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Haojie Li | Chemical Engineering | Best Researcher Award

Assoc. Prof. Dr Haojie Li, Shihezi University, China

Assoc. Prof. Dr. Haojie Li is a renowned expert in chemical engineering, specializing in chemical process intensification, heat and mass transfer, and multiphase flow. He currently serves as an associate professor at Shihezi University in China. Dr. Li has led over 10 national and provincial research projects and has published 16 high-level papers. He holds several patents, including two Chinese national invention patents. Recognized for his academic excellence, he has won prestigious awards, such as the Ministry of Education’s Teaching and Research Achievement Awards. His research focuses on carbon capture, utilization, and storage (CCUS) and computational fluid dynamics. šŸ”¬šŸŒ±šŸ“š

Publication Profile

Scopus

Education

Dr. Li is a dedicated educator who has made significant contributions to the academic and research fields. Through his published educational reform papers and textbook editing, he demonstrates a strong commitment to improving the learning environment and fostering academic growth. His efforts focus on enhancing the quality of education, promoting innovative teaching methods, and advancing scholarly research. Dr. Liā€™s work reflects his passion for educational development and his dedication to shaping the future of education. šŸ“šāœļøšŸŽ“šŸ“–

Research Leadership

Assoc. Prof. Dr. Haojie Li is a distinguished researcher and leader in the fields of energy, chemical engineering, and environmental science šŸŒ±āš”. He has spearheaded numerous impactful scientific projects, particularly in multiphase process intensification technology, aimed at enhancing carbon capture and utilization šŸŒšŸ’Ø. His work is vital in advancing industry practices while reducing environmental footprints šŸŒæ. Through his expertise, Dr. Li is contributing to the development of sustainable technologies that play a key role in addressing global environmental challenges šŸ”¬šŸŒ. His leadership and research continue to shape the future of energy and environmental practices in the industry.

Recognition and Awards

He has earned recognition for his outstanding contributions to research and education, receiving multiple prestigious awards. Notably, he was awarded first prizes for the Ministry of Education’s Teaching and Research Achievement Awards, showcasing his excellence in both teaching and research. Additionally, his groundbreaking work in chemical engineering earned him a second prize for the Basic Research Achievement Award from the Chemical Engineering Society of China. These accolades reflect his significant impact in his field, underlining his dedication and expertise. šŸ†šŸ“ššŸ”¬šŸŒŸ

Expertise in Key Research Areas

Dr. Li’s research focuses on Carbon Capture, Utilization, and Storage (CCUS), Chemical Process Intensification, and Thermal Transfer, addressing critical global energy challenges šŸŒ. His work in computational fluid dynamics and multiphase flow is essential for advancing more efficient processes in these areas šŸ’”. By optimizing energy systems and improving sustainability, Dr. Li is contributing to the development of innovative solutions that reduce environmental impact šŸŒ±. His expertise is shaping the future of energy technologies and fostering a cleaner, more sustainable world āš”. With a keen focus on practical applications, Dr. Li’s work plays a vital role in global energy transformation šŸ”‹.

Research Focus

Assoc. Prof. Dr. Haojie Liā€™s research focuses on advanced materials and their applications in energy and environmental fields. His work primarily involves the development of novel nanomaterials, such as covalent organic frameworks (COFs), for efficient CO2 capture and separation in mixed matrix membranes. His studies also explore the structural effects of materials on catalytic processes, including oxygen reduction reactions and energy storage. Additionally, he investigates the impact of flow dynamics and geometry on chemical processes, with an emphasis on optimizing energy consumption and enhancing performance in various engineering applications. šŸŒāš”šŸ”¬šŸ’Ø

Publication Top Notes

Constructing CO2Ā capture nanotraps via tentacle-like covalent organic frameworks towards efficient CO2Ā separation in mixed matrix membrane

Customized Heteronuclear Dual Single-Atom and Cluster Assemblies via D-Band Orchestration for Oxygen Reduction Reaction

The structure-effect relationship between inline high shear mixers and micromixing: Experiment and CFD simulation

Surface reconstruction enables outstanding performance of Fe2O3/Ni(OH)2Ā nanosheet arrays for ultrahigh current density oxygen evolution reaction

Effects of stator and rotor geometry on inline high shear mixers: Residence time distribution, flow, and energy consumption

 

 

 

Haojie Li | Chemical Engineering | Best Researcher Award

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