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.

Methanol-to-hydrogen conversion offers advantages such as low investment, no pollution, and moderate production costs. It is the optimal technical choice for users lacking reliable hydrogen sources and for small to medium-scale hydrogen production, possessing strong market competitiveness.

ENERKE has independently developed methanol-to-hydrogen conversion technology, which has now reached an advanced international level. The company has obtained three national patents and compiled the GB/T 34540 "Technical Requirements for Methanol Reforming Pressure Swing Adsorption Hydrogen Production System."

ENERKE is a leading global provider of methanol-to-hydrogen systems, boasting a high market share. Their systems can achieve a single-unit capacity of up to 60,000 Nm³/h, with pressures reaching 3.3 MPa, and they excel in rapid catalyst development and updates.

●  Low Energy Consumption and Product Cost: The process is efficient, resulting in lower energy usage and reduced product costs.

●  Mature Technology: The technology is well-established, ensuring safe and reliable operation.

●  Environmentally Friendly: PSA desorption gas can be fully recycled and burned, causing no environmental pollution.

●  Accessible Raw Materials: Raw materials are easy to obtain, transport, and store, with stable prices.

●  Simple Process: The process is straightforward, requiring minimal space and investment, leading to a short payback period.

●  High Automation: The system is highly automated and easy to operate, capable of running without onsite supervision.

Methanol and desalinated water are mixed, pressurized, vaporized, and superheated before entering the reactor. In the presence of a catalyst, they react to produce a mixture of H2, CO2, CO, and other gases. This mixture then undergoes pressure swing adsorption (PSA) separation technology to produce pure or high-purity hydrogen in a single step.

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