Edward Adah | Structural Engineering | Innovative Research Award

Posted on by Civil Engineering Awards

Innovative Research Award

Edward Adah
University of Calabar, Nigeria

Edward Adah
Affiliation University of Calabar
Country Nigeria
Scopus ID 57479008600
Documents 6
Citations 42
h-index 3
Subject Area Structural Engineering
Event Global Civil Engineering Awards
ORCID 0000-0001-9230-7621

Edward Adah is a researcher affiliated with the University of Calabar whose scholarly activities focus on structural engineering and infrastructure-related studies. His publication record, indexed in international databases, reflects contributions to engineering research and the evaluation of structural performance in built environments. The profile summarized in this article highlights research achievements, publication activities, and suitability for recognition through the Global Civil Engineering Awards.[1]

Abstract

This article presents an overview of the academic profile of Edward Adah, a researcher associated with the University of Calabar. His work contributes to structural engineering through studies addressing engineering performance, infrastructure assessment, and applied research methodologies. Indexed publications demonstrate participation in scholarly communication and knowledge dissemination within engineering disciplines. Citation metrics and publication records indicate measurable academic engagement and research visibility. The profile is evaluated in relation to the objectives of the Global Civil Engineering Awards, which recognize scholarly excellence, innovation, and contributions that support the advancement of engineering knowledge and professional practice.[1][2]

Keywords

Structural Engineering, Infrastructure Research, Engineering Analysis, Academic Publications, Civil Engineering, Research Impact, Scholarly Contributions, Engineering Innovation.

Introduction

Structural engineering research supports the planning, design, and assessment of infrastructure systems. Researchers in this field contribute evidence-based approaches that improve safety, durability, and performance. Edward Adah’s academic activities are situated within this context, emphasizing analytical investigation and engineering applications relevant to modern infrastructure challenges.[3]

Research Profile

The research profile of Edward Adah includes six indexed documents and an h-index of three. His scholarly record demonstrates participation in peer-reviewed publishing and engagement with engineering research themes. Citation activity indicates that his work has been referenced by other researchers, contributing to ongoing academic discussions.[1]

Research Contributions

His contributions focus on structural engineering topics that support understanding of infrastructure performance and engineering assessment. Through published studies, he has participated in advancing technical knowledge, encouraging evidence-based decision-making, and supporting professional engineering practice through scholarly communication.[4]

Publications

The publication portfolio consists of journal articles indexed in recognized academic databases. These publications contribute to the visibility of engineering research and facilitate dissemination of findings to broader scholarly audiences. Indexed outputs serve as indicators of research productivity and academic engagement.[1]

Research Impact

Research impact may be assessed through citations, publication quality, and relevance to engineering practice. With documented citations and indexed outputs, Edward Adah’s work demonstrates measurable academic influence. Such indicators suggest participation in knowledge exchange and continued engagement within the engineering research community.[2]

Award Suitability

The Global Civil Engineering Awards recognize contributions that support innovation, research quality, and advancement of engineering knowledge. Based on available academic indicators, publication activity, and subject relevance, Edward Adah demonstrates characteristics aligned with scholarly recognition within the structural engineering domain.[5]

Conclusion

Edward Adah’s academic profile reflects sustained participation in structural engineering research through publications, citations, and scholarly engagement. His contributions support the broader goals of engineering advancement and demonstrate relevance to academic recognition programs focused on research excellence and professional impact.

References

  1. Elsevier. (n.d.). Google Scholar details: Edward Adah, Author ID FT-KZk4AAAAJ.
     Google scholar.
    https://scholar.google.com/citations?user=FT-KZk4AAAAJ&hl=en&oi=ao
  2. Scilit. A Pure bending model to predict the large deformations of thin rectangular isotropic plates subject to uniform lateral load.
    https://doi.org/10.1016/j.apples.2026.100316
  3. Journal Reference. Postbuckling behaviour of isotropic thin rectangular plates with one free edge
    .https://doi.org/10.4314/gjpas.v27i4.4
  4. Engineering Research Publication. Simple and Exact Approach to Post Buckling Analysis of Rectangular Plate.
    https://doi.org/10.14445/23488352/IJCE-V7I6P107
  5. Global Civil Engineering Awards. Award criteria and recognition framework.
    https://civilengineeringawards.com/

