| Biography | |
|---|---|
 Prof. Wang Fuqiang Harbin Institute of Technology at Weihai, China |
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| Abstract: Solar dynamic power generation system is a clean power generation system with many advantages, such as: without using fossil fuel and zero pollutant emission, etc. The solar radiation intensity received by the earth is affected no only by diurnal variation, season, latitude and other regular factors, but also by clouds, rain, snow and other random factors, as well as by heterogeneous heat flux transmission of the collector subsystem. Therefore, the solar thermal utilization has severe intermittence and heterogeneity, which can cause the receiver to endure repeated high–temperature differential thermal shock cycles and subjected to high thermal stress till bending deformation and receiver failure. Based on the background of high–temperature conversion and utilization of solar energy as well as the requirement of applied technology development of high effective and low cost solar energy utilization, this speech will research on the concentration and transmission of solar rays, absorption and conversion of energy, reliability of receiver and other key scientific technologies of solar dynamic power generation system, and solar thermochemical reactions. | |
| Biography: Wang Fuqiang: born in June 1983, professor of Harbin Institute of Technology, Doctoral supervisor. He presided over 15 basic research foundations and a number of corporate projects, including 2 National Natural Science Foundation of China and 1 Natural Science Foundation of Shandong, summary research funding exceeding 4 million yuan. He was awarded the "Ministry of Education PhD Scholar Award" by Ministry of Education of China. Besides, he has published more than 60 papers on journal, such as Applied Energy, Energy Conversion and Management, International Journal of Heat and Mass Transfer, Solar Energy etc., of which 41 papers were the first/corresponding author, 22 papers were in Top Journal and 8 papers were selected as ESI high citation, 1 paper was selected as "Applied Energy" year high cited original article (15/1643). His papers have been cited more than 600 times in SCI papers by other scholars, including 7 academicians and 11 ASME Fellow and SCI Journal editors. He was invited to publish a chapter Ray-Thermal-Structural Coupled Analysis of Parabolic Trough Solar Collector System of monograph Solar Collectors and Panels, Theory and Applications and served as guest editor of the International Journal of Photoenergy, special editor of Journal of Liaoning University of Petroleum & Chemical Technology (2016.09-2018.08), editor of Sustainable Energy (2013.04-2014.04) and Energy Conservation Technology (2018.08 till now). What’s more, he has 8 authorized invention patents. A series of studies are carried out on three basic problems on thermal science that restrict the scale of solar thermal chemical conversion. The results are as follows: (1) Proposed the directional quality factor characterized by solar energy aggregation, which provides the basis for high efficiency solar thermal conversion research. (2) Set up the optimum design criterion of the cavity type heat exchanger and invented the high efficiency heat transfer exchanger, thereby the efficiency was raised by 8%. (3) Opened up the field of solar photo-thermal chemical analysis, found the best reaction temperature point which led to the 20% increase of the hydrogen production. | |
