Ehsan Govahi | Engineering | Research Excellence Award

Research Excellence Award

Ehsan Govahi
Affiliation K. N. Toosi University of Technology
Country Iran
Scopus ID 57224947757
Documents 3
Citations 80
h-index 3
Subject Area Engineering
Event International Forensic Scientist Awards
ORCID 0000-0003-3891-6068
Ehsan Govahi
K. N. Toosi University of Technology, Iran

Ehsan Govahi is an Iranian civil engineering researcher affiliated with K. N. Toosi University of Technology. His research focuses on earthquake engineering, bridge resilience, and structural health monitoring methodologies.[1]

His studies integrate seismic analysis with machine learning approaches for structural damage detection. Govahi has contributed to multiple peer-reviewed publications in infrastructure engineering and seismic vulnerability assessment.[2][3]

Abstract

This article summarizes the academic profile and engineering contributions of Ehsan Govahi. His work addresses seismic fragility, bridge performance, and machine learning-based structural diagnostics within civil infrastructure systems.[2]

Keywords

Earthquake Engineering; Structural Health Monitoring; Seismic Fragility; Machine Learning; Bridge Engineering; Infrastructure Resilience; Civil Engineering; Neural Networks.

Introduction

Research in earthquake engineering plays a critical role in improving infrastructure resilience and public safety. Ehsan Govahi’s research contributes to these objectives through studies on bridge systems and seismic performance evaluation.[3]

He earned his M.Sc. in Earthquake Engineering from K. N. Toosi University of Technology. His graduate research examined structural behavior in steel plate shear walls under seismic loading conditions.[6]

Research Profile

Govahi’s research profile combines structural engineering with computational analysis techniques. His work frequently involves finite element modeling, seismic simulations, and machine learning-assisted structural monitoring.[7]

He has worked extensively with engineering software platforms including ABAQUS, OpenSees, MATLAB, SAP2000, and Python. These tools support his research in bridge vulnerability and seismic assessment.[7]

Research Contributions

Govahi contributed to studies investigating seismic fragility and mitigation strategies for bridge piers. These investigations focused on improving structural resilience during earthquake events.[4]

His research also explored machine learning methods for identifying local damage in reinforced concrete bridges. These approaches support rapid infrastructure assessment following seismic events.[2]

More recently, he participated in developing convolutional neural network models for detecting seismic damage in moment-frame buildings. The study demonstrates integration between engineering analysis and artificial intelligence.[5]

Publications

  • Govahi, E., Salkhordeh, M., & Mohammadi, R. K. (2025). A strengthened convolutional neural network algorithm for identifying the extent of seismic damage in moment-frame buildings.[5]
  • Salkhordeh, M., Mirtaheri, M., Rabiee, N., Govahi, E., & Soroushian, S. (2023). A rapid machine learning-based damage detection technique for detecting local damages in reinforced concrete bridges. DOI: 10.1080/13632469.2023.2193277.[2]
  • Govahi, E., Salkhordeh, M., & Mirtaheri, M. (2022). Cyclic performance of different mitigation strategies proposed for segmental precast bridge piers. DOI: 10.1016/j.istruc.2021.12.020.[3]
  • Salkhordeh, M., Govahi, E., & Mirtaheri, M. (2021). Seismic fragility evaluation of various mitigation strategies proposed for bridge piers. DOI: 10.1016/j.istruc.2021.05.041.[4]

Research Impact

Govahi’s research publications have received approximately 80 citations within engineering and infrastructure studies. His work demonstrates measurable visibility in seismic engineering research.[1]

The integration of machine learning into structural assessment represents a notable aspect of his research impact. His studies contribute to modern infrastructure monitoring and damage evaluation techniques.[2]

Award Suitability

Ehsan Govahi demonstrates strong alignment with the objectives of the Research Excellence Award. His work combines seismic engineering research with computational intelligence applications for infrastructure analysis.[4]

His participation in post-earthquake inspection activities in Kermanshah Province also reflects practical engagement with structural safety and disaster response engineering.[8]

Conclusion

Ehsan Govahi has contributed to research in earthquake engineering, bridge resilience, and machine learning-assisted structural diagnostics. His scholarly activities support continued advancements in infrastructure safety and seismic assessment methodologies.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Ehsan Govahi, Author ID 57224947757.https://www.scopus.com/authid/detail.uri?authorId=57224947757
  2. Salkhordeh, M., et al. (2023). A rapid machine learning-based damage detection technique for detecting local damages in reinforced concrete bridges.https://doi.org/10.1080/13632469.2023.2193277
  3. Govahi, E., et al. (2022). Cyclic performance of different mitigation strategies proposed for segmental precast bridge piers.https://doi.org/10.1016/j.istruc.2021.12.020
  4. Salkhordeh, M., Govahi, E., & Mirtaheri, M. (2021). Seismic fragility evaluation of various mitigation strategies proposed for bridge piers.https://doi.org/10.1016/j.istruc.2021.05.041
  5. Govahi, E., Salkhordeh, M., & Mohammadi, R. K. (2025). A strengthened convolutional neural network algorithm for identifying the extent of seismic damage in moment-frame buildings.