Tongrui Zhang | Structural Engineering | Innovative Research Award

Posted on by Civil Engineering Awards

 

Innovative Research Award

Tongrui Zhang
Liaoning Technical University, China

Tongrui Zhang
Affiliation Liaoning Technical University
Country China
Scopus ID 57193159186
Documents 26
Citations 1101
h-index 15
Subject Area Structural Engineering
Event Global Civil Engineering Awards
ORCID 0000-0003-3156-8996

Tongrui Zhang is a researcher associated with Liaoning Technical University whose scholarly work has contributed to developments in structural engineering and infrastructure resilience. His research profile demonstrates sustained academic productivity, interdisciplinary collaboration, and measurable citation performance in engineering sciences. The present article summarizes his academic background, publication profile, research influence, and suitability for recognition through the Global Civil Engineering Awards.[1]

Abstract

This article presents an overview of the academic achievements and professional contributions of Tongrui Zhang in the field of structural engineering. His research activities focus on engineering analysis, structural performance, and sustainable construction methodologies relevant to modern civil engineering practice. With a documented Scopus record containing notable citation performance and a growing publication portfolio, Zhang has contributed to scholarly discussions surrounding infrastructure durability and engineering optimization. The article further evaluates his academic profile in relation to the Global Civil Engineering Awards and highlights the significance of measurable research impact, collaboration, and publication quality within the engineering research community.[2]

Keywords

Structural engineering, infrastructure resilience, engineering analysis, sustainable construction, scholarly impact, civil engineering research.

Introduction

Structural engineering research increasingly emphasizes safety, sustainability, and material efficiency in response to expanding urban infrastructure demands. Tongrui Zhang’s academic work aligns with these objectives through contributions addressing structural behavior and engineering evaluation methodologies. His research activity reflects contemporary priorities in civil engineering scholarship and applied infrastructure studies.[3]

Research Profile

The researcher maintains an established publication record indexed within Scopus and associated scholarly databases. His profile indicates active participation in engineering research dissemination and citation engagement. An h-index of 15 and citation count exceeding one thousand demonstrate visibility and continuing relevance within structural engineering literature.[1]

Research Contributions

Zhang’s scholarly contributions include investigations into structural stability, engineering performance assessment, and infrastructure optimization. His publications support analytical approaches applicable to construction engineering and resource-efficient design practices. These studies contribute to broader engineering objectives associated with long-term infrastructure sustainability and operational reliability.[4]

Publications

The publication portfolio consists of peer-reviewed journal articles and conference-related research outputs indexed through major academic platforms. Several studies are associated with engineering modeling, structural analysis, and applied civil engineering systems. DOI-linked publications provide accessibility and verification within the scholarly communication environment.[5]

Research Impact

Citation metrics and indexed publications indicate measurable academic influence. The documented citation record reflects continuing engagement from the engineering research community and suggests the practical relevance of the published work. Research visibility through Scopus and ORCID platforms further supports international academic accessibility and collaboration.

Award Suitability

The researcher’s profile demonstrates suitability for consideration within the Global Civil Engineering Awards due to documented publication performance, recognized citation activity, and subject relevance in structural engineering. His contributions align with professional evaluation criteria emphasizing innovation, measurable impact, and continuing engagement in civil engineering advancement.

Conclusion

Tongrui Zhang represents an active contributor within structural engineering research through sustained scholarly activity and measurable academic impact. His publication record, citation profile, and engineering-focused studies support recognition within international academic award frameworks dedicated to civil engineering excellence and research advancement.

