Hou-Yun Yang | Environmental Science | Best Researcher Award

Assoc Prof Dr. Hou-Yun Yang | Environmental Science | Best Researcher Award 

 

Assoc Prof Dr. Hou-Yun Yang, Anhui Jianzhu University, China

Assoc. Prof. Dr. Hou-Yun Yang is a distinguished faculty member at Anhui Jianzhu University, China, specializing in engineering and sustainable energy systems. Renowned for his contributions to thermal science and renewable energy research, Dr. Yang plays a pivotal role in guiding emerging scholars and advancing practical solutions in green energy technologies. His mentorship and academic leadership continue to inspire innovation and academic excellence in the field.

Author Profile

Orcid

🌱 Early Academic Pursuits

Xuefeng Jiang began his academic journey with a deep-rooted interest in science and innovation. His early education laid a strong foundation in engineering and the natural sciences, with a particular curiosity for sustainable and renewable technologies. This early interest eventually guided him to pursue higher education at Liaoning Technical University, one of China’s notable institutions for technical education and research. As a Master’s candidate starting in 2023, Jiang chose to specialize in renewable energy systems, aligning his academic trajectory with one of the world’s most urgent challenges—sustainable development and climate resilience. His academic record demonstrates both diligence and intellectual curiosity, making him a standout among his peers.

🛠️ Professional Endeavors

Although currently a student, Xuefeng Jiang has already begun to establish a solid professional identity through academic research and innovation. His focus lies in renewable energy, with a particular emphasis on thermal storage systems and energy efficiency. His work bridges theoretical research with practical engineering applications, showing a mature understanding of how academic inquiry can translate into real-world impact.

Jiang’s most notable contribution to date is his work on phase change energy storage systems. His publication in the prestigious journal Applied Thermal Engineering reflects the level of professional maturity he has already achieved. His research paper titled, “Thermal performance analysis of a double-helix heat tube phase change energy storage system”, illustrates an innovative and technically sound approach to improving energy efficiency in storage systems—an essential area for future smart energy infrastructure.

🔬 Research Contributions and Focus

Jiang’s research primarily revolves around thermal energy storage, phase change materials (PCMs), and sustainable energy conversion systems. The core of his work focuses on optimizing the heat transfer performance within energy storage devices using advanced designs like double-helix heat tubes. His work offers a new design paradigm for engineers and scientists working on clean and efficient thermal energy storage systems.

His landmark publication not only contributes to the academic body of knowledge but also provides a roadmap for industry practitioners to enhance renewable energy storage solutions. The citation DOI https://doi.org/10.1016/j.applthermaleng.2025.127208 stands as proof of his credibility and growing impact in the research community.

🏆 Accolades and Recognition

Though early in his career, Xuefeng Jiang’s work has already received academic validation through peer-reviewed publication in a high-impact journal indexed in SCI and Scopus. His contribution has been acknowledged by professionals and academics alike, particularly those working in thermal science, sustainable design, and renewable energy systems.

His dedication, innovation, and technical accuracy have positioned him as a strong contender for the “Best Researcher Award”, a recognition he seeks not for personal glory, but as a testament to the transformative potential of renewable technologies.

🌍 Impact and Influence

Jiang’s work addresses pressing global issues, including climate change, energy crisis, and sustainable infrastructure. By focusing on enhancing the efficiency of energy storage systems, he contributes to making renewable energy sources more viable, scalable, and adaptable. His research has the potential to influence policy formulation, industrial design, and future academic curricula in the fields of green engineering and energy management.

Moreover, as a young researcher, he inspires fellow students and junior colleagues to take up meaningful, solution-oriented research projects. His publication, mentorship under esteemed professors, and growing research footprint contribute positively to China’s and the world’s sustainable development goals.