Andrii Hovorukha | Engineering | Best Researcher Award

Mr. Andrii Hovorukha | Engineering | Best Researcher Award

M.S. Poliakov Institute of Geotechnical Mechanics of the National Academy of Sciences | Ukraine

Mr. Andrii Hovorukha is a researcher specializing in the mechanics, dynamics, and tribology of railway and industrial transport systems. His work focuses on the mathematical modeling of dynamic interactions, wear, and operational safety of track structures, rolling stock, and heavily loaded mining equipment. He has authored 36 scientific publications with 15 citations and a Google Scholar h-index of 3, contributing to international journals and conference proceedings. His research includes the development of innovative friction modifier technologies, particularly the “Ideal” repair and restoration mixture, which forms wear-resistant nanostructured layers, significantly extending equipment service life. Mr. Andrii Hovorukha’s contributions advance the reliability, safety, and efficiency of industrial and railway transport systems, bridging theoretical modeling with practical industrial applications.

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View Google Scholar Profile  View ORCID Profile

Featured Publications


Improvement of the service life of mining and industrial equipment by using friction modifiers

– V.V. Hovorukha, A.V. Hovorukha · Scientific Bulletin of National Mining University, 2023 · Cited by 3


Исследование динамики приводов стрелочных переводов горного транспорта

– A.V. Hovorukha, S.L. Ladik · Геотехнічна механіка, 2015 · Cited by 3


Method for studying spatial vibrations of a vehicle during its movement along the rail track on separate supports with elastic-dissipative and inertial properties

– L.P. Semyditna, V.V. Hovorukha, A.V. Hovorukha, T.P. Sobko · Геотехнічна механіка, 2022 · Cited by 2


Research of deformed state of railway track joint zones in complex operating conditions of rail transport

– V.V. Hovorukha, A.V. Hovorukha, Y.O. Makarov, T.P. Sobko, L.P. Semyditna · Геотехнічна механіка, 2023 · Cited by 1

Kirubakaran Annamalai | Engineering | Research Excellence Award

Dr. Kirubakaran Annamalai | Engineering | Research Excellence Award

National Institute of Technology Warangal | India

Dr. Kirubakaran Annamalai, Associate Professor at the Department of Electrical Engineering, National Institute of Technology, Warangal, is a distinguished researcher in Power Electronics, Renewable Energy Systems, and Distributed Generation, with a primary focus on the design, analysis, and implementation of multilevel inverters, DC-DC and DC-AC converters, grid-tied photovoltaic systems, and power quality improvement techniques. He has made significant contributions to quasi-Z-source and switched-capacitor-based inverter topologies, emphasizing high efficiency, reduced device counts, leakage current minimization, and real-time control using DSP, FPGA, and dSPACE platforms. Dr. Kirubakaran Annamalai has published 70 peer-reviewed articles, accumulating 1,563 citations with an h-index of 14 (Scopus), in top international journals such as IEEE Transactions on Power Electronics, IEEE Journal of Emerging and Selected Topics in Power Electronics, and Springer’s Journal of Electrical Engineering, and has presented extensively at IEEE and global conferences. He has authored multiple book chapters on advanced power electronics for solar PV and hybrid renewable systems, demonstrating his expertise in sustainable energy technologies. He has successfully led and collaborated on research projects funded by SERB, DST-FIST, SPARC, and SIRE, with budgets ranging from Rs. 2.8 Lakhs to over Rs. 94 Lakhs, focusing on innovative converter designs, smart grid laboratories, and electric vehicle applications, and holds patents on transformer less multilevel inverters. Dr. Kirubakaran Annamalai has supervised numerous Ph.D. and M.Tech scholars, advancing frontier research in power electronics. Recognized for his research excellence through the SIRE Fellowship 2023, multiple IEEE Best Paper Awards, editorial contributions, conference chairing, and active membership in IEEE, ISTE, and other professional bodies, he continues to drive innovation in inverter topologies, grid integration strategies, and renewable energy systems, making a lasting impact on modern power conversion technologies.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate | LinkedIn

Featured Publications

  • Palakurthi, R., & Kirubakaran, A. (2025). DSP controlled single-phase two-stage five-level inverter for high-efficiency grid-connected photovoltaic systems. Electrical Engineering, 108(1).

  • Palakurthi, R., & Kirubakaran, A. (2025). Rapid prototyping of FPGA controlled common ground single-phase transformerless five-level inverter using Xilinx System Generator. IEEE Latin America Transactions, 23(7), 609–618.

  • Kalyan Singh, K., & Kirubakaran, A. (2025). Single-phase five-level common ground transformerless switched capacitor inverters for PV applications with double gain. In 2025 Fourth International Conference on Power, Control and Computing Technologies (ICPC2T).

