Anle Mu - wind energy - Excellence in Research

Xaut - China

AUTHOR PROFILE

SCOPUS

EXPERT IN VANADIUM REDOX FLOW BATTERIES

Anle Mu's research primarily focuses on optimizing the performance of all-vanadium redox flow batteries, particularly in the context of microgrid applications. His work in this field includes numerical simulations and the design of bioinspired flow fields to enhance battery efficiency and capacity.

PIONEER IN OFFSHORE FLOATING WIND TURBINE DYNAMICS

Anle Mu has made significant contributions to the study of offshore floating wind turbine dynamics and control. His innovative research includes the development of novel extended tuned mass dampers, which are crucial for improving the stability and performance of these turbines in marine environments.

RECIPIENT OF SHAANXI SCIENCE AND TECHNOLOGY AWARDS

Recognized for his outstanding contributions to science and technology, Anle Mu has been awarded the prestigious Shaanxi Science and Technology Award twice, in 2010 and 2017. These accolades highlight his impactful research and dedication to advancing technological innovation.

PROLIFIC PUBLISHER IN HIGH-IMPACT JOURNALS

Anle Mu's research findings are widely published in leading journals. His recent publications include studies on the numerical simulation of vanadium redox flow battery performance, capacity decay mechanisms, and innovative designs for battery optimization. His work is instrumental in advancing the field of energy storage and renewable energy.

ASSOCIATE EDITOR AND EDITORIAL BOARD MEMBER

Anle Mu serves as an associate editor for the International Journal of Applied Power Engineering and is a member of the editorial boards for several prestigious journals, including the Journal of Modern Green Energy, Materials Technology Reports, and Clean Energy Science and Technology. His editorial roles underscore his expertise and influence in the scientific community.

EXPERIENCED PEER REVIEWER FOR LEADING JOURNALS

As a peer reviewer, Anle Mu has contributed to the quality and integrity of research in various high-impact journals such as ACS Sustainable Chemistry & Engineering, International Journal of Hydrogen Energy, and Nature Communications. His extensive review experience ensures the dissemination of rigorous and high-quality scientific research.

INNOVATOR IN ROBOTICS FOR MEDICAL APPLICATIONS

In addition to his work in energy storage and wind turbines, Anle Mu has also conducted research on medical robotics. His notable work includes the development of an ankle rehabilitation robot for hemiplegic patients, demonstrating his diverse research interests and commitment to improving human health through technological innovation.

NOTABLE PUBLICATION

Dynamic Analysis and Suppression Strategy Research on a Novel Fractional-Order Ferroresonance System.
Authors: J. Yang, Y. Fan, A. Mu, J. Xiong
Year: 2024
Journal: Fractal and Fractional, 8(1), 24

Torsional Vibration Characteristics Analysis and Adaptive Fixed-Time Control of Wind Turbine Drivetrain.
Authors: J. Yang, F. Zhou, J. Xiong, J. Zhang, A. Mu
Year: 2023
Journal: Energy Science and Engineering, 11(12), pp. 4666–4686

Research on an Ankle Rehabilitation Robot for Hemiplegic Patients After Stroke.
Authors: Z. Sun, A. Mu, C. Wang, J. Wei, W. Li
Year: 2023
Journal: Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 237(10), pp. 1177–1189

Research and Numerical Analysis of Floating Offshore Wind Turbine Based on a Novel Extended Tuned Mass Damper.
Authors: A. Mu, Z. Huang, J. Hu, J. Wang, N. Li
Year: 2023
Journal: Physics of Fluids, 35(3), 035108

Numerical Analysis and Experimental Study of Symmetric Stepped Magnetic Fluid Seal with Three Magnetic Sources.
Authors: F. Hao, A. Mu
Year: 2023
Journal: Journal of Magnetics, 28(2), pp. 162–171

Analysis of Nonlinear Vibration of Functionally Graded Simply Supported Fluid-Conveying Microtubes Subjected to Transverse Excitation Loads.
Authors: T. Ma, A. Mu
Year: 2022
Journal: Micromachines, 13(12), 2114

EARLY ACADEMIC PURSUITS

Siyu Wang's academic journey is marked by a relentless pursuit of excellence in Civil Engineering, with a focus on Wind Engineering. From her undergraduate studies at Chongqing Jiaotong University to her current pursuit of an M.D. in Civil Engineering at Chongqing University, Wang has consistently demonstrated exceptional dedication and academic prowess in her chosen field.

PROFESSIONAL ENDEAVORS

Wang's professional endeavors encompass a wide array of research projects and publications that delve into the intricacies of Wind Engineering. Through her collaboration with esteemed researchers and institutions, she has contributed significantly to understanding the aerodynamic mechanisms and responses of high-rise buildings, inclined structures, and complex terrain.

CONTRIBUTIONS AND RESEARCH FOCUS

Wang's research focus centers on the aerodynamic behaviors of structures under varying wind conditions, with a particular emphasis on transverse inclination, fluid-structure interactions, and the morphological effects of wind flow around sloped terrain. Her publications and ongoing research projects showcase her expertise in computational fluid dynamics (CFD), wind tunnel testing, and deep learning techniques applied to wind engineering problems.

IMPACT AND INFLUENCE

Wang's research contributions have made a tangible impact on the field of Wind Engineering, advancing knowledge in areas such as aerodynamic interference effects, pollutant dispersion in urban environments, and wind field analysis in mountainous regions. Her work has the potential to inform engineering practices and improve the resilience and sustainability of built environments in the face of dynamic wind forces.

ACADEMIC CITES

With multiple publications in esteemed journals and presentations at international conferences, Wang's research has garnered recognition and citations within the academic community. Her collaborative efforts with leading researchers reflect her commitment to advancing the frontiers of Wind Engineering and addressing pressing challenges in the field.

LEGACY AND FUTURE CONTRIBUTIONS

As Siyu Wang continues to expand her research portfolio and academic pursuits, her legacy in Wind Engineering will be characterized by her innovative approaches to understanding and mitigating the effects of wind on built environments. Her future contributions hold promise for enhancing structural design methodologies, optimizing wind-resistant technologies, and fostering sustainable urban development practices.