We provide comprehensive technical services for our clients, including preliminary project design, project planning, factory construction plans, complete equipment supply, installation, and commissioning, therebyachleving turnkey projects.

Bold innovations have been made on the basis of traditional processes, significantly reducing investment costs and decreasing natural gas consumption by approximately one-third. Particularly noteworthy is the breakthrough success achieved in the technological transformation of the core equipment—such as reformer furnaces—for natural gas conversion. These advancements have been successfully tested in constructed facilities.

●  Mature Technology, Safe and Reliable Operation: The technology is mature, ensuring safe and reliable operation.

●  Simple Operation, High Automation: Operations are simple with a high degree of automation.

●  Low Operating Costs, Short Payback Period: Operating costs are low, leading to a short payback period.

●  Low Nitrogen Emissions: Utilizes low nitrogen emission technology to meet environmental requirements.

●  Optimized Furnace Structure: The cylindrical furnace structure is optimized for simplicity and high reliability.

●  Full Reburning of PSA Desorption Gas: Fully reburns desorbed gas from the PSA, reducing fuel consumption and minimizing emissions.

●  Highly Integrated Equipment: The equipment is highly integrated, modular, and occupies minimal space, requiring less investment and shorter construction time.

●  Specialized Boiler Circulation System: Utilizes proprietary technology to simplify the process, save investment, and reduce consumption.

●  Wide Range of Feedstock: Can process a wide range of feedstocks including natural gas, biogas, LPG, light naphtha, coalbed methane, landfill gas, etc.

Natural gas or other feedstocks, after being pressurized and desulfurized, are mixed with steam and introduced into a special reformer furnace. In the presence of a catalyst, the reforming reaction occurs, producing a conversion gas containing components such as H2, CO2, and CO. After recovering heat from the conversion gas, carbon monoxide (CO) is converted into hydrogen gas (H2) through a shift reaction. The shifted gas then undergoes purification through pressure swing adsorption (PSA) to obtain pure hydrogen. The tail gas from PSA is returned to the reformer furnace for combustion to recover heat.

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