References

  1. International Journal of Technology (IJTech) Vol 9, No 7 (2018).
     http://ijtech.eng.ui.ac.id/article/view/2520
  2. Dat Doan Tien, Ali GhaffarianHoseini, Nicola Naismith, Tongrui ZHANG, Amirhosein Ghaffarianhoseini, & John Tookey (2017). A critical comparison of green building rating systems. Building and Environment, 123(Supplement C), 243-260.
    https://doi.org/10.1016/j.buildenv.2017.07.007
  3. Engineering Structures. (2023). Developing a Blockchain-Based Framework for Digital Archiving of BIM Using Axiomatic Design.
    https://doi.org/10.3390/buildings14041098
  4. Journal of Building Engineering ISSN: 23527102Volume: 100. AI management platform for privacy-preserving indoor air quality control: Review and future directions.
    https://doi.org/10.1016/j.jobe.2024.111712
  5. Automation in Construction. 2019-01 | Journal article. ND BIM-integrated knowledge-based building management: Inspecting post-construction energy efficiency.
    https://doi.org/10.1016/j.autcon.2018.10.003/

Maryam Nasim | Structural Health Monitoring | Innovator of the Year in Civil Engineering Award

Posted on by Civil Engineering Awards

Dr. Maryam Nasim | Structural Health Monitoring | Innovator of the Year in Civil Engineering Award

Research Fellow | University of Melbourne | Australia

Dr. Maryam Nasim is a researcher at the University of Melbourne, Australia, specializing in structural engineering, thermo-mechanical analysis, and data-driven modeling techniques. She has authored 6 scholarly publications, receiving 45 citations with an h-index of 3, reflecting a growing research impact. Her work integrates finite element methods with machine learning approaches, such as XGBoost, to predict structural behavior under complex loading conditions. She actively collaborates with international researchers, contributing to interdisciplinary advancements. Her research supports the development of safer and more efficient structural systems, addressing real-world engineering challenges related to performance, reliability, and resilience under thermal and mechanical stresses.

Citation Metrics (Scopus)
45
30
20
10
0
Citations

45

Documents

6

h-index

3

Citations

Documents

h-index

View Scopus Profile
 View Google Scholar Profile
 View ORCID Profile

Featured Publications


An investigation of water-flow pressure distribution on bridge piers under flood loading

– Structure and Infrastructure Engineering, 2019 | Citations: 39

Damage estimation of a concrete pier when exposed to extreme flood and debris loading

– Journal of Marine Science and Engineering, 2022 | Citations: 10

A demonstration of a digital twin framework for structural health monitoring: Application to bridge infrastructures

– Journal of Infrastructure Intelligence and Resilience, 2025 | Citations: 3

Yu-ji Tai | Structural Engineering | Young Scientist Award

Posted on by Civil Engineering Awards

Assoc. Prof. Dr. Yu-ji Tai | Structural Engineering | Young Scientist Award

Deputy Director | Anhui University of Technology | China

Yu-ji Tai is an Associate Professor and Deputy Director of the Department of Civil Engineering at Anhui University of Technology, specializing in structural vibration control and nonlinear dynamics. He has developed original inerter-based damping theories and devices, including crank train and Scotch yoke inerters, addressing broadband, multimodal wind and seismic vibration mitigation in large-scale structures. His professional experience includes leading multiple nationally and provincially funded research projects, close collaboration with major bridge engineering institutions, and principal investigator roles on applied and theoretical studies for landmark infrastructure. He has published extensively in high-impact international journals and holds several authorized invention patents. His scholarly contributions are complemented by service as a Guest Editor for Buildings, an inaugural Youth Editorial Board Member of the Journal of Dynamic Disasters, and active membership in leading professional societies in mechanics, vibration engineering, and civil engineering, with a research impact reflected by 163 citations, 18 publications, and an h-index of 7.

                              Citation Metrics (Scopus)

200

160

120

80

40

0

 

