"Direct CO2 capture and conversion to methanol using molecular hydrogen in the same pot was never achieved before. We have now done it!" Prakash told Phys.org.

Carbon dioxide captured from air can be directly converted into methanol fuel January 2016 by Lisa Zyga

What is methanol? What are advantages and disadvantages of methanol fuel? Uses for methanol explained. Tips from professionals on how to make methanol fuel at home.

What is methanol? What are advantages and disadvantages of methanol fuel? Uses for methanol explained. Tips from professionals on how to make methanol fuel at home.

Make Way for Methanol Fuel - Green Transportation - MOTHER EARTH NEWS

Make Way for Methanol Fuel - Green Transportation

Methanol fuel could one day become a viable alternative for city folk just as ethanol fuel has already proved its value for country folk.

Sharp reveals mobile fuel cell progress | Sharp has developed a prototype of its direct methanol fuel cell (DMFC) that delivers a higher power to size ratio than any of its competitors. Buying advice from the leading technology site

Sharp reveals mobile fuel cell progress

Sharp has developed a prototype of its direct methanol fuel cell (DMFC) that delivers a higher power to size ratio than any of its competitors.

How To Make Methanol: Fuel Your Future

Making moonshine has been a way of life all over the world for a very long time. Generally you see moonshiners make they're stills when finding.

Researchers at University of Texas at Arlington have developed a novel means of creating methanol, a useful fuel, from sunlight and CO2 using CuO-Cu2O hybrid nanorod arrays.

Researchers at University of Texas at Arlington have developed a novel means of creating methanol, a useful fuel, from sunlight and using hybrid nanorod arrays.

QBEAK electric car

QBEAK electric car has a 500-mile range [Concept]

USC researchers have demonstrated a homogenous catalyst that can convert CO2 captured from the air into methanol (CH3OH). Unlike previous catalysts the new ruthenium-based catalyst doesn't decompose at high temperatures allowing it to be reused over and over again.

USC researchers have demonstrated a homogenous catalyst that can convert captured from the air into methanol Unlike previous catalysts, the new ruthenium-based catalyst doesn't decompose at high temperatures, allowing it to be reused over and

Pinterest
Search