Green Methanol/Methyl Alcohol/Carbinol/MeOH Equipment
Humans have long wanted to put solar energy in a bottle, carry it everywhere, and access it at any time. The use of renewable energy to electrolysis water to produce hydrogen, and then storage of hydrogen energy in the form of green methanol, with this "storage of solar energy" function, green methanol is graphically called "liquid sunlight" by scientists.
"Liquid sunlight" converts hydrogen energy into liquid fuel methanol on the basis of green hydrogen energy, and its principle is the process from renewable energy such as solar energy to hydrogen energy to methanol. In this process, both hydrogen and methanol act as energy carriers for renewable energy sources such as solar energy. Hydrogen molecular energy density is high, but the bulk density is very low, storage and transportation is difficult, the current high-pressure gas storage and liquid hydrogen storage capacity is not more than 7wt.%. The "liquid sunlight" is converted from green hydrogen energy, and its hydrogen storage capacity is much higher than that of high-pressure gaseous hydrogen and liquid hydrogen, which is easy to store and transport, and easier to achieve long-term storage and safe transportation of hydrogen, greatly alleviating safety problems, which is a huge advantage of green methanol.
E-Methanol
The production process of E-Methanol involves using electrical energy to catalytically reduce carbon dioxide and water to produce high-purity methanol without relying on traditional petroleum refining. This unique preparation method makes E-Methanol a green and sustainable liquid fuel, providing unprecedented opportunities to achieve energy transformation and build a low-carbon society.
Biomass Methanol
By adopting biomass methanol technology, we can achieve sustainable utilization of biomass resources, mitigate dependence on traditional fossil fuels, reduce greenhouse gas emissions, and make positive contributions to climate change and sustainable energy development. The development of this technology not only promotes innovation in the energy industry, but also provides important support for building a cleaner and more sustainable energy future.
Raw Material Options |
Natural Gas/Biomass/CO2 |
Flexible Capacity (TPY) |
20,000 - 1,500,000 |
High Heat Transfer Coefficient |
20% - 30% higher than tube type |
Smart Plant |
Fully automatic operation |
Equipment Standards |
ASME/TEMA |
Total Conversion Rate of CO |
>99.9% |
Environmental Friendly |
No/Low carbon emission |
We can do customization according to your needs |
Methanol is recognized as a clean, efficient and low-carbon liquid fuel, which is increasingly prominent in the field of
transportation and heat. In recent years, the energy properties of methanol have gradually emerged, and its consumption scale in the field of thermal fuel has been expanding, which has also brought new exploration directions for low-carbon energy transformation.
eMethanol, a green methanol fuel, is produced by combining captured biogenic carbon dioxide with hydrogen derived from renewable electricity sources. The carbon dioxide is captured, stored, and incorporated into the eMethanol fuel. During combustion, the stored carbon dioxide is released, and the resulting waste carbon dioxide from the recovery process can be recycled as a renewable fuel, effectively replacing fossil fuels and preventing new carbon dioxide emissions. This closed-loop system contributes to sustainable energy practices by minimizing the overall carbon footprint and promoting a circular economy for carbon utilization.
Advantages of Our Methanol Plant
* Raw Material-Natural Gas, Biomass, CO2
* Flexible Capacity-20,000TPY~1,500,000TPY
* High heat transfer co-efficient: 20% ~ 30% higher than tube type unit
* Smart Plant - Fully automatic operation
* Superior Equipment - ASME, TEMA standards
* Total Conversion Rate of CO-More than99.9%
* Environmental Friendly - No or low carbon emission
Transportation Fuel |
Chemical Industry |
Renewable Energy Storage |
Green methanol can be used as a clean-burning fuel for various modes of transportation, including cars, buses, trucks, ships, and airplanes. It has the potential to reduce greenhouse gas emissions and air pollution compared to traditional fossil fuels. |
Green methanol serves as a valuable chemical feedstock for various chemical processes, including the production of plastics, solvents, adhesives, and synthetic materials. |
Methanol can be used as a means of storing renewable energy. Through methanol synthesis using renewable hydrogen and captured CO2, excess renewable energy can be stored as methanol and later used for electricity generation when needed. |
Power Generation |
Industrial Heating |
Hydrogen Carrier |
Green methanol can be utilized in fuel cells or conventional internal combustion engines to generate electricity for stationary power applications, such as backup generators or distributed power systems. |
Methanol can be used as a fuel for industrial heating applications, replacing traditional fossil fuels like natural gas or coal, leading to reduced carbon emissions. |
Methanol can serve as a safe and efficient carrier for hydrogen, as it contains a high percentage of hydrogen by weight. It can be easier to transport and store than gaseous hydrogen. |
Carbon Dioxide Equipment |
Hydrogen Production Equipment |
Methanol Fuel Cell |
Methanol Catalyst |
Methanol Hydrogen Production Equipment |