🌟 Legacy and Future Contributions

Xuefeng Jiang envisions a future where energy systems are clean, cost-efficient, and universally accessible. As he continues his academic pursuits, he plans to expand his work into multi-phase heat transfer systems, smart thermal grids, and AI-assisted energy optimization. His ambition is not only to publish more but to collaborate with industries, policy-makers, and academic institutions globally.

He also aims to file patents, co-author books, and eventually mentor future generations of energy engineers. With his growing profile on platforms like ORCID, Jiang is gradually carving out a space for himself in the international research community.

📖Publication Top Notes


📘 Systematic study of microplastics on methane production in anaerobic digestion: Performance and microbial response

Contributors: Chen-Yu Li; Li Yu; Xin He; Xian-Huai Huang; Wei-Hua Li; Hou-Yun Yang; Tong-Zhan Xue; Jun Liu; Zhen Yan; Ying Hui Ong
Journal:  Environmental Chemical Engineering
Year: 2025

📘 Nutrient Removal and Bioelectricity Generation in a Constructed Wetland-Microbial Fuel Cell: Performance of Pyrite Anode Materials
ContributorsShu Feng; Pei Xu; Jun-Cheng Han; Hou-Yun Yang; Xian-Huai Huang; Li Yu; Jun Liu; Bin-Bin Zhang; Wei-Hua Li
Journal: Environmental Engineering Science
Year: 2025

📘 A modified two-point titration method for the determination of volatile fatty acids in anaerobic systems

ContributorsZhe-Xuan Mu; Chuan-Shu He; Jian-Kai Jiang; Jie Zhang; Hou-Yun Yang; Yang Mu
Journal: Chemosphere
Year: 2018

Wei Lu | Renewable Energy Technologies | Best Researcher Award

Prof Dr. Wei Lu | Renewable Energy Technologies | Best Researcher Award

Professor at Guangxi University, China.

Wei Lu is a distinguished Full Professor of energy and power engineering at Guangxi University, recognized for his expertise in renewable energy, energy system analysis, and optimization. He holds a B.S. in heat engineering, an M.S. in engineering thermophysics from South China University of Technology, and a Ph.D. in engineering thermophysics from Tianjin University. Wei Lu’s career includes a postdoctoral fellowship at Tsinghua University and accreditation as a Registered Utility Engineer by Chinese government departments. His research focuses on carbon dioxide capture, utilization, and storage, alongside innovations in thermodynamics and fluid mechanics. With over 131 publications, 24 patents, and leadership in numerous research projects, he remains dedicated to advancing engineering solutions and education.

Professional Profiles:

Education 🎓

Wei Lu is a Full Professor of energy and power engineering at Guangxi University. He earned his B.S. in heat engineering and M.S. in engineering thermophysics from South China University of Technology, followed by a Ph.D. in engineering thermophysics from Tianjin University. With a background as a postdoctoral fellow at Tsinghua University, he holds credentials as a Registered Utility Engineer accredited by Chinese government departments. His research focuses on renewable energy, energy system analysis and optimization, carbon dioxide capture, utilization and storage, and advancements in engineering education.

Professional Experience

Wei Lu has a distinguished professional trajectory marked by significant contributions in academia and research. Currently serving as a Full Professor of energy and power engineering at Guangxi University, he brings extensive expertise to his role. Wei Lu’s career began with a postdoctoral fellowship at Tsinghua University, where he further honed his skills in energy systems and engineering. He has actively engaged in consultancy and industry-sponsored projects, totaling 36 collaborations, showcasing his practical insights and application of theoretical knowledge. His professional journey underscores his commitment to advancing renewable energy technologies, optimizing energy systems, and pioneering solutions in carbon dioxide capture and storage.

Research Interest

Wei Lu’s research interests span across several critical areas in energy and engineering. He is particularly focused on renewable energy, aiming to enhance efficiency and sustainability in power generation. His expertise extends to energy system analysis and optimization, where he explores methods to improve the performance and reliability of energy systems. Additionally, Wei Lu is actively involved in research related to carbon dioxide capture, utilization, and storage (CCUS), addressing crucial environmental challenges through innovative engineering solutions. His research also encompasses engineering education, aiming to cultivate future generations of engineers equipped with the knowledge and skills necessary to tackle global energy issues effectively.

