This project uses kitchen waste biogas as raw material and employs WOBO's 3000Nm³/h biogas reforming hydrogen production technology and complete equipment. After evaluation, all technical indicators meet the design requirements.

As the global demand for renewable energy continues to grow, biogas is receiving widespread attention as a key renewable energy resource. Kitchen waste is a significant subcategory of renewable resources, and waste hydrogen production is becoming a new trend in green hydrogen development. This method is even more environmentally friendly than "green hydrogen," effectively addressing urban waste problems while reducing hydrogen production costs.

The equipment uses biogas generated from the fermentation of kitchen waste, employing technologies such as wet desulfurization and PSA. After purification and conversion, it produces economically viable and carbon-reducing hydrogen. Part of the hydrogen is delivered to customers, and part is pressurized and filled into tube trailers, reducing energy loss and creating a profit for the company. This innovative solution supports the sustainable development of the project, maximizing resource utilization while minimizing environmental impact, and opening new prospects for green energy conversion.

After rigorous acceptance testing, the biogas-to-hydrogen project has achieved significant results. The production process is stable and reliable, the hydrogen output meets the expected targets, and the hydrogen purity and quality conform to standards.

In the future, WOBO will continue to focus on technological innovation and industrial promotion, expand production scale, improve hydrogen production efficiency, and continuously optimize environmental protection measures. We look forward to the widespread application of biogas-to-hydrogen technology domestically and internationally, promoting the adoption of clean energy and achieving carbon reduction goals, thus creating a better sustainable future for humanity.