Nikola Vavřínová | Low-carbon Wooden Building | Young Scientist Award

Published on by Civil Engineering

Ms. Nikola Vavřínová | Low-carbon Wooden Building | Young Scientist Award

Academician at VSB-TU Ostrava, Czech Republic

Dr. Nikola Vavřínová, a dedicated academic and researcher in Civil Engineering, is highly eligible for the Young Scientist Award. At 32 years old, she has already made significant contributions to sustainable construction, particularly in the development and thermal analysis of composite materials and energy-efficient building systems. Her active role as academic staff at VSB – Technical University of Ostrava, along with leadership in multiple funded research projects, demonstrates her strong scientific potential. She has published extensively in international journals and presented at global conferences. In addition to research, she has shown excellence in teaching and mentoring students in both Czech and English. Her accolades, including awards from the dean and city scholarships, highlight her recognized achievements. With advanced technical skills and a growing international research presence, Dr. Vavřínová stands out as a promising young scientist whose work aligns with contemporary challenges in sustainable engineering. She is a deserving candidate for this prestigious award.

Professional Profile

Education🎓

Dr. Nikola Vavřínová has pursued a focused and progressive academic path in the field of Civil Engineering at VSB – Technical University of Ostrava. She began her higher education with a Bachelor’s degree (2012–2016) in Construction Preparation and Implementation, followed by a Master’s degree (2016–2018) in Industrial and Building Construction. She further advanced her expertise by completing a Ph.D. (2018–2024) in the Theory of Constructions, demonstrating a strong commitment to deepening her knowledge and research skills in structural engineering and sustainable building practices. Prior to her university education, she laid a solid foundation at the Secondary Technical School of Construction in Valašské Meziříčí (2008–2012), specializing in Civil Engineering. Her academic journey reflects both consistency and dedication to the built environment, enabling her to gain comprehensive knowledge from practical construction principles to advanced theoretical and research-based approaches. This educational background has well-equipped her for her current academic and research roles.

Professional Experience📝

Dr. Nikola Vavřínová has built a solid professional career centered on academia and practical experience in the construction industry. Since January 2021, she has served as academic staff at the Department of Building Construction, VSB – Technical University of Ostrava, where she is actively involved in teaching, supervising theses, and conducting research in sustainable construction and building technologies. Her role includes delivering lectures in both Czech and English, covering topics such as Building Information Modeling (BIM), building failures, industrial construction, and project design. Prior to this, from May 2016 to February 2018, she worked as a designer in the construction industry at the university’s Research Energy Center, where she gained hands-on experience in practical design and technical solutions. This combination of academic and industry experience has provided her with a well-rounded perspective, enabling her to contribute effectively to both educational and research advancements in civil engineering and energy-efficient building systems.

Research Interest🔎

Dr. Nikola Vavřínová’s research interests lie primarily in sustainable civil engineering, with a strong focus on energy-efficient building design, thermal performance analysis, and the development of eco-friendly construction materials. She has been actively involved in the study of composite materials reinforced with natural fibers, such as gypsum-based materials enhanced with straw or wood fibers, aiming to improve mechanical and thermal properties while promoting environmental sustainability. Her work extends to experimental measurements and modeling of the internal microclimate of historic and modern buildings, contributing valuable insights into building performance and occupant comfort. She is also interested in applying Building Information Modeling (BIM) technologies in construction processes to improve design accuracy and energy efficiency. Dr. Vavřínová’s research bridges theoretical concepts and practical applications, supporting innovation in green construction and adaptive reuse of existing structures. Her interdisciplinary approach reflects a commitment to addressing current challenges in sustainable building and modern construction technologies.

Award and Honor🏆

Dr. Nikola Vavřínová has received several awards and honors that highlight her academic excellence and research contributions in civil engineering. She earned 3rd place in the 2016 faculty SVOČ (Student Scientific and Professional Activities) competition, demonstrating early recognition of her research potential. Her diploma thesis was honored by the Dean of the Faculty, acknowledging the quality and impact of her academic work. In the 2019/2020 academic year, she received a prestigious scholarship from the city of Ostrava, awarded to outstanding students for academic merit and achievements. Additionally, she was honored with the Dean’s Prize in the “MSK Construction 2019” competition, specifically for her successful involvement in civil engineering research projects. These accolades reflect her consistent dedication to excellence, innovation, and practical problem-solving in her field. They also underscore her growing reputation as a young leader in sustainable construction and academic research, further supporting her candidacy for prestigious awards.