  • Barzegarkhoo, R., Kirubakaran, A., Pereira, T., Liserre, M., & Siwakoti, Y. P. (2024). Improved T-type and ANPC multilevel converters by means of GaN-based T-cell branch and bidirectional device. In IECON 2024 – 50th Annual Conference of the IEEE Industrial Electronics Society.

  • Kirubakaran, A., Barzegarkhoo, R., & Liserre, M. (2024). A new single-phase dual-mode active neutral point-clamped five-level inverter for renewable applications. In 2024 Third International Conference on Power, Control and Computing Technologies (ICPC2T).

Surakasi Raviteja | Engineering | Excellence in Research Award

Assist. Prof. Dr. Surakasi Raviteja | Engineering | Excellence in Research Award

Lendi Institute of Engineering and Technology | India

Dr. Surakasi Ravi Teja is a dedicated researcher whose work spans thermal engineering, nanofluids, biofuels, heat transfer augmentation, sustainable energy systems, and advanced materials science. His research expertise includes the experimental evaluation of thermophysical properties, development of nanomaterial-enhanced solar thermal fluids, ANN-based predictive modeling, biodiesel and pyrolysis-fuel combustion analysis, and CFD-driven optimization of thermal devices. With 77 Scopus-indexed publications, 960 citations, and an h-index of 17, he has established a strong scientific presence, contributing extensively to high-impact Scopus-, SCI-, and SCIE-indexed journals such as Frontiers in Heat and Mass Transfer, Journal of Nanomaterials, Materials Today: Proceedings, International Journal of Chemical Engineering, and Adsorption Science & Technology. His Q1–Q2 publications reflect significant advancements in areas including nanofluid stability, enhanced heat transfer, eco-friendly fuel blends with  , and nano-reinforced composite materials. His interdisciplinary works extend to solar water heating systems, cryogenic vessel design, adsorption-based separation technologies, and nanoparticle-assisted wastewater treatment. Several of his highly cited studies focus on waste-to-energy conversion, algae-oil biodiesel applications, and green-synthesized nanoparticles for environmental remediation, highlighting his contribution to sustainable and cleaner energy technologies. In addition to his research output, Dr. Teja serves as a reviewer for numerous national and international journals and holds editorial memberships, contributing to global scholarly communication and knowledge dissemination. His consistent research engagement, innovation-driven approach, and interdisciplinary collaborations underscore his impactful role in advancing thermal sciences, materials engineering, and renewable energy research.

Profiles: Scopus | Google Scholar | ORCID | Staff Profile

Featured Publications

  1. Sathish, T., Vijayalakshmi, A., Surakasi, R., Ahalya, N., Rajkumar, M., … (2024). DeepNNet 15 for the prediction of biological waste to energy conversion and nutrient level detection in treated sewage water. Process Safety and Environmental Protection, 189, 636–647.

  2. Senthil, T. S., Puviyarasan, M., Babu, S. R., Surakasi, R., & Sampath, B. (2023). Industrial robot-integrated fused deposition modelling for the 3D printing process. In Development, Properties, and Industrial Applications of 3D Printed Polymer Materials

  3. Lakshmaiya, N., Surakasi, R., Nadh, V. S., Srinivas, C., Kaliappan, S., … (2023). Tanning wastewater sterilization in the dark and sunlight using Psidium guajava leaf-derived copper oxide nanoparticles and their characteristics. ACS Omega, 8(42), 39680–39689.

  4. Nirmal Kumar, K., Dinesh Babu, P., Surakasi, R., Kumar, P. M., & Ashokkumar, P. (2022). Mechanical and thermal properties of bamboo fiber–reinforced PLA polymer composites: A critical study. International Journal of Polymer Science, 2022(1), 1332157.

  5. Vennila, T., Karuna, M. S., Srivastava, B. K., Venugopal, J., & Surakasi, R. (2023). New strategies in treatment and enzymatic processes: Ethanol production from sugarcane bagasse. In Human Agro-Energy Optimization for Business and Industry (pp. 219–240).

Danladi Abdu | Engineering | Best Researcher Award

Mr. Danladi Abdu | Engineering | Best Researcher Award

Federal University of Transportation | Nigeria

Mr. Danladi Abdu is a distinguished civil engineering researcher whose work integrates artificial intelligence, data science, and structural engineering to advance the safety and performance of transportation infrastructures. His research focuses on the intelligent assessment and predictive modeling of structural behavior in railway and bridge systems using machine learning algorithms. Through his influential publications in reputable journals such as Structures and the Journal of Railway Science and Technology, Mr. Danladi Abdu has contributed significantly to the development of AI-based approaches for monitoring bridge pier settlements and predicting fire-induced steel beam deformations. His scholarly work bridges the gap between traditional structural analysis and modern computational intelligence, offering innovative methodologies for structural health monitoring and predictive maintenance. Mr. Danladi Abdu’s research interests encompass smart infrastructure systems, railway bridge engineering, machine learning applications in civil engineering, and sustainable design innovations. Recognized for his academic excellence and innovative mindset, he has received multiple awards, including the Class of 2023 Outstanding International Graduate Student Award from Central South University and the Aier Cup Innovation and Entrepreneurship Competition Award. His contributions highlight a strong commitment to applying advanced technologies for solving complex engineering challenges, fostering safer, more efficient, and sustainable infrastructure systems. With an expanding research portfolio and a growing impact in structural and transportation engineering, Mr. Danladi Abdu continues to drive forward-thinking solutions that merge artificial intelligence with civil engineering principles to enhance infrastructure reliability and sustainability in a rapidly evolving technological landscape.

