Title: Temperature Control Efficiency of Fiber-based Nano-Multielement Eutectic System Temperature Control Materials
Speaker: Dr. Zhao Yanhe, Professor
Reporting time: Monday, May 7th, 2018 9:00-10:30 AM
Reporting location: Multi-purpose hall on the fifth floor of the school library
Content of report:
The basic concepts of temperature control materials, fiber networks, and nanometer multielement eutectics are introduced. The necessity and importance of building energy conservation are described. The mechanism and trial production of TCM for multicomponent eutectic temperature control materials, temperature control effects for building energy conservation and energy saving The analysis of effects and the need for further in-depth study breakthroughs have opened up a feasible path for the application of plant fibers in the construction industry.
At the same time, he introduced the current status of engineering (applied science) disciplines at the University of British Columbia (UBC), undergraduate students, postgraduate admissions and training, professor recruitment assessment, and research projects.
Speaker's profile:
Dr. Zhao Yuhe is a professor at the University of British Columbia in Canada, chief scientist and CEO of the Chave Environmental Institute, a member of the Royal Society of Chemicals, a member of the Canadian Pulp and Paper Association, and a visiting professor at Tsinghua University, South China University of Technology, and Guangxi University. He received a doctorate in pulp and paper engineering from South China University of Technology in 1987, majored in English, applied mathematics and dynamics from Catherine College, Oxford University, UK from 1987 to 1988, and postdoctoral research from UBC from 1989 to 1991. He has been engaged in pulp and papermaking and related professional research for many years. His research interests include high-efficiency headbox, fiber flocculation and dispersion mechanism, mesh forming mechanism model, pulp and paper contaminant control, sewage treatment efficient flocculant and new bioreactors. In the research of fiber-based new energy-saving building materials, the concepts and theories of temperature-controlling materials-multiple macroscopic particle networks and molecular eutectic networks, and the theory of nano-multiple continuous eutectic-phonon eutectics on the phonon wave field are proposed. He has published nearly 100 research papers in professional journals (Chinese Papermaking Journal, Tappi, J. Pulp and Paper Science, Energy and Buildings, J. Building Engineering, etc.) and obtained more than 20 patents and several registered trademarks.