讲座编号:jz-yjsb-2018-y051
讲座问题:Process Developments for Nutrient Removal and Recycle from Rural and Agricultural Waste
主 讲 人:Hu Bo 副教授 Department of Bioproducts and Biosystems Engineering, University of Minnesota
讲座时间:2018年7月03日(周二)下昼15:00
讲座所在:阜成路西校区教一楼203室
加入工具:食物学院相关专业西席及研究生
主理单位:研究生院
承办单位:食物学院
主讲人简介:
Bo Hu, Ph.D.,
Education
Ph.D. in Biological Systems Engineering, Washington State University, Pullman, WA, July 2007
M.S. in Biochemical Engineering, Beijing University of Chemical Technology, China, July 2003
B.S. in Chemical Engineering, Beijing University of Chemical Technology, China, July 2000
Employment-related Experience
Associate Professor, 8/2015~ present, Department of Bioproducts and Biosystems Engineering, University of Minnesota
Assistant Professor, 8/2009~ 7/2015, Department of Bioproducts and Biosystems Engineering, University of Minnesota
Assistant Professor, 8/2007~7/2009, Department of Chemical Engineering, University of Puerto Rico at Mayaguez
Panel Reviewer for NSF CBET Bridge, Catalyst, Energy for Sustainability, Bio-based and Biofunctional Materials; USDA Biobased Products; NCR-SARE; USDA Fellowship Program; NSF-USDA-INFEW Director for Forest Bioproducts Division at American Institute of Chemical Engineers, 2013-2016
主讲内容:
Bioproducts generation from agricultural waste materials can minimize the environmental impacts of agricultural activities, alleviate the dependency on fossil fuels, and bring benefits to local industries. Dr. Bo Hu will introduce his research at University of Minnesota related to this area, emphasizing on biomass utilization, industrial fermentation and agricultural waste management. His research group is currently working on projects to remove phosphorus, nitrogen and sulfur from animal feeds and agricultural waste via different approaches, including mixotrophic microalgal and fungal cultivation and microbial electrochemical cells, and projects to develop and study the anaerobic degradation and industrial digestion systems. Dr. Hu’s team at UMN has set up several standard procedures, such as 16s rDNA fingerprint screening and microbial community analysis via high throughout pyrosequencing methods to study the bacteria community, 18s rDNA ITS sequences to identify fungal species, genetic modification of baker’s yeast; and several conversion platforms such as attached biofilm microalgae/fungal lichen cultivation, pelletized fungal fermentation, solid and hemi-solid state fermentation. In this presentation, he will explain several case studies in the process development for bioproducts generation and nutrients recycle, including a novel cell pelletization and attached growth method to immobilize and harvest fungal and microalgae cells, microbial electrochemical methods to remove nutrients from manure and an integrated process to extract phosphorus chemicals from corn ethanol industrial coproducts.