Profile: ORCID

Featured Publications

  • Abdu, D. M., Shedamang, S., Jimoh, J., & Idris, A. (2025). Prediction of fire-induced steel beam deformation using machine learning algorithms. Journal of Railway Science and Technology. https://doi.org/10.1016/j.jrst.2025.10.001

  • Abdu, D. M., Guo, W., & Wang, Y. (2023). Assessment of railway bridge pier settlement based on train acceleration response using machine learning algorithms. Structures. https://doi.org/10.1016/j.istruc.2023.03.167

Sarat Mohapatra | Engineering | Innovative Research Award

Dr. Sarat Mohapatra | Engineering | Innovative Research Award

Centre for Marine Technology and Ocean Engineering (CENTEC), Instituto Superior Técnico, University of Lisbon | Portugal

Dr. Sarat Mohapatra is an accomplished marine researcher whose work bridges theoretical modeling, computational simulation, and experimental validation in the fields of hydroelasticity, ocean hydrodynamics, offshore aquaculture systems, and floating platform dynamics. His research primarily addresses complex fluid–structure interactions and the development of hydroelastic models for flexible and porous marine structures under combined wave and current conditions. With over 70 international publications in leading journals such as Ocean Engineering, Applied Ocean Research, Journal of Fluids and Structures, Physics of Fluids, and Journal of Marine Science and Engineering, his work has received significant global recognition, reflected in an h-index of 21 and more than 1,160 citations. Dr. Sarat Mohapatra has been a key contributor to several European and Portuguese Foundation for Science and Technology (FCT)-funded projects, focusing on hydrodynamic and hydroelastic analysis of large floating structures and wave energy systems. His recent studies include the development of analytical, numerical, and CFD-based models to predict wave-current interactions and improve the design of sustainable marine systems. In addition to his strong publication record, he has served as a journal reviewer, editorial contributor, and co-supervisor for doctoral and postgraduate research, promoting innovation and collaboration within marine technology. Through his pioneering contributions, Dr. Sarat Mohapatra continues to advance the understanding of ocean engineering phenomena, supporting innovations in marine renewable energy, offshore structure design, and environmentally resilient aquaculture technologies that contribute to the sustainable utilization of ocean resources.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate | Cienciavitae

Featured Publications

  • Mohapatra, S. C., Amouzadrad, P., & Guedes Soares, C. (2025). Recent developments in the nonlinear hydroelastic modeling of sea ice interaction with marine structures. Journal of Marine Science and Engineering, 13(8), Article 1410. https://doi.org/10.3390/jmse13081410

  • Mohapatra, S. C., & Guedes Soares, C. (2025). Oblique wave analysis under current conditions on a floating flexible membrane. Physics of Fluids, 37(7), Article 072101. https://doi.org/10.1063/5.0278003

  • Mohapatra, S. C., Guedes Soares, C., & Meylan, M. H. (2025). Three-dimensional and oblique wave-current interaction with a floating elastic plate based on an analytical approach. Symmetry, 17(6), Article 831. https://doi.org/10.3390/sym17060831

  • Amouzadrad, P., Mohapatra, S. C., & Guedes Soares, C. (2025). Review on sensitivity and uncertainty analysis of hydrodynamic and hydroelastic responses of floating offshore structures. Journal of Marine Science and Engineering, 13(6), Article 1015. https://doi.org/10.3390/jmse13061015

  • Mohapatra, S. C., & Guedes Soares, C. (2025). Wave–current interaction with a deformable bottom in a three-dimensional channel. Physics of Fluids, 37(5), Article 052104. https://doi.org/10.1063/5.0267255

Habtamu Teshome | Engineering | Best Researcher Award

Mr. Habtamu Teshome | Engineering | Best Researcher Award

Bule Hora University | Ethiopia

Mr. Habtamu Teshome is an Ethiopian civil engineer, researcher, and educator with extensive experience in construction project management and structural engineering. He has worked as a lecturer at Bule Hora University, where he has been actively involved in teaching, research supervision, and administrative responsibilities. His academic journey has taken him across international institutions, broadening his expertise and deepening his contributions to civil and structural engineering. Currently, he is a doctoral researcher at Andhra University in India, pursuing advanced studies in structural engineering while continuing his mission to advance both theory and practice in construction and design.

