Technology Overview
Methanol synthesis (e-methanol) is a technology that converts hydrogen into methanol, commonly used in Power-to-X projects. Methanol is an important chemical compound and can serve as a green fuel when produced from renewable energy and feedstocks. The technology is based on synthesis gas reactions involving H₂, CO, and CO₂, producing methanol through catalytic reactions and water-gas shift processes.
Technical Characteristics
There are four main processes for producing green methanol from green hydrogen:
| Process | Key Characteristics | Application/requirements |
| Direct conversion | Uses H₂ and CO₂ without CO | George Olah plant, Iceland |
| RWGS | Converts H₂ and CO₂ before synthesis | Requires CO₂ and H₂ supply |
| Co-electrolysis | Produces CO and H₂ from steam and CO₂ | Emerging technology |
| Biogas-based | Uses CH₄ and CO₂ from biogas | Requires additional H₂ for CO₂ conversion |
A typical methanol plant capacity is around 100,000 tons/year, with electricity demand of approximately 100 kWh per ton of methanol. The production cost of e-methanol remains high, due to strong dependence on the cost of green hydrogen from electrolysis and the availability of CO₂ feedstock.
Application in Vietnam
E-methanol technology has not yet been widely deployed in Vietnam.