Shuzhong WANG, born in January 1968, Ph.D.,
Prof. of Department of Thermal Engineering
of Xi’an Jiaotong University
Shuzhong WANG, born in January 1968, Ph.D.,
Prof. of Department of Thermal Engineering
of Xi’an Jiaotong University
Tel: 029-82667329(office)
Email: szwang@mai.xjtu.edu.cn
School of Energy & Power Engineering
Xi'an Jiaotong University
Xi'an, 710049, P. R. China
Wang Shuzhong, Doctor of Engineering, Postdoctoral fellow of Institute for Energy Technology, Norway, Professor (Level 2) of School of Energy and Power Engineering, Xi 'an Jiaotong University, doctoral supervisor, New Century Outstanding Talents of Ministry of Education, Distinguished Professor of "Three Qin Scholars", leading talents of Science and Technology in Suzhou Industrial Park. Elsevier High was cited as a Chinese scholar, the winner of the 11th China "Innovation and Innovation Award", and the winner of the First Global Best Innovation 100 Competition. Member of China Equipment Management Association, member of Expert Committee of China Energy Society, Member of China Energy Environment Science and Technology Association, Standing director of China Energy and Environmental Protection High-tech Industry Association, Standing member of Energy Conservation and Environmental Protection Innovation and Entrepreneurship Committee of All-China Environmental Protection Federation, Member of Design and Calculation Method Committee of National Technical Committee of Boiler and Pressure Vessel Standardization, Member of the Teaching Committee of Electrical Initiative Discipline of China Electric Power Education Association, clean energy expert of Shaanxi Solar Energy Industry Association, editorial member of journals such as Journal of Power Engineering, Environmental Pollution and Prevention, Sustainable Energy, Energy Science Development, Inorganic Salt Industry, Progress in New Energy, etc.
He has been engaged in scientific research in the fields of energy, environment and high-end nanomaterials preparation for a long time, and has presided over 116 research projects of national, provincial and ministry funds and commissioned research projects, including national key research and development programs, natural science foundation projects, "973 Program", "863 Program", national science and technology support programs and other vertical research projects. More than 100 million yuan was spent on scientific research.
He has published 589 relevant academic papers, among which 440 are the first author or corresponding author, 396 are included in SCI/EI, 5899 SCI citation papers, H factor 44, and 9 ESI highly cited papers. For eight years in a row, he was selected to the Elsevier Highly Cited Chinese Researchers List (in General Engineering). Named to Stanford University's 2022 ranking of the world's top 2% of scientists. Three English monographs on supercritical water technology have been published, one graduate textbook has been edited, and six graduate and undergraduate textbooks on gas-liquid two-phase flow, energy, environment and carbon neutrality have been published or edited.
In the fields of energy, environment and nanomaterial preparation, a series of core technologies with fully independent intellectual property rights have been formed, foreign technological monopolies have been broken, and a number of world-class scientific research achievements have been innovated. It has 436 Chinese patents and 45 international patents. Among them, 383 Chinese invention patents and 53 utility model patents; At present, 254 invention patents and 53 utility model patents have been authorized. It has been granted 12 U.S. patents. More than 90 patents have been transferred and implemented, and significant economic, social and environmental benefits have been created in the fields of efficient and clean energy conversion and utilization, environmental pollution control and energy utilization.
He has won 1 first prize of Science and Technology Progress Award of Ministry of Education, 1 first prize of Science and Technology Award of Shaanxi Higher Education Institutions (Natural Science Award), 1 Gold Prize of International Invention Exhibition, and 1 Excellence Award of China Patent. Three gold Awards of Shaanxi Science and Technology Workers Innovation and Entrepreneurship Competition (the first winner), and one "Special Project Award" of China University Science and Technology Achievements Fair (the first winner); In 2020, he won the prize of "The First Global Best Innovation 100" (the first winner), the Golden Bridge Award (second prize) of the 10th China Technology Market Association in 2020, and the 11th China "Innovation Award · Personality Award" in 2020; He won the first prize of Science and Technology Award of Shaanxi Institutions of Higher Learning in 2021. "Preparation technology of Nano-composite zirconia by supercritical hydrothermal synthesis" was successfully selected as one of the "Ten major scientific and technological achievements" in the fourth China-Arab States Technology Transfer and Innovation Cooperation Conference (10 major achievements were selected from more than 1,000 technical achievements).
