Yuhua Tan | New Energy Technology Award | Best Researcher Award

Dr Yuhua Tan | New Energy Technology Award | Best Researcher Award

Dr Yuhua Tan ,University of Shanghai for Science and Technology, China

Dr Yuhua Tan is a Lecturer at the University of Shanghai for Science and Technology, specializing in electrical engineering. She earned her Ph.D. from Shanghai Jiao Tong University in 2020. Her research focuses on optimizing and controlling power systems, integrated energy systems, and renewable energy technologies. Yuhua Tan has authored numerous papers and holds several patents in areas such as hydrogen systems and wind power generation. She actively collaborates with institutions like Anhui Polytechnic University and State Grid Gansu Electric Power Company. Tan is dedicated to advancing sustainable energy solutions through her innovative research and academic contributions.

Publication Profile

Scopus

Education

Dr Yuhua Tan received her Ph.D. in electrical engineering from Shanghai Jiao Tong University, Shanghai, China, in 2020. Her doctoral research focused on renewable energy integration and optimization in power systems. Prior to her Ph.D., she completed her undergraduate and master’s studies in electrical engineering, laying the foundation for her subsequent research and academic career.

Experience 

Dr Yuhua Tan is currently a Lecturer at the University of Shanghai for Science and Technology, where she teaches and conducts research in the Department of Electrical Engineering. Her professional journey includes significant contributions to the field of electric power systems and renewable energy technology. Tan has actively participated in research projects funded by institutions such as the State Grid Gansu Electric Power Company and Anhui Polytechnic University’s Energy Internet Engineering Research Center. Her consultancy and industry projects demonstrate her practical expertise in energy system optimization and renewable energy integration.

Research focus

Dr Yuhua Tan’s research focuses on optimizing and controlling power systems, integrated energy systems, and renewable energy technologies. Her work explores innovative approaches to enhancing the efficiency and sustainability of energy systems through advanced modeling, optimization algorithms, and integration techniques. Tan’s research contributions include developing models for hydrogen systems, optimizing renewable energy utilization, and addressing challenges in wind power generation. She collaborates with industry and academic partners to innovate solutions that promote the transition to clean and sustainable energy sources, addressing global energy challenges in the 21st century.

Publication Top Notes

“Global optimization and quantitative assessment of large-scale renewables-based hydrogen system considering various transportation modes and multi-Field hydrogen loads” 🌍

“Sensorless control with adaptive speed observer using power winding information for dual-stator winding induction starter/generator” 🔄

“A novel short-term wind power scenario generation method combining multiple algorithms for data-missing wind farm considering spatial-temporal correlativity” 🌬️

“Linear active disturbance rejection control for dual-stator winding induction generator AC power system” 🔧

“A new modeling and solution method for optimal energy flow in electricity-gas integrated energy system” ⚡

Mr Muhammad Arslan | Renewable Energy | Best Researcher Award

Mr Muhammad Arslan | Renewable Energy | Best Researcher Award

Mr Muhammad Arslan, University of Engineering and Technology Taxila, Pakistan

Muhammad Arslan, a proactive Mechanical Engineering graduate from the University of Engineering and Technology, Taxila, Pakistan, is driven by a passion for innovation and research. With a robust academic background and diverse internship experiences in HVAC, aerospace, welding, NDT, and mechanical design, he has honed his skills in project management, problem-solving, and technical proficiency. Arslan’s final year project focuses on advancing passive building envelopes with phase change materials for energy efficiency, reflecting his commitment to sustainable solutions. Eager to embark on a research-oriented career path, he aims to pursue MS/Ph.D. studies while contributing to cutting-edge research initiatives in his field.

Publication  Profile

Orcid

Education

Muhammad Arslan completed his Bachelor’s in Mechanical Engineering from the University of Engineering and Technology, Taxila, with a commendable GPA of 3.20 out of 4.0. Prior to this, he achieved an outstanding 95% in his Higher Secondary School Certificate (HSSC) from Shiblee Group of Schools and Colleges, Gojra, TT Singh, Punjab. In his Secondary School Certificate (SSC), he excelled with an impressive 97% from the same institution. 📚 Arslan’s academic journey reflects his dedication to excellence and a strong foundation in both theoretical knowledge and practical application in the field of Mechanical Engineering.

Professional Experience

Muhammad Arslan is a dedicated mechanical engineering student from the University of Engineering and Technology, Taxila. He has a strong academic background with a Bachelor’s degree in Mechanical Engineering, maintaining a GPA of 3.20. Arslan has gained extensive practical experience through a series of internships across various prestigious organizations. He has interned at Pakistan Aeronautical Complex (PAC), Heavy Industries Taxila (HIT), and National Centre for Non-Destructive Testing (NCNDT), among others, where he honed skills in HVAC design, aerospace projects, welding technology, NDT procedures, and mechanical equipment design. 🛠️ Arslan’s commitment to learning and hands-on experience reflects his passion for mechanical engineering and readiness for professional challenges.

Research focus

Muhammad Arslan’s research focuses on innovative solutions to address Pakistan’s energy challenges and mitigate climate change impacts. His work spans various cutting-edge technologies such as the Atmospheric Vortex Engine for clean and efficient energy generation. Arslan has contributed significantly to advancing air vortex engine technology, enhancing building envelopes with energy-saving materials like phase change materials, and improving wind energy conversion systems through advanced control strategies. His experimental investigations into the impact of cool roof coatings on photovoltaic modules underscore his commitment to sustainable energy solutions. 🌍 Arslan’s research endeavors aim to pave the way for environmentally friendly energy alternatives in Pakistan and beyond.

Publication top Notes

“A Clean and Efficient Energy Solution for Climate Change Mitigation and Energy Crises in Pakistan: The Atmospheric Vortex Engine” 

“Advancements and Performance Assessment in Air Vortex Engine Technology: Modeling, Analysis, and Comparative Study” 

“Enhancing Building Envelopes by Looking into the Energy-Saving Methods: A Computational Analysis of Windows’ Phase Change Materials and Translucent Insulation”

“Enhanced Active Power Improvement in Wind Energy Conversion Systems through Rotor Side Converter Current Control of Doubly Fed Induction Generator”