报告时间： 2015年4月23日（星期四）下午13：45 

报告地点：能源基础楼一楼会议室 

报 告 人：Dr. Qi Yang 

CSIRO Manufacturing Flagship, CSIRO Materials Science and Engineering, Australia 

　　报告摘要： 

　　Post-Combustion Carbon Capture (PCC) using amine based solvents in integrated absorber-stripper column systems currently represents the only credible means of implementing carbon capture and storage (CCS) on a commercial scale in the time frame required to reduce CO₂ emissions globally. Aqueous amines, e.g. MEA, have been applied to CO₂ capture/separation in the oil and natural gas industries for decades and are promising solvents for removal of CO₂ from flue gases. However, the application of aqueous amines in CO₂ capture from flue gases still has many challenges such as high energy penalty for CO₂ capture, absorbent degradation, facility corrosion and environmental issues. CSIRO PCC team has carried out researches in a wide range of science and technology areas from laboratory studies and pilot plant trials to develop efficient and applicable amine absorbents and process. The CSIRO chemical sorbent program has achieved significant progress in amine absorbent development via smart formulation and specific amine design and synthesis based on enormous amine property and reaction characteristics studies. 

　　报告人简介： 

　　Dr Qi Yang is a senior research scientist with CSIRO Manufacturing Flagship in Clayton, Australia. She is also an Adjunct Professor at Hunan University, China. Qi obtained her PhD degree in organic chemistry from Monash University, Australia. Her research in CSIRO has covered a wide range of areas including natural product isolation, total synthesis of natural product, drug discovery and pesticide development, clinical trial drug synthesis (GLP) and absorbent development for CO₂ capture. She has developed expertise in understanding the impact of compound structures on their chemical reaction behaves and capacity to design and synthesis molecules to meet their application needs. She has applied and improved NMR technology to amine speciation study in aqueous solutions and this method has been widely adopted by other researchers in this research area. She has also led intensive study to understand impacts of amine structure on amine performance in CO₂ capture process and built up a library of amine characteristics in CO₂ absorption and desorption. She has designed specific amines to improve energy performance of amine absorbents in CO₂ capture. Dr Yang has led projects in natural products and in target amine compound design, synthesis for CO₂ capture. 　　  

　　联系人：陈光文（9031）