New method for methanol processing could reduce carbon dioxide emissions

Researchers at the UCLA Henry Samueli School of Engineering and Applied Science have developed a more efficient way to turn methanol into useful chemicals, such as liquid fuels, and that would also reduce carbon dioxide emissions. Methanol, which is a product of natural gas, is well-known as a common "feedstock" chemical — one that is processed into gasoline and other chemicals such as solvents, adhesives, paints and plastics. Using current methods, that processing requires high temperatures, high pressures, expensive catalysts, and typically results in the release of the greenhouse gas carbon dioxide into the atmosphere. "The boom in natural gas in North America has been a game-changer in the energy and chemical industry, however challenges include how to make natural gas processing more efficient, how to lower expensive production costs, and to reduce emissions associated with fuel production," said James C. Liao, UCLA's Ralph M. Parsons Foundation Chair in Chemical Engineering, who was the principal investigator on the research. "Our new process offers solutions to one major step of those challenges." The UCLA team's process synthesizes longer-chain molecules like butanol, which can be used for automobile fuel, under room temperature and ambient atmospheric pressures. The second key is that this process is "carbon efficient," which means that no carbon is lost in this process (no carbon dioxide is released). "That's the beautiful part of this process, it completely conserves the carbon," said Igor Bogorad, a UCLA Ph.D.