Research Skill🔬

Dr. Nikola Vavřínová possesses strong and diverse research skills, particularly in the field of sustainable civil engineering and building science. She has demonstrated expertise in experimental research, including the measurement and analysis of thermal and mechanical properties of composite materials reinforced with natural fibers. Her ability to model and simulate building microclimates and thermal behavior reflects a solid command of both theoretical knowledge and practical application. As a principal and co-researcher in multiple funded projects, she has showcased skills in research planning, data interpretation, scientific writing, and team collaboration. Her proficiency in software tools such as AutoCAD, SketchUp, and Svoboda software, along with basic knowledge of ArchiCAD and advanced use of Microsoft Office, enhances her ability to handle technical aspects of research efficiently. Additionally, her experience in writing and publishing scientific papers, and participating in international conferences, highlights her capability in academic communication and global knowledge exchange.

Conclusion💡

Dr. Nikola Vavřínová is highly suitable for the Young Scientist Award. She demonstrates a solid combination of research excellence, academic dedication, innovation in sustainable civil engineering, and leadership in both research and teaching. With her clear upward trajectory, she is a strong candidate deserving recognition and support to further amplify her contributions to the scientific community.

Publications Top Noted✍

  • Title: Analysis of the Thermal Engineering Properties of Low-Carbon Wooden Buildings Placed Above, Partly Below, and Completely Below Ground Level
    Authors: Kubenková Katerina, Vavřínová Nikola, Fojtík Roman, Plaček Michal
    Year: 2025
    Citation: DOI: 10.1016/j.csite.2025.106566

  • Title: Software for the Multi-Criteria Design of the External Walls Based on User Priority
    Authors: Jiří Majer, Nikola Vavřínová, Kateřina Stejskalová, Lenka Pentková
    Year: 2022
    Citation: DOI: 10.3390/buildings12050647

  • Title: Assessment of the Summer Thermal Stability of the Attic Room Using Two Different Software
    Authors: Kateřina Stejskalová, Nikola Vavřínová
    Year: 2020
    Citation: DOI: 10.2478/cee-2020-0036

  • Title: Assessment of Plinth of Energy-Efficient House Objects
    Authors: Jašek M., Kubenková K., Mynarzová L., Vavřínová N.
    Year: 2019
    Citation: DOI: 10.5593/sgem2019/6.2/S26.005

  • Title: Ignitability Small Attack Flame Fire Test of Gypsum Composite Reinforced with Natural Fibres
    Authors: Teslík J., Hošťálková M., Vavřínová N.
    Year: 2019
    Citation: DOI: 10.1556/1848.2019.0009

  • Title: Mechanical Properties of the Gypsum Composite Reinforcement with Wooden Fibers
    Authors: Hošťálková M., Vavřínová N., Longauerová V.
    Year: 2019
    Citation: DOI: 10.1556/1848.2019.0003

  • Title: The Research of Properties of Composite Materials Based on Plaster with Reinforcement of Natural Fibres
    Authors: Hošťálková M., Vavřínová N., Longauerová V.
    Year: 2018
    Citation: DOI: 10.5593/sgem2018/6.3/S26.055

Wenliang Yin | Sustainable Development | Best Researcher Award

Published on by Civil Engineering

Assoc. Prof. Dr. Wenliang Yin | Sustainable Development | Best Researcher Award

Chairman Of Department at Shandong University of Technology, China

Wenliang Yin is an associate professor at the School of Electrical and Electronic Engineering at Shandong University of Technology (SDUT), China. With a robust background in renewable energy systems and wind power engineering, he has made significant contributions to the development of hybrid wind power generation systems integrated with hydrogen storage technologies. As a recipient of multiple prestigious grants and awards, he has positioned himself as a leading early-career researcher in the intersection of mechanical transmission, electrical control, and renewable energy integration.

