Dr. Guangxing Guo | Renewable Energy | Best Academic Researcher Award

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Dr. Guangxing Guo | Renewable Energy | Best Academic Researcher Award

Dr. Guangxing Guo | Yangzhou University | China

Dr. Guangxing Guo is a dedicated researcher in the field of wind energy with strong academic training and impactful contributions. He is pursuing a Doctor of Engineering degree at Yangzhou University, focusing on the application of artificial intelligence in wind energy, and also gained international academic exposure as a guest student at Aalborg University, Denmark. He earned a Master of Engineering degree from the Institute of Engineering Thermophysics, Chinese Academy of Sciences, where his research centered on the structural performance of wind turbine blades, and a Bachelor of Engineering in New Energy Science and Engineering from Lanzhou University of Technology. His expertise covers aerodynamics, aeroelastic dynamics, structural dynamics, and computational fluid dynamics. To date, he has published 8 documents, including SCI-indexed works in Composite Structures, Sustainable Energy Technologies and Assessments, and Energies. His research has received 90 citations by 75 documents, with an h-index of 5, demonstrating growing academic recognition. He has also presented his work at international conferences, highlighting contributions to wind turbine blade design, wind farm noise reduction, and machine learning-based performance evaluation.

Profile: Scopus | Orcid

Featured Publications

Guo, G., Zhu, W., Sun, Z., Fu, S., Shen, W., & Hua, Y. (2025). Large wind turbine blade design with mould sharing concept based on deep neural networks. Sustainable Energy Technologies and Assessments, 73, 104131.

Guo, G., Zhu, W., Zhang, Z., Shen, W., & Chen, Z. (2025). Achieving power-noise balance in wind farms by fine-tuning the layout with reinforcement learning. Energies, 18(18), 5019.

Guo, G., Zhu, W., Sun, Z., Fu, S., Shen, W., & Cao, J. (2024). An aero-structure-acoustics evaluation framework of wind turbine blade cross-section based on gradient boosting regression tree. Composite Structures, 337, 118055.

Guo, G., Zhu, W., Sun, Z., Shen, W., Cao, J., & Fu, S. (2023). Drag reducer design of wind turbine blade under flap-wise fatigue testing. Composite Structures, 318, 117094.

Zhu, W., Liu, J., Sun, Z., Cao, J., Guo, G., & Shen, W. (2022). Numerical study on flow and noise characteristics of an NACA0018 airfoil with a porous trailing edge. Sustainability, 15(1), 275.

Li, S., Zhang, L., Xu, J., Yang, K., Song, J., & Guo, G. (2020). Experimental investigation of a pitch-oscillating wind turbine airfoil with vortex generators. Journal of Renewable and Sustainable Energy, 12(6), 063304.

Ms. Mohadeseh Naderi | Renewable Energy | Best Researcher Award

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Ms. Mohadeseh Naderi | Renewable Energy | Best Researcher Award

Ms. Mohadeseh Naderi, Dundalk Institute of technology, Ireland.

Ms. Mohadeseh Naderi is a dedicated researcher at Dundalk Institute of Technology with a strong focus on renewable energy and biomass conversion. She holds a Master’s degree in Chemical Engineering and is currently pursuing her PhD in the field of sustainable energy. Her academic research has been published in reputable journals including Biomass Conversion and Biorefinery and the International Journal of Thermofluids. She is an active member of Engineers Ireland and is known for her technical knowledge and research excellence. In recognition of her work, she was awarded the Best Paper Award at the SEEP 2024 Conference.

Professional Profile

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Education and Experience

Ms. Mohadeseh Naderi completed her Master’s degree in Chemical Engineering and is currently engaged in doctoral research in the field of renewable energy. She is affiliated with Dundalk Institute of Technology as a researcher. Throughout her academic journey, she has contributed to several scholarly publications including articles in Biomass Conversion and Biorefinery and the International Journal of Thermofluids. Her experience includes extensive work in biomass conversion and thermofluid systems, combining theoretical knowledge with practical application in sustainable energy development.

Summary Suitability

Ms. Mohadeseh Naderi is a highly deserving candidate for the Best Researcher Award based on her sustained academic dedication, impactful research outputs, and contributions to the renewable energy sector. Currently a PhD researcher at Dundalk Institute of Technology, she holds an MSc in Chemical Engineering and specializes in biomass conversion and sustainable energy systems. Her work aligns with global environmental goals and demonstrates both scientific excellence and practical relevance.

Professional Development

Ms. Mohadeseh Naderi has shown consistent growth in her professional journey through academic advancement and active research. With a foundation in chemical engineering, she has expanded her expertise to include renewable energy systems and sustainable technology. She has authored peer-reviewed articles in high-impact journals and maintains active participation in professional organizations such as Engineers Ireland. Her work is not only academic but also aimed at real-world applications that contribute to environmental sustainability. Through ongoing research and collaborations, she continues to enhance her knowledge and impact in the energy and engineering sectors.

Research Focus 

Ms. Mohadeseh Naderi’s research is centered on advancing technologies in renewable energy, with a particular emphasis on biomass conversion. Her work explores innovative thermochemical and biochemical pathways for transforming organic waste into clean, sustainable energy sources. By integrating principles of chemical engineering and thermofluid dynamics, she develops efficient systems that optimize energy recovery while minimizing environmental impact. Her research contributes to addressing global energy challenges by promoting alternatives to fossil fuels and supporting the transition to low-carbon economies. With both scientific rigor and practical relevance, her studies offer scalable solutions for energy sustainability in academic, industrial, and environmental contexts.

Awards and Honors

Ms. Mohadeseh Naderi received the Best Paper Award at the Sustainable Energy and Environmental Protection (SEEP) Conference held in September 2024. She also obtained a Certificate of Merit from the event organizers in recognition of her presentation. Her citation index currently stands at one, reflecting her early but impactful contributions to academic research.

Publication Top Notes

  1. Naderi, M., & Vesali-Naseh, M. (2021). Hydrochar-derived fuels from waste walnut shell through hydrothermal carbonization: Characterization and effect of processing parameters. Biomass Conversion and Biorefinery, 11(5), 1443–1451.
    [Cited by: 40 | Published: October 12, 2019 | Indexed: SCI/Scopus]

  2. Naderi, M., Rashidi, H., Reynolds, A., & Doherty, W. (2024). Aspen Plus modelling of the MILENA dual fluidised bed biomass gasifier technology. SEEP Conference 2024, 7.
    [Presented: September 2024 | Awarded Best Paper]

  3. Naderi, M., & Vesali-Naseh, M. (2017). Production of Hydrochar from Biomass by Hydrothermal Carbonization. 4th International Conference on Applied Research in Chemistry, Science, and Biology, October 19, 2017.

Conclusion

Ms. Mohadeseh Naderi’s contributions in advancing renewable energy technologies, particularly through novel biomass utilization strategies, make her a strong candidate for the Best Researcher Award. Her work has already started influencing both academic and applied sectors, with promising potential for further impact.