Citations
163
Documents
18
h-index
7

Citations

Documents

h-index

View Scopus Profile
  View ORCID Profile

Featured Publications

Xiuying Yao | Structural Engineering | Best Researcher Award

Posted on by Civil Engineering Awards

Dr. Xiuying Yao | Structural Engineering | Best Researcher Award

Associate Professor | China University of Petroleum | China

Xiuying Yao is a faculty member at China University of Petroleum (Beijing) specializing in chemical engineering, with expertise in flow batteries, slurry batteries, battery modification, and multiphase flow and simulation. She has extensive professional experience as a principal investigator and core technical member on major national and regional research programs, contributing leadership to projects spanning energy storage systems and complex gas–solid and gas–liquid flow technologies. Her research focuses on multiphase flow behavior, electrochemical energy systems, and catalytic and hydrodynamic enhancement, with over 30 peer-reviewed publications in leading journals such as Fuel, Materials Today Chemistry, Particuology, and AIChE Journal, alongside multiple authorized invention patents. Her work has received multiple science and technology and technological invention awards from national professional societies, and she is an active member of the academic community with international research experience and recognized scholarly contributions, with a research impact reflected by 158 citations across 126 documents, 33 publications, and an h-index of 6.

                              Citation Metrics (Scopus)

200

150

100

 50

0

 

Citations
158
Documents
33
h-index
6

Citations

Documents

h-index

View Scopus Profile

Featured Publications

Radek Martinek | Structural Engineering | Research Excellence Award

Posted on by Civil Engineering Awards

Prof. Dr. Radek Martinek | Structural Engineering | Research Excellence Award

Dean of the Faculty | VSB – Technical University of Ostrava | Czech Republic

Prof. Radek Martinek is a Full Professor of Cybernetics and Dean of the Faculty of Electrical Engineering and Computer Science at the Technical University of Ostrava, with recognized expertise in biomedical engineering, cybernetics, and advanced signal processing. He has served in senior academic and research leadership roles including vice dean, deputy head for research, laboratory manager, and editor-in-chief of an international engineering journal, while leading and contributing to major national, industrial, and international projects in healthcare technologies, Industry 4.0, smart sensing, and secure data systems. His research focuses on non-invasive biomedical signal processing, sensor systems, artificial intelligence, explainable AI, blockchain-enabled healthcare, and fetal monitoring, resulting in a substantial body of high-impact journal publications and patented innovations. His distinctions include best researcher and best paper awards, repeated recognition among the world’s top cited scientists, senior IEEE membership, and service on scientific boards and evaluation panels, with a research impact of 5,987 citations, 397 publications, and an h-index of 36.

                              Citation Metrics (Scopus)

6000

5000

4000

3000

2000

1000

0

 

Citations
5987
Documents
397
h-index
36

Citations

Documents

h-index

View Scopus Profile
  View Google Scholar Profile
  View ORCID Profile

Featured Publications

Faustyn Recha | Civil Engineering | Academic Achievement in Civil Engineering Award

Posted on by Civil Engineering Awards

Dr. Faustyn Recha | Civil Engineering | Academic Achievement in Civil Engineering Award

Assistant professor at Academy of Silesia, Poland.

Dr. Faustyn Recha, PhD, C.Eng, is a passionate civil engineering researcher and practitioner from Poland 🇵🇱. With expertise in reinforced concrete durability and structural mechanics 🏗️, he merges academic rigor with practical design. He earned his PhD in Civil Engineering and Transport in 2021, focusing on modeling reinforcement corrosion 🧪. Currently, he serves as an Assistant Professor at the Academy of Silesia, where he teaches and conducts innovative research 👨‍🏫. Dr. Recha is the author of over 200 technical designs and multiple scientific publications 📚. He collaborates internationally with institutions in Germany, Slovakia, China, and the USA 🌍. In addition to research, he is involved in structural inspections, prefabrication innovations, and has developed a patented balcony slab connection system 🔧. His career is a blend of science, teaching, and hands-on engineering — continuously pushing boundaries in civil infrastructure 💡.

Professional Profile

Scopus

ORCID

Google Scholar

Suitability for Academic Achievement in Civil Engineering Award – Dr. Faustyn Recha

Dr. Faustyn Recha exemplifies what this award represents — exceptional academic performance, original research, and meaningful impact on civil engineering education and practice. He demonstrates consistent scholarly excellence, leadership in academic settings, and contributions that merge scientific advancement with industry relevance. From high-level research to real-world design, his career highlights a dedication to elevating civil engineering standards.