Profile

Scopus

Education

Dr. Yin received his Ph.D. in Energy Power and Mechanical Engineering from North China Electric Power University (NCEPU), Beijing, in 2019, following a direct transfer from his Master’s program due to outstanding academic performance. During his doctoral studies, he also served as a visiting Ph.D. candidate at the University of New South Wales, Sydney, from 2017 to 2018, where he deepened his knowledge in electrical engineering and control systems. His undergraduate and initial graduate training were also completed at NCEPU, where he built a solid foundation in energy systems and mechanical engineering.

Experience

Since joining SDUT in 2019, Dr. Yin has advanced from lecturer to associate professor and currently supervises Master’s research students while also coordinating and lecturing undergraduate courses such as New Energy Power Generation Technology and Condition Monitoring. In parallel, he was appointed a Youth Outstanding Researcher in Shandong Province, a recognition granted to top academic talents. Prior to this, his early career included extensive involvement in national-level research programs focused on wind turbine systems and energy storage technologies.

Research Interests

Dr. Yin’s research focuses on the dynamics, modeling, and optimization of wind power generation systems, especially those employing speed regulating differential mechanisms (SRDM). His work also explores robust control strategies for hybrid-drive wind turbines integrated with hydrogen energy storage systems to enhance grid-friendly operation. His interests extend to mechanical vibration theory, electrical machine control, and system-level energy optimization. He is particularly known for developing simulation models and experimental verifications of hybrid wind-hydrogen systems, bridging theoretical concepts with practical engineering applications.

Awards

Dr. Yin has been recognized with several prestigious honors, including the Excellent Doctoral Dissertation Award from NCEPU (Top 5%) in 2019 and the Youth Outstanding Researcher Award by the Shandong provincial government (Top 1%) the same year. He has also been awarded the National Teacher Qualification Certificate and was named an Excellent Teacher by SDUT in 2021 (Top 1%). Additionally, he has received multiple first-class scholarships throughout his academic career and was acknowledged as an Excellent Reviewer at IEEE I&CPS Asia 2020. His supervision excellence is also evidenced by two undergraduate theses being named among SDUT’s top 2%.

Publications

Dr. Yin has authored numerous academic works, among which the following seven represent key contributions to his field:

Yin et al., “Advanced Power Curve Modeling for Wind Turbines: A Multivariable Approach with SGBRT and Grey Wolf Optimization,” Energy Conversion and Management, 2025 – cited for its advanced prediction methodology in wind energy performance (SJR Q1; IF 9.9).

Jia, Yin et al., “Performance improvement of active distribution networks…,” CSEE Journal of Power and Energy Systems (Online, 2025) – noted for control strategies in hybrid-drive farms (SJR Q2; IF 6.9).

Yin, Rui, “Research on dynamic characteristics…,” Acta Energiae Solaris Sinica, 2021 – studied mechanical dynamics in SRDM-based systems (SJR Q4; IF 1.069).

Yin et al., “Modeling and simulation analysis of 1.5 MW wind turbine…,” Chinese Science Paper Online, 2016 – explored hydrogen integration in turbines.

Yin et al., “Simulation analysis of wind turbine hydrogen production system…,” Chinese Science Paper Online, 2016 – introduced SRDM-based hydrogen production modeling.

Yin et al., “Analysis of a front-end speed regulation wind turbine with hydrogen storage system,” IEEE I&CPS Asia 2020 – presented hybrid drive designs (IEEE/EI indexed).

Wang, Yin et al., “Fractional-order sliding mode control…,” Journal of Modern Power Systems and Clean Energy, 2023 – focused on voltage stability in hybrid turbines (SJR Q1; IF 6.3).

Conclusion

With a strong academic pedigree, impressive publication record, and a track record of successful project leadership, Dr. Wenliang Yin has emerged as a promising researcher in the fields of wind energy systems and renewable energy integration. His work bridges mechanical design and electrical control, making him a unique contributor to next-generation energy technologies. His excellence in supervision, innovation, and academic service illustrates not only his technical proficiency but also his commitment to advancing the renewable energy discipline in both research and education.