Award and Honors

Wei Lu has accumulated numerous awards and honors throughout his illustrious career. He was granted honorary admission to the PhD program for his outstanding academic achievements and has consistently ranked at the top in both Master’s and Bachelor’s programs for his exceptional academic performance. His participation and high placement in collegiate scientific olympiads have further underscored his proficiency in computer engineering. Wei Lu’s recognition as a Registered Utility Engineer by Chinese government departments highlights his expertise in energy engineering. His contributions to renewable energy, energy system analysis, and carbon dioxide capture have been widely acknowledged, solidifying his reputation as a leader in these critical research areas.

Research Skills

Wei Lu possesses a robust set of research skills honed through his extensive academic and professional journey. His expertise spans across thermodynamics, fluid mechanics and machinery, gas separation, renewable energy, and carbon dioxide capture, utilization, and storage. He has developed innovative approaches in optimal design theory for ejectors and novel methods utilizing thermal transpiration effect for applications in hydrogen storage and transportation. Wei Lu’s proficiency extends to conducting comprehensive energy system analysis and optimization, contributing significantly to advancements in engineering education. His research skills are underscored by his prolific publication record, extensive project involvement, and leadership in collaborative research initiatives with international engineers.

Publications

  1. Engineering a photothermal responsive cellulose carbon capture material for solar-driven CO2 desorption
    • Authors: Luo, W., Lu, W., Xiang, Q., Xu, C., He, H.
    • Year: 2024
  2. The Comprehensive Influence of the Nozzle Distance and Throat Length of Mixing Chamber on the Performance of Ejector
    • Authors: Tan, L., Chen, H., Ge, J., Lu, W.
    • Year: 2024
  3. Energy Efficiency Analysis of Multistage Knudsen Vacuum Pump
    • Authors: Ke, J., Meng, S., Su, X., Lu, W.
    • Year: 2024
  4. Effect of membrane thermal conductivity on ion current rectification in conical nanochannels under asymmetric temperature
    • Authors: Qiao, N., Li, Z., Zhang, Z., Lu, W., Li, C.
    • Year: 2023
    • Citations: 2
  5. Ion current rectification in asymmetric nanochannels: effects of nanochannel shape and surface charge
    • Authors: Qiao, N., Zhang, Z., Liu, Z., Lu, W., Li, C.
    • Year: 2023
    • Citations: 6
  6. Analysis on influencing factors and improvement of thermal efficiency of bagasse boilers based on performance test data
    • Authors: Mo, Q., Zhu, X., Deng, C., Chen, X., Lin, X.
    • Year: 2023
    • Citations: 6
  7. Influence of graphite/alumina on co-pyrolysis of Chlorella vulgaris and polypropylene for producing bio-oil
    • Authors: Chen, C., Zhao, J., Wei, Y., Bi, Y., Qiu, H.
    • Year: 2023
    • Citations: 3
  8. Tailoring and properties of a novel solar energy-triggered regenerative bionic fiber adsorbent for CO2 capture
    • Authors: Lu, W., Shi, X., Zhou, H., Wang, L., He, H.
    • Year: 2022
    • Citations: 13
  9. Analysis of Flow Rate and Pressure Characteristics for Multistage Thermal Transpiration Based Vacuum Pump
    • Authors: Qin, R., Meng, S., Wang, B., Lu, W.
    • Year: 2022
    • Citations: 1
  10. Modelling, Optimization, and Experimental Studies of Refrigeration CO2 Ejectors: A Review
    • Authors: Zheng, L., Zhang, Y., Hao, L., Deng, J., Lu, W.
    • Year: 2022
    • Citations: 2