Mr. Tao XIE | Community Health | Young Scientist Award

Mr at Community Health, Xi’an Jiaotong University, China

This summary outlines the academic and professional background of Prof. Said Kamel Elsayed Salem. He is a Professor at the Faculty of Petroleum and Mining Engineering at Suez University, Egypt. Additionally, he has affiliations with Texas A & M University and Suez Canal University through a channel system. Prof. Salem holds a Ph.D. in Petroleum Engineering, which he obtained in 1997. His dissertation focused on the experimental and theoretical determination of physical properties of CO2/Hydrocarbon Mixtures for Enhanced Oil Recovery (EOR).

Professional Profiles:

Scopus Profile

Education:

Mr. Tao Xie is currently pursuing his Ph.D. in Public Policy and Administration at Xi’an Jiao Tong University, starting from September 2020. Prior to this, he completed his Master’s degree in Public Policy and Administration at Xi’an Jiao Tong University from September 2018 to July 2020. He obtained his Bachelor’s degree in Management from ShanXi University, School of Political Science and Public Management, where he studied from September 2014 to July 2018.

Area of specializations:

Mr. Tao Xie specializes in Health Literacy, Quality of Medical Service, and Human Resources for Health. His research focuses on these areas, aiming to contribute to the advancement and understanding of healthcare systems and services.

Honors:

Mr. Tao Xie has received several honors and awards for his academic achievements and contributions. He was recognized as the Outstanding Postgraduate of Xi’an Jiaotong University in October 2019 and again in October 2021. In November 2020, he received the Excellent Paper Award in the 4th Academic Essay Contest of China Health Security Forum. Additionally, he was awarded the Third Prize in the Public Policy Case Study Competition in December 2018 and the Third Prize of Xi’an Jiaotong University Tengfei Cup in April 2019. These accolades reflect his dedication to excellence in his academic pursuits.

Skills:

In the Office category, Mr. Tao Xie possesses skilled proficiency in using Word, Excel, Visio, and other office software, demonstrating his ability to effectively manage and process information. In the Statistics category, he has a solid professional foundation in statistics and is skillful in using AMOS, Stata, SPSS, RStudio, Fsqca, and Python. These skills enable him to conduct thorough statistical analyses and interpret data accurately in his research and academic endeavors.

Research Experience:

Mr. Tao Xie has actively participated in several research projects focusing on health policy and system improvement in China. These projects include “Research on big health putting prevention first and construction of healthy China” funded by The National Social Science Fund of China, where he was involved in research design, system design, investigation, and report writing from July 2018 onwards. He also contributed to “Strengthening China-Cambodia Health Cooperation with the Focus on Infectious Diseases Prevention and Control,” funded by the National Health Commission of the PRC, where his responsibilities included research design, system design, investigation, and report writing starting from March 2018. Additionally, Mr. Xie participated in projects such as “China health insurance system improvement” funded by the Bill & Melinda Gates Foundation, “The Position and Function of Medical Security System in ‘Healthy China Strategy'” funded by the National Health Commission of the PRC, and “Research on the establishment and Implementation path of multi-level medical security” funded by the National Health Commission of the PRC & Capital Medical University. His contributions to these projects involved various aspects of research and analysis, demonstrating his commitment to advancing health policy and system development in China.

Publications:

Zhang, Z.-Y., Li, T., Sun, X.-L., …, Yang, G.-D., Xie, T. (2024). Efficient photo-thermal catalytic CO2 methanation and dynamic structural evolution over Ru/Mg-CeO2 single-atom catalyst. Journal of Catalysis, 430, 115303.

Lv, Y., Chen, J., Bai, P., …, Ou, H., Yang, G. (2024). Mass transfer and electrochemical behavior of nitrate reduction to ammonia in electrocatalytic flow cell reactor. AIChE Journal, 70(1), e18262.

Bai, P.-W., Liang, W.-P., Lv, Y., …, Yang, G.-D., Xie, T. (2023). Analysis of Electroreduction Performance in the N2-to-NH3 Reactor with Coupled Kinetics-Mass Transport Modeling. Industrial and Engineering Chemistry Research, 62(50), 21787–21801.

Yao, S., Zhang, Y., Xia, J., …, Li, H., Hu, J. (2023). Cascade utilization of energy in high temperature syngas to reduce energy consumption in biomass gasification processes. Case Studies in Thermal Engineering, 52, 103680.

Liang, W.P., Zhang, X.-M., Bai, P.-W., …, Tong, H.-M., Xie, T. (2023). Cascade N2 Reduction Process with DBD Plasma Oxidation and Electrocatalytic Reduction for Continuous Ammonia Synthesis. Environmental Science and Technology, 57(39), 14558–14568.

Xie, T., Zhang, Z.-Y., Zheng, H.-Y., Yu, B., Xiao, Q. (2023). Performance optimization of a cavity type concentrated solar reactor for methane dry reforming reaction with coupled optics-CFD modeling. Chemical Engineering Science, 275, 118737.

Zhang, Z.-Y., Li, T., Tang, Z.-Y., …, Chen, J.-Y., Xie, T. (2023). Deep insight of the influence of Pt loading content with catalytic activity on light-assisted dry reforming of methane. Chemical Engineering Science, 274, 118710.

Yao, J.-L., Zheng, H.-Y., Bai, P.-W., …, Li, T., Xie, T. (2023). Design and optimization of solar-dish volumetric reactor for methane dry reforming process with three-dimensional optics-CFD method. Energy Conversion and Management, 277, 116663.

Zhang, Z.-Y., Li, T., Yao, J.-L., Xie, T., Xiao, Q. (2023). Mechanism and kinetic characteristics of photo-thermal dry reforming of methane on Pt/mesoporous-TiO2 catalyst. Molecular Catalysis, 535, 112828.

Zhang, Y., Yao, S., Hu, J., …, Zhang, Z., Li, H. (2023). NUMERICAL MODELING OF BIOMASS GASIFICATION USING COW DUNG AS FEEDSTOCK. Frontiers of Agricultural Science and Engineering, 10(3), 458–467.