Virtual Human System and Application of CFD-PBPK/TK Models in Related Study of Respiratory Rract
Time:12 Jul. 2018Source:航空航天学院英文网Author:安婉Click:23
| Date | July 12, 2018 |
| Time | 15:30 |
| Venue | Room 126, Building 12, Yuquan Campus |
| Speaker | Dr. Feng Yu, Asistant Professor, Oklahoma State University, USA |
| Abstract | The Computational Biofluidics and Biomechanics Laboratory creatively study the transportation and absorption of nanoparticles in human lungs by CFPD-PBPK/TK multiscale models. These models have been applied in several fields related to airway precision medicine and health risk assessment. CFPD-PBPK/TK models can provide analysis and prediction in a short time. In this report, Dr. Yu Feng will talk about: (1)Evaluation and prediction of weld-related occupational exposure risk using virtual human system and virtual population; (2)CFPD-PBTK models simulates the whole body absorption of harmful components in e-cigarette inhalation;(3)Control of xenon anesthesia measurement by CFPD-PBPK model. |
| Speaker | Dr. Feng Yu is an assistant professor in the School of Chemical Engineering at Oklahoma State University, and a center investigator in the Oklahoma Center for Respiratory and Infectious Diseases (OCRID). Yu Feng was a Research Assistant Professor and Lab Manager of the Computational Multi-Physics Laboratory (CM-PL) at North Carolina State University. He has also held an affiliation with the DoD Biotechnology HPC Software Applications Institute (BHSAI) as a Research Scientist II. He completed his B.S. in Engineering Mechanics in 2007 from the School of Aeronautics and Astronautics, Zhejiang University, Hangzhou, China. He then joined the Department of Mechanical and Aerospace Engineering at North Carolina State University and obtained his M.S. and Ph.D. degrees in 2010 and 2013, respectively. He founded the Computational Biofluidics and Biomechanics Laboratory (CBBL) at Oklahoma State University, focusing on developing and applying advanced CFPD models towards multiple applications associated with pulmonary healthcare. He has over 10 years’ experience modeling lung aerosol dynamics on ANSYS CFX and Fluent platforms, with 25 publications in top-ranked fluid dynamics and aerosol science journals. In recent years, his research findings are published in several journals such as Journal of Aerosol Science, International Journal of Heat and Mass Transfer. He is also reviewers of above journals. |