Professional Profile

Scopus

ORCID

Education

Mr. Habtamu Teshome’s educational background demonstrates a continuous pursuit of excellence. He first completed studies in Construction Technology and Management at Wollega University, where he gained a strong foundation in civil engineering principles. To advance his professional knowledge, he earned a postgraduate degree in Construction Project Management from Parul University, India, where he deepened his expertise in planning, resource management, and sustainable construction practices. His academic path has now led him to doctoral research at Andhra University, where he specializes in structural engineering, focusing on innovative solutions for resilient and sustainable infrastructure.

Experience

With more than a decade of teaching and research experience, Habtamu Teshome has made significant contributions to higher education and civil engineering research. As a lecturer at Bule Hora University, he has taught a wide range of courses, guided research projects, and supervised students in both theoretical and practical aspects of civil engineering. Beyond classroom teaching, he has taken on administrative responsibilities, where he worked to improve academic programs, foster collaboration among faculty, and support the professional development of students. His international exposure and involvement in collaborative projects have further shaped his ability to apply research outcomes to real-world engineering challenges.

Research Interests

Habtamu Teshome research interests span structural engineering, construction project management, sustainable building systems, and innovative design technologies. His work emphasizes the importance of bridging the gap between academic research and practical implementation, especially in the context of developing nations where infrastructure challenges are pressing. He is particularly passionate about developing resilient structural systems, improving construction quality and safety, and promoting sustainable engineering practices that balance cost-effectiveness with environmental responsibility.

Awards

Mr. Habtamu Teshome has been recognized with strong academic recommendations and institutional acknowledgments for his contributions to teaching, research, and student development. His work has earned praise from both Ethiopian and Indian academic institutions for his excellence in civil engineering education, mentorship, and technical expertise. These recognitions reflect his commitment to advancing engineering knowledge while ensuring that students gain meaningful academic and professional experiences.

Publications

Mr. Habtamu Teshome has published research contributions in reputable journals and conference proceedings in the fields of structural and construction engineering. Some of his notable publications include:

1. Title: Comparing the Effectiveness of Conventional and Bacterial-derived Nanomaterials in Concrete for Sustainable Buildings
Journal: Iranian Journal of Science and Technology, Transactions of Civil Engineering
Published on: 2025

2. Title: In Bio‐Based Self‐Healing Concrete: Effect of Nutrient Components of the Media on Mechanical Properties and Environmentally Friendly Concrete Development
Journal: Advances in Civil Engineering
Published on: 2025

3. Title: Investigation on Time Controlling Practices in Construction Projects at Bule Hora, Ethiopia: A Case Study
Journal: AIP Conference Proceedings
Published on: 2023

4. Title: Determining Factors Affecting Critical Success of Construction Project: Review
Journal: International Journal of Advanced and Innovative Research
Published on: 2017

5. Title: Investigation of Causative Factors and Effects of Delay of Projects in Building Construction in Ethiopia (Case Study in Bule Hora Town)
Journal: Futuristic Trends for Sustainable Ecosystem (FTSE 2021) Proceedings, Ahmedabad, India
Published on: 2021

Conclusion

Mr. Habtamu Teshome Teshome is a distinguished researcher and academic whose career reflects a consistent dedication to excellence in civil engineering. With a solid foundation in education, a decade of teaching and research experience, strong research interests in structural design and sustainable construction, and contributions through publications, he has demonstrated both leadership and innovation. His candidacy for the Best Researcher Award highlights his commitment to advancing civil engineering knowledge, mentoring the next generation of engineers, and contributing impactful solutions to the construction industry.

Ioannis Manariotis | Engineering | Best Researcher Award

Prof. Dr. Ioannis Manariotis | Engineering | Best Researcher Award

University of Patras / Department of Civil Engineering | Greece

Prof. Dr. Ioannis Manariotis is a Professor of Environmental Engineering at the University of Patras, Greece. With expertise in wastewater treatment, resource recovery, and microalgae biotechnology, he focuses on sustainable solutions for water pollution and energy production. His work bridges engineering, environmental science, and circular economy principles.

Professional profile👤

ORCID

Google Scholar

Scopus

Strengths for the Awards✨

  1. Outstanding Research Output

    • Extensive Publications: Over 85 peer-reviewed journal articles (including high-impact journals like Water ResearchChemical Engineering JournalJournal of Hazardous Materials).

    • Interdisciplinary Impact: Research spans wastewater treatment, microalgae biofuels, biochar applications, nanoparticle toxicity, and advanced oxidation processes.

    • High Citations & Collaborations: Works with international experts and contributes to cutting-edge topics like biochar-based electrocatalysts for Zn-air batteries and CO₂ sequestration.

  2. Leadership in Research & Innovation

    • Principal Investigator (PI) of multiple funded projects (e.g., EU/EEA Grants, national programs like “BLUE-GREENWAY” and “BioNFate”).

    • Special Issue Editor (Journal of Chemical Technology and Biotechnology) and Associate Editor for Biotechnology for Biofuels and Bioproducts and Frontiers in Water.

