Clean catalyst for methanol production
A potentially clean, low-cost way to convert carbon dioxide into methanol while reducing harmful by-products like carbon monoxide has been discovered by researchers in America. A team from Stanford University and SLAC National Accelerator Laboratory, together with colleagues from the Technical University of Denmark, discovered a new nickel-gallium catalyst that converts carbon dioxide into methanol with fewer by-products than the conventional catalyst. โMethanol is processed in huge factories at very high pressures using hydrogen, carbon dioxide and carbon monoxide from natural gas,โ said Felix Studt, lead author of the paper in Nature Chemistry and staff scientist at SLAC. โWe are looking for materials that can make methanol from clean sources under low-pressure conditions while generating low amounts of carbon monoxide.โ The teamโs ultimate goal is to develop a large-scale manufacturing process โ methanol is a key ingredient in the production of plastics, adhesives and solvents โ that is non-polluting and carbon neutral using clean hydrogen. Studt and colleagues worked to understand methanol synthesis at the molecular level and began the hunt for a new catalyst capable of synthesising the molecule at low pressures using only hydrogen and carbon dioxide using a massive computerised database of promising catalysts at SLAC. โThe technique is known as computational materials design,โ said Jens Nรธrskov, professor of chemical engineering at Stanford. โYou get ideas for new functional materials based entirely on computer calculations. There is no trial and error in the lab first. You use your insight and enormous computer power to identify new and interesting materials, which can then be tested experimentally.โ The current copper, zinc and aluminium catalyst was compared with thousands of other materials in the database, with the little-known compound nickel-gallium proving most promising. Researchers in Denmark then synthesised a solid catalyst from nickel and gallium and conducted experimental tests. The lab tests proved the computer right โ at high temperatures, nickel-gallium produced more methanol than conventional copper-zinc-aluminium catalysts, and considerably less of the carbon monoxide by-product. Research will now concentrate on making the process even cleaner, eliminating any pure nickel which affects methanol โ and other by-product โ output. Discovery of a Ni-Ga catalyst forย carbon dioxide reduction toย methanol
Related Content
Rise in biochemical and chemical engineering UCAS numbers
Recent UCAS data has revealed a growing interest in biochemical and chemical engineering, says the Institution of Chemical Engineers (IChemE). The …
When plasma leaves the laboratory
The orbital laboratory is evolving into something more ambitious, a controlled industrial environment for producing next-generation materials, explainsย Ed Smithย andย Andrew Griffiths. …
IChemE chief heads inquiry into sector research
IChemE has launched an inquiry into the state of chemical engineering research in the UK, headed by its president Raffaella …
