Pengcheng Guo | Engineering | Best Researcher Award

Pengcheng Guo | Engineering | Best Researcher Award

professor at  Xi’an University of Technology, China.

Professor Pengcheng Guo is a leading expert in hydraulic and river dynamics, currently serving as a professor at the School of Water Resources and Hydropower, Xi’an University of Technology. With over two decades of academic experience, he has made significant contributions to the understanding of unsteady flows in hydraulic systems, hydro-turbine dynamics, and energy utilization technologies. His research has garnered multiple national and provincial-level research grants, underlining his expertise and leadership in the field.

Publication Profile

Scopus

Education

Professor Guo holds a Doctorate in Hydraulic and River Dynamics from Xi’an University of Technology, where he also completed his Master’s and Bachelor’s degrees. His academic journey, which began in 1993, laid a strong foundation for his pioneering research in hydropower systems and water resources management.

Experience

He has held progressively senior academic positions at Xi’an University of Technology, starting as a lecturer and advancing to his current role as a professor. His work spans teaching, research leadership, and industry collaboration, with a focus on hydropower and water systems.

Research Focus

Professor Guo’s research focuses on transient flow analysis, hydraulic equipment dynamics, and the impact of unsteady flows on hydro-turbine systems. His contributions have advanced the understanding of energy dissipation, vibration analysis, and water hammer impact in hydropower systems, crucial for optimizing performance in large-scale energy facilities.

Awards and Honors 

Professor Guo has received multiple prestigious awards, including the National Science and Technology Progress Award and the Shaanxi Provincial Government’s Science and Technology Progress Award. His research has earned him recognition as a leading scholar in hydropower and clean energy utilization, further supported by his innovations in patented technologies.

Conclusion

Professor Pengcheng Guo’s consistent contributions to the fields of hydropower, fluid dynamics, and environmental engineering, combined with his successful leadership of large-scale research projects, make him a strong candidate for the Best Researcher Award. His scholarly output, award recognition, and patented innovations demonstrate the profound impact of his work in solving real-world problems, particularly in sustainable energy and water resources management. With his extensive experience and continued drive for innovation, Professor Guo exemplifies the excellence and forward-thinking research needed to foster advancements in engineering and environmental sustainability.

Publication Top Notes  

Feasibility evaluation of a wind/P2G/SOFC/GT multi-energy microgrid system with synthetic fuel based on C-H-O elemental ternary analysis
Authors: Ding, X., Guo, P., Sun, W., Lv, X., Weng, Y.
Year: 2024
Journal: Energy
Volume: 312
Article Number: 133474
Citations: 0

Dynamic behavior and energy dissipation analysis of pump turbine in unstable S characteristic zone
Authors: Guo, P., Li, Y., Sun, L.
Year: 2024
Journal: Journal of Energy Storage
Volume: 102
Article Number: 114275
Citations: 0

Leak detection in water supply pipeline with small-size leakage using deep learning networks
Authors: Guo, P., Zheng, S., Yan, J., Ma, J., Sun, S.
Year: 2024
Journal: Process Safety and Environmental Protection
Volume: 191
Pages: 2712–2724
Citations: 0

Erosion assessment and anti-erosion optimization design for Francis turbine
Authors: Sun, L., Zhang, Q., An, D., Sun, S., Guo, P.
Year: 2024
Journal: Physics of Fluids
Volume: 36(10)
Article Number: 103330
Citations: 0

Rotating speed pulling-back control and adaptive strategy of doubly-fed variable speed pumped storage unit
Authors: Gao, C., Yu, X., Nan, H., Ge, Y., Cai, Q.
Year: 2024
Journal: Renewable Energy
Volume: 232
Article Number: 121044
Citations: 0

Numerical assessment of transient flow and energy dissipation in a Pelton turbine during startup
Authors: Sun, L., Wang, Z., Zhou, H., Wang, Z., Guo, P.
Year: 2024
Journal: Physics of Fluids
Volume: 36(9)
Article Number: 094119
Citations: 0

Temporal-spatial and energy dissipation characteristics of vortex evolutions in Francis turbine during load reduction
Authors: Sun, L., Liu, L., Wang, Z., Guo, P., Xu, Z.
Year: 2024
Journal: Physics of Fluids
Volume: 36(9)
Article Number: 094112
Citations: 0

Influence of sand particle size on the erosion-corrosion resistance of Ni2FeCrMo0.2 HEA in seawater: Particle-surface-electrochemistry interaction
Authors: Wang, K., Xu, Q., Li, Y., Jia, Y., Zhou, H.
Year: 2024
Journal: Journal of Materials Research and Technology
Volume: 32
Pages: 426–438
Citations: 0