  3. Academic & Professional Recognition

    • Full Professor at the University of Patras with a 30+ year career in research and teaching.

    • Supervised 10+ Ph.D. students and 30+ Master’s theses, demonstrating mentorship excellence.

    • Reviewer for 40+ prestigious journals (Water ResearchScience of the Total Environment) and evaluator for international research proposals (e.g., Hellenic Foundation for Research).

  4. Technological & Environmental Impact

    • Focus on sustainable solutions:

      • Biochar for water purification and energy storage.

      • Microalgae-based wastewater treatment and biofuel production.

      • Novel sorbents for contaminant removal (e.g., Hg, phenanthrene).

    • Work aligns with UN Sustainable Development Goals (SDG 6: Clean Water, SDG 7: Affordable Energy).

Education 🎓

  • Ph.D. in Civil Engineering (2000), University of Patras, Greece.

  • Diploma in Civil Engineering (1990), University of Patras, Greece.

Experience 💼

  • Professor (2023–Present), Associate Professor (2019–2023), University of Patras.

  • Environmental Engineer (2001–2009), Region of Western Greece (water resources management).

  • Research/Teaching Roles (1991–2019): Lecturer, Assistant Professor, and Research Associate at the University of Patras.

Research Interests On Engineering 🔬

  • Phototrophic wastewater treatment (microalgae, biofilms, biofuels).

  • Resource recovery from wastewater (nutrients, energy).

  • Nanoparticle toxicity on microalgae.

  • Advanced oxidation processes and CO₂ sequestration via biochar.

Awards & Fellowships 🏆

  • Graduate Scholarship, Them. & Nik. Valsamakis Foundation (1991–1992).

  • Predoctoral Fellowship, University of Patras (1992–1998).

  • Technical Chamber of Greece Award (1989–1990).

Publications 📚

1. Removal of caffeine, nicotine and amoxicillin from (waste) waters by various adsorbents. A review
Authors: I Anastopoulos, I Pashalidis, AG Orfanos, ID Manariotis, T Tatarchuk, …
Year: 2020
Citations: 273

2. Degradation of antibiotic sulfamethoxazole by biochar-activated persulfate
Authors: L Kemmou, Z Frontistis, J Vakros, ID Manariotis, D Mantzavinos
Year: 2018
Citations: 187

3. Selection of microalgae for wastewater treatment and potential lipids production
Authors: AF Aravantinou, MA Theodorakopoulos, ID Manariotis
Year: 2013
Citations: 178

4. Degradation of PAHs by high frequency ultrasound
Authors: ID Manariotis, HK Karapanagioti, CV Chrysikopoulos
Year: 2011
Citations: 122

5. Low‐strength wastewater treatment using an anaerobic baffled reactor
Authors: ID Manariotis, SG Grigoropoulos
Year: 2002
Citations: 121

6. Effect of cultivation media on the toxicity of ZnO nanoparticles to freshwater and marine microalgae
Authors: AF Aravantinou, V Tsarpali, S Dailianis, ID Manariotis
Year: 2015
Citations: 111

7. Removal of mercury from aqueous solutions by malt spent rootlets
Authors: VA Anagnostopoulos, ID Manariotis, HK Karapanagioti, …
Year: 2012
Citations: 99

8. Organic and nitrogen removal in a two-stage rotating biological contactor treating municipal wastewater
Authors: DN Hiras, ID Manariotis, SG Grigoropoulos
Year: 2004
Citations: 93

9. Aqueous mercury sorption by biochar from malt spent rootlets
Authors: LG Boutsika, HK Karapanagioti, ID Manariotis
Year: 2014
Citations: 83

10. Preparation and characterization of biochar sorbents produced from malt spent rootlets
Authors: ID Manariotis, KN Fotopoulou, HK Karapanagioti
Year: 2015
Citations: 79

11. Activation of persulfate by biochars from valorized olive stones for the degradation of sulfamethoxazole
Authors: E Magioglou, Z Frontistis, J Vakros, ID Manariotis, D Mantzavinos
Year: 2019
Citations: 73

Conclusion 🌍

🌍 Impact: Prof. Manariotis bridges engineering innovation and environmental sustainability, advancing wastewater treatment, biochar applications, and microalgae research. His work supports global goals in clean water, renewable energy, and circular economy practices.

Huatao Zhao | Engineering | Best Researcher Award

Assoc. Prof. Dr. Huatao Zhao | Engineering | Best Researcher Award

Southwest Petroleum University | China

Dr. Huatao Zhao is an accomplished Associate Professor at the School of Geoscience and Technology, Southwest Petroleum University, China. With a PhD in Geotechnical Engineering and extensive experience in dynamic rock mechanics, Dr. Zhao’s academic journey and dedication to cutting-edge research have positioned him as a rising scholar in the field of geotechnical and geological engineering. His work contributes significantly to the understanding of stress wave propagation, dynamic fracture mechanisms, and safety technologies in underground construction.

