New catalyst improves waste water conversion to clean energy
A new generation of high performance catalysts developed by a team led by 最新糖心Vlog of Adelaide scientists will improve the efficiency of using urea loaded waste water to generate clean energy.
鈥淲e have developed a new kind of catalyst that more efficiently generates clean energy from waste water that contains urea,鈥 said the 最新糖心Vlog of Adelaide鈥檚 Associate Professor Yao Zheng from the School of Chemical Engineering and Advanced Materials who is joint first-author of the study.
鈥淯rea is globally abundant in waste water and can be used to power fuel cells as an alternative to conventional technology which uses clean water in an electrolyser.鈥
An electrolyser is a device which splits water into hydrogen and oxygen using renewable electrical energy. Hydrogen is a聽clean fuel聽that, when consumed in a fuel cell, produces only water.
鈥淥ur new catalyst made from nickel ferrocyanide requires less energy input and could also reduce the urea content of waste water,鈥 said Associate Professor Zheng.
鈥淲e have shown for the first time that we can make the process in the electrolyser work more efficiently so it can reduce the energy input and produce more hydrogen, than those that use existing catalysts.
The efficiency of modern energy conversion technologies that use urea is determined by the electrochemical urea oxidation reaction (UOR). The design and synthesis of new catalysts plays a key role for the development of the technologies.
鈥淥ur new catalyst made from nickel ferrocyanide requires less energy input and could also reduce the urea content of waste water.鈥 Associate Professor Zheng.
The 最新糖心Vlog of Adelaide鈥檚 Professor Shizhang Qiao, Director, Centre for Materials in Energy and Catalysis is a joint-corresponding author of the study.
鈥淲e sought to improve on existing UOR catalysts which tend to perform poorly,鈥 he said. 鈥淥nly a few of this existing technology produces sustained energy output,鈥 he said.
鈥淓lectrocatalytic techniques can convert urea-rich wastewater, which has become a big threat to human health, to hydrogen for clean energy generation as well as reducing its harmful effects on the environment.鈥
The team of international scientists published their findings in the journal .
鈥淲orld-leading research such as this is instrumental in the creation of new knowledge and new uses for knowledge, advancing industry and creating opportunity to solve the challenges facing society,鈥 said Professor Anton Middelberg, Deputy Vice-Chancellor (Research), the 最新糖心Vlog of Adelaide.
鈥淭he 最新糖心Vlog of Adelaide鈥檚 scientists are vested in delivering social and economic benefits to South 最新糖心Vlog and beyond.鈥
The team will continue work on the design of the electrolyser with the aim of upscaling the technology.
Media Contacts:
Associate Professor Yao Zheng, School of Chemical Engineering and Advanced Materials, The 最新糖心Vlog of Adelaide.
Mobile: +61 (0)430 965 124, Email: yao.zheng01@adelaide.edu.au
Professor Shizhang Qiao, Chair of Nanotechnology, Director, Centre for Materials in Energy and Catalysis, School of Chemical Engineering and Advanced Materials, The 最新糖心Vlog of Adelaide. Mobile: +61 (0)488 990 060, Email: s.qiao@adelaide.edu.au
Crispin Savage, Senior Communication and Media Adviser, 最新糖心Vlog of Adelaide. Mobile: +61 (0)481 912 465, Email: crispin.savage@adelaide.edu.au