1992 M.E., Taiyuan University of Technology, China, Organic Chem. Eng. 1989 B.E., Taiyuan University of Technology, China, Coal Chem. Eng.
Publications (Selected) SONG Yun-Cai, JI Mao-Sheng, FENG Jie, LI Wen-Ying. Analysis of product distribution from co-gasification of coal and biomass in a fluidized-bed reactor under varying conditions, Energy Sources Part A, 2013, DOI information: 10.1080/15567036.2012.711798. CuiPing Ye, Jie Feng, Huan Zheng, TingTing Wu, MingMing Fan,Wenying Li. Optimization of solvent crystallization process in obtaining high purity anthracene and carbazole from crude anthracene, AIChE Journal, 2013. Yi Qun, Yang Fan, Wenying Li, Jie Feng. CO2Capture and use in a novel coal-based Polygeneration system, Industrial & Engineering Chemistry Research (I &EC research, Ind Eng Chem Res), 2013, DOI: 10.1021/ie401767b, Publication Date (Web): Sep 2, 2013.
Release Date
Professor Simona Liguori
Simona Liguori, an assistant professor of chemical engineering at Clarkson University has been appointed as an Associate Editor of the CEJ (Chemical Engineering Journal). This international journal of research and development focuses on three aspects of chemical engineering: chemical reaction engineering, environmental chemical engineering, and materials synthesis and processing.
Liguori came to Clarkson in 2020. She received her Ph.D. and master of science degrees in chemical engineering from University of Calabria (Italy). She continued her research at the Institute on Membrane Technology (ITM-CNR) the Italian National Lab as a post-doctoral researcher and in 2014 joined Stanford University as a physical science research associate.
Modeling a better catalyst for PIBSAs eurekalert.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from eurekalert.org Daily Mail and Mail on Sunday newspapers.
21.01.2021 How will we achieve carbon-neutral flight in future?
Carbon-neutral aviation is possible, but in future, aircraft are likely to continue to be powered by fossil fuels. The CO
2 they emit must be systematically stored underground. This is the most economical of various approaches that ETH researchers have compared in detail.
It is politically agreed and necessary for climate protection reasons that our entire economy becomes climate-neutral in the coming decades – and that applies to air travel, too. This is a technically feasible goal, and there are numerous ways to achieve it. ETH Professor Marco Mazzotti and his team have now compared the options that appear to be the easiest to implement in the short and medium term and evaluated them according to factors such as cost-effectiveness.
Cyclic distillation: A novel enhanced technology for processing hydrocarbons and derivatives
Distillation is the most widespread separation method in history.
Distillation is the most widespread separation method in history.1 Despite its simplicity and flexibility, distillation remains a very energy-inefficient process. Novel distillation concepts based on process intensification (PI) principles can deliver major advantages in terms of significantly lower energy use and reduced capital costs while improving ecological efficiency.
The PI concept has been around since the mid-20th century, but has received more attention in the last two decades. The objective of PI is to design substantially smaller plants while improving their operational safety, environmental performance and energy efficiency. The Rapid Advancement in Process Intensification Depl