Professional profile👤

Scopus

Strengths for the Awards✨

  • Strong Research Focus and Expertise
    Dr. Zhao’s research lies in Geotechnical and Geological Engineering, with a sharp focus on dynamic mechanical behavior of rock masses, fracture mechanics, and deep excavation under high-stress environments—a critical field in modern infrastructure, tunneling, and energy resource development.

  • Significant Research Output
    He has authored over 15 high-impact journal publications, including in International Journal of Rock Mechanics and Mining Sciences, International Journal of Impact Engineering, and Tunnelling and Underground Space Technology. These are reputed outlets in the geotechnical domain, indicating high-quality contributions.

  • Research Grants and Leadership
    Dr. Zhao has secured multiple national and provincial research grants, including three funded by the National Natural Science Foundation of China, showing recognition and trust from major funding bodies. The awarded projects reflect originality and address critical challenges in rock mechanics.

  • Academic Recognition and Awards

    • Outstanding Academic Report (2022, 2023) from both international and national platforms.

    • First Prize for Scientific and Technological Progress for contributions to blasting safety—highlighting real-world impact and applied research success.

  • International Exposure and Collaboration
    A guest research appointment at Kyoto University, Japan, adds valuable international dimension and collaboration to his academic profile.

🎓 Education

Dr. Zhao earned his Ph.D. in Geotechnical Engineering from Central South University (CSU), China (2018–2022). 🎓 During his doctoral studies, he enhanced his global perspective through a one-year stint as a Guest Researcher at Kyoto University, Japan (2019–2020). He previously completed his M.Sc. in Mining Engineering at CSU (2015–2018), where his foundational research skills in rock mechanics and underground engineering were developed.

💼 Experience

Since December 2022, Dr. Zhao has served as an Associate Professor at Southwest Petroleum University, having earlier held a Lecturer position at the same institution (July–December 2022). 🏫 His academic career has been focused on innovative geotechnical solutions, underground excavation safety, and dynamic load behavior in high-stress environments.

🔬 Research Interests On Engineering

Dr. Zhao’s research revolves around Geotechnical and Geological Engineering, specifically exploring the dynamic mechanical behavior, fracture mechanics, and stress wave propagation in underground rock structures. His recent projects funded by national and provincial bodies include studies on stress concentration effects, seismic-reservoir integration, and deep-hole blasting mechanisms. 🌋🧪

🏆 Awards

  • 🏅 Excellent Postgraduate Student, Central South University, 2016

  • 🏅 Outstanding Academic Report, RocDyn-4 Conference, 2022

  • 🏅 Outstanding Academic Report, Geological Society of China, 2023

  • 🥇 First Prize, Scientific and Technological Progress for key technologies in intelligent open-pit and underground blasting, 2023

These honors underscore Dr. Zhao’s recognized contributions to academic research and engineering innovations.

📚 Publications

Dr. Zhao has authored and co-authored numerous high-impact journal articles that have garnered significant academic attention. 📈 His publications include:

  1. Influence of excavation damaged zone on the dynamic response of circular cavityInternational Journal of Rock Mechanics and Mining Sciences, 2021.

  2. Estimation of spalling strength of sandstoneInternational Journal of Impact Engineering, 2019.

  3. Experimental investigation on dynamic mechanical properties of underground openingsInternational Journal of Damage Mechanics, 2022.

  4. Theoretical analysis of stress distribution around circular damaged roadwayInternational Journal for Numerical and Analytical Methods in Geomechanics, 2023.

  5. Mechanical characteristics and fracture mechanism of graniteChinese Journal of Nonferrous Metals, 2023.

  6. Analytical study of P-wave scattering around circular cavitiesTunnelling and Underground Space Technology, 2020.

  7. Failure characteristics in pre-stressed rocks under dynamic loadingTunnelling and Underground Space Technology, 2018.

  8. Fracture failure analysis of granodiorite rocksTheoretical and Applied Fracture Mechanics, 2020.

  9. Failure characteristics under 3D stress conditionsTransactions of Nonferrous Metals Society of China, 2022.

  10. Influence of acid corrosion on dynamic properties of marbleGeomechanics and Geophysics for Geo-Energy and Geo-Resources, 2021.

  11. Dynamic failure behavior of holed sandstoneInternational Journal of Damage Mechanics, 2023.

  12. Dynamic fracture of granodiorite under various hole sizesTheoretical and Applied Fracture Mechanics, 2020.

  13. Dynamic stress redistribution around circular tunnelsComputers and Geotechnics, 2023.

  14. Dynamic behaviors of stressed circular tunnel under cylindrical P waveRock Dynamics, CRC Press, 2023.

  15. Intelligent prediction of underbreak in tunnelingInternational Journal of Rock Mechanics and Mining Sciences, 2024.

📝 Many of these publications have been cited in subsequent research, highlighting Dr. Zhao’s influence in advancing underground rock mechanics.

