiently splits water into hydrogen and oxygen while increasing hydrogen pressure.
Sinopec is conducting a research project on integrated hydrogen production and storage equipment. The project aims to develop an efficient system that combines hydrogen production, storage, and transportation technologies.
We provide customized hydrogen production equipment with a capacity of 10Nm³ for our clients in the United States. This solution is optimized based on the specific requirements of the client's project, ensuring smooth operation.
This project focuses on the application of ultra-pure hydrogen with a purity of 99.99999% in materials laboratories. The high purity level is crucial for various experimental processes, ensuring accurate results and preventing contamination.
The project aims to provide stable and ultra-pure hydrogen (99.999%) to research institutions, enhancing their capabilities in material science and chemical engineering. By integrating solid oxide fuel cell (SOFC) technology.
10Nm³ Multi-Energy Complementary Wind-Solar Power Demonstration Project combines wind and solar energy systems to create a synergistic power generation model. By leveraging the complementary nature of wind and solar resources.
This project produces 1000 Nm³/h of hydrogen using off-grid wind power. Wind turbines generate electricity to power electrolyzers, splitting water into hydrogen and oxygen. The hydrogen can be stored for use in vehicles, industry, or energy storage.