In recent years, Mainly engaged in supercritical water treatment and energy utilization of high concentration refractory organic waste/hazardous waste/sludge key technologies and system integration, high temperature metallurgical slag dry centrifugal granulation and waste heat efficient recovery technology and system integration, advanced combustion technology (supercritical hydrothermal combustion, chemical chain combustion, flameless combustion, immersed combustion), high efficiency and environmental protection boiler technology (pyrolysis gasifier, waste liquid Research on incinerators, supercritical hydrothermal combustion type multiple thermal fluid generators, flameless combustion free boiler, phase change heat storage type solar energy or valley electric heating units, etc.), solar energy/geothermal energy/(microalgae) biomass energy development, multi-energy complementary green low-carbon smart energy system, etc.
1. Niu X, Yu JL*, Wang SZ. Experimental study on low-temperature waste heat thermoelectric generator. Journal of Power Sources. 2009;188(2):621-626.
2.Xu DH, Wang SZ*, Hu X, Chen CM, Zhang QM, Gong YM. Catalytic gasification of glycine and glycerol in supercritical water. International Journal of Hydrogen Energy. 2009;34(13):5357- 5364.
3.Guo Y, Wang SZ*, Xu DH, Gong YM, Ma HH, Tang XY. Review of catalytic supercritical water gasification for hydrogen production from biomass. Renewable & Sustainable Energy Reviews. 2010;14(1):334-343.
4. Wang SZ*, Guo Y, Chen CM, Zhang J, Gong YM, Wang YZ. Supercritical water oxidation of landfill leachate. Waste Management. 2011;31(9-10):2027-2035.
5. Guo Y, Wang SZ, Huelsman CM, Savage PE*. Kinetic model for reactions of indole under supercritical water gasification conditions. Chemical Engineering Journal. 2014;241:327-335.
6. Guo Y, Yeh T, Song WH, Xu DH, Wang SZ*. A review of bio-oil production from hydrothermal liquefaction of algae. Renewable & Sustainable Energy Reviews. 2015;48:776-790.
7. Meng HY, Wang SZ*, Chen L, Wu ZQ, Zhao J. Thermal behavior and the evolution of char structure during co-pyrolysis of platanus wood blends with different rank coals from northern China. Fuel. 2015;158:602-611.
8. Gong YM, Guo Y*, Wang SZ, Song WH. Supercritical water oxidation of Quinazoline: Effects of conversion parameters and reaction mechanism. Water Research. 2016;100:116-125.
9. Qian LL, Wang SZ*, Xu DH, Guo Y, Tang XY, Wang LS. Treatment of municipal sewage sludge in supercritical water: A review. Water Research. 2016;89:118-131.
10.Wu ZQ, Wang SZ*, Zhao J, Chen L, Meng HY. Thermochemical behavior and char morphology analysis of blended bituminous coal and lignocellulosic biomass model compound co- pyrolysis: Effects of cellulose and carboxymethylcellulose sodium. Fuel. 2016;171:65-73.
11.Li YH, Wang SZ*, Yang JQ, Xu DH, Guo Y, Qian LL, et al. Corrosion characteristics of a nickel-base alloy C-276 in harsh environments. International Journal of Hydrogen Energy. 2017;42(31):19829-19835.
12. Kuang C, Wang SZ*, Luo M, Cai JJ, Zhao J. Investigation of CuO-based oxygen carriers modified by three different ores in chemical looping combustion with solid fuels[J]. Renewable Energy,2020,154: 937-948.
13. Liu L , Wang SZ* , Zhang BQ, Jiang GY , Yang JQ* , Li YH , Liu W , Wang JL , Kong WX . From modification to mechanism: Supercritical hydrothermal synthesis of nano-zirconia [J]. CERAMICS INTERNATIONAL, 2022, 48(4):4401-4423.
14. Liu W , Wang SZ* Wang JL, Zhang BQ , Liu L , Liu H , Yang JQ* . Supercritical hydrothermal synthesis of nano-zinc oxide: Process and mechanism [J]. Ceramics International, 2022, 48(16):22629-22646.
15. Yang JQ*, Steinbruck M ,Tang CC , Grosse M , Liu JK , Zhang JM , Yun D , Wang SZ . Review on chromium coated zirconium alloy accident tolerant fuel cladding [J]. JOURNAL OF ALLOYS AND COMPOUNDS, 2022, 895:162450.