✅ Conclusion

Dr. Huatao Zhao exemplifies the qualities of a dedicated academic, innovative researcher, and impactful contributor to geotechnical engineering. 🛠️ His international training, prolific publication record, and multiple honors make him a strong candidate for academic recognition and future leadership in engineering research. He continues to inspire both peers and students through his scientific rigor and dedication to addressing complex underground engineering challenges.

Jingting Liu | Engineering | Best Researcher Award

Assoc. Prof. Dr. Jingting Liu | Engineering | Best Researcher Award

Shandong University | China

Dr. Jingting Liu is an Associate Professor in the Process Equipment and Control Engineering Department at Shandong University. She holds a Ph.D. in Chemical Process Machinery from Zhejiang University and a B.S. in Process Equipment and Control Engineering from China University of Petroleum. Her work focuses on fluid dynamics, vibration, and acoustics, with a particular interest in bubble dynamics.

Professional profile👤

Scopus

Strengths for the Awards✨

  • Research Excellence: Jingting Liu has led multiple research projects, notably funded by prestigious institutions like the National Natural Science Foundation of China and various provincial foundations, highlighting her capacity to secure competitive funding.

  • Publication Record: She has published extensively in high-impact journals, including the Chemical Engineering Journal and Physics of Fluids, showcasing the significance and quality of her research.

  • Innovative Contributions: Her focus on bubble dynamics and acoustics has practical applications in fluid machinery and noise reduction, demonstrating innovation and relevance to real-world challenges.

  • Interdisciplinary Impact: Her work integrates fluid dynamics, vibration, and acoustics, broadening the impact across multiple fields.

  • Leadership and Mentorship: As an associate professor, she not only contributes to research but also teaches and mentors students, nurturing the next generation of researchers.

  • Editorial Roles: Serving as a guest editor reflects her recognition and trust within the scientific community.

Education 🎓

  • Ph.D. in Chemical Process Machinery, Zhejiang University
  • B.S. in Process Equipment and Control Engineering, China University of Petroleum

Experience 💼

Jingting Liu has been serving as an Associate Professor at Shandong University, where she teaches courses in fluid mechanics and fluid machinery. She has led multiple research projects, delving into underwater bubble dynamics and acoustic phenomena. Her contributions extend to both academia and industry, where she provides solutions to reduce noise in fluid machinery.

Research Interests On Engineering🔬

Her primary research interests include fluid machinery, vibration and acoustics, bubble dynamics, and bubble acoustics. She explores the intricate mechanisms behind bubble formation and acoustic emissions, aiming to improve fluid machinery performance and noise reduction.

Awards 🏆

  • Best Researcher Award (Nomination)

Publications 📖

  • Title: Dynamics of bubbles detached from non-circular orifices: Confinement effect of orifice boundary
    Authors: Jingting Liu*, Haoyang Qi, Yongxing Song, Songying Chen, Dazhuan Wu
    Year: 2024

  • Title: Experimental study on asymmetric bubbles rising in water: Morphology and acoustic signature
    Authors: Jingting Liu*, Shanhao Cong, Yongxing Song, Dazhuan Wu, Songying Chen
    Year: 2022

  • Title: Flow structure and acoustics of underwater imperfectly expanded supersonic gas jets
    Authors: Jingting Liu*, Shanhao Cong, Yongxing Song, Songying Chen, Dazhuan Wu
    Year: 2022

  • Title: Numerical simulations and experimental validation on passive acoustic emissions during bubble formation
    Authors: Jingting Liu, Wu Wang, Ning Chu, Dazhuan Wu, Weiwei Xu
    Year: 2018
    Citations: DOI: 10.1016/j.apacoust.2017.09.005

  • Title: Numerical simulations of bubble formation and acoustic characteristics from a submerged orifice: The effects of nozzle wall configurations
    Authors: Jingting Liu, Ning Chu, Shijie Qin, Dazhuan Wu
    Year: 2017
    Citations: DOI: 10.1016/j.cherd.2017.05.002

  • Title: Acoustic analysis on jet-bubble formation based on 3D numerical simulations
    Authors: Liu Jingting, Chu Ning, Qin Shijie, Wu Dazhuan
    Year: 2016
    Citations: INTER-NOISE 2016 – 45th International Congress and Exposition on Noise Control Engineering

  • Title: Acoustic emission measurement of submerged jet-bubble: Laboratory and computational fluid dynamics (CFD)
    Authors: Liu Jingting, Qin Shijie, Ning Chu, Wu Dazhuan
    Year: 2016

  • Title: Three-dimensional numerical simulation of air exhausted from submerged nozzles
    Authors: Liu Jingting, Qin Shijie, Miao Tiancheng, et al.
    Year: 2015

Conclusion 🔝

Jingting Liu has significantly contributed to understanding fluid dynamics and acoustics, with a special focus on bubble dynamics and noise reduction in fluid machinery. Her research not only advances academic knowledge but also provides practical solutions for industrial applications. She continues to inspire the next generation of engineers through her teaching and groundbreaking research.