Education 

Dr. Faustyn Recha began his academic journey by graduating with distinction from high school in Psary in 2010 🎓. He earned his B.Eng. (2014) and M.Sc. (2015) in Civil Engineering from the Częstochowa University of Technology 🏫, specializing in Building and Engineering Structures 🏗️. Passionate about deeper inquiry, he pursued a PhD at the Silesian University of Technology, completing it in 2021 🧠. His doctoral thesis focused on modeling the degradation of reinforced concrete due to reinforcement corrosion, combining thermomechanical theory and experimental verification 🔬📐. This solid educational foundation underpins his academic and engineering expertise.

Professional Development 

Dr. Recha’s professional journey began in 2015 in a reinforced concrete design studio 🏢. Alongside his doctoral studies from 2016, he gained hands-on experience in design offices and achieved full construction qualifications in 2018 🔧📐. Since 2021, he has served as an Assistant Professor at the Academy of Silesia, teaching subjects such as concrete structures, mechanics, and corrosion science 👨‍🏫. He has also coordinated the Civil Engineering discipline at the academy since 2022 🏛️. Internationally active, Dr. Recha completed scientific internships in Germany 🇩🇪 and Slovakia 🇸🇰, and maintains collaborations with researchers in China and the USA 🌐. His dual role as an academic and practicing engineer bridges research with real-world construction applications. As a designer, he has authored over 200 construction designs, assessments, and structural analyses 🧱🧮. His contributions reflect a dynamic blend of research, education, and professional engineering excellence 💼📊.

Research Focus Area 

Dr. Faustyn Recha’s research primarily focuses on the durability and degradation of reinforced concrete structures under corrosion effects 🏗️⚙️. His work centers around modeling corrosion-induced damage in reinforced concrete elements, with an emphasis on thermomechanical and electrochemical processes 🔬🧪. He has developed advanced numerical models to predict crack propagation and structural degradation using parameters like corrosion current density and volumetric strain tensors 💡📊. Dr. Recha’s studies also include non-invasive diagnostic methods, aiming to estimate corrosion current based on deflection – a significant step in preventive infrastructure maintenance 🛠️. His research is deeply relevant to sustainable construction, extending the life of concrete structures and reducing repair costs 🔍♻️. With collaborations across Europe and Asia 🌍, he bridges scientific theory with structural safety and real-world application, ensuring his research contributes meaningfully to the field of civil engineering infrastructure and materials science 🧱🌐.

Research Skills 

Dr. Recha brings an impressive array of research skills to the civil engineering domain 📘🧪. He excels in numerical modeling, particularly Finite Element Method (FEM) simulations for analyzing stress, deflection, and crack propagation in reinforced concrete elements 💻🔍. He is skilled in experimental verification, having conducted advanced lab testing to correlate corrosion levels with structural behavior ⚗️📏. His work in thermo-mechanical coupling and electrochemical modeling reflects high proficiency in cross-disciplinary research 🔄🧠. Dr. Recha is also proficient in probabilistic simulation methods such as Monte Carlo analysis for assessing model sensitivity under uncertainty 🎲📈. In addition to technical modeling, he demonstrates strong analytical writing, technical reporting, and journal publication skills 📝📚. His ability to integrate theoretical models with real-world applications — including construction diagnostics and structural design — makes him a rare blend of researcher and practitioner ⚙️🏗️. He also actively contributes to academic peer review and interdisciplinary collaborations 🤝🌍.

Awards & Honors

Dr. Faustyn Recha’s dedication to civil engineering has earned him multiple honors and recognitions 🏆. He received a prestigious Rector’s Scholarship from the Silesian University of Technology for academic excellence 🎓🌟. In 2020, he was awarded second place in the poster session for young scientists at the 66th Conference of the Polish Academy of Sciences 🖼️🥈. His achievements also include top placements in the “Modern Engineer” competition organized by the Silesian Chamber of Construction Engineers, securing 4th and 7th places in 2018 and 2019 respectively 🏗️🎯. His growing reputation as a researcher and educator has led to international internship invitations and reviewer roles in scientific journals 📄🌍. In addition, his patent-pending innovation for prefabricated slab connections underlines his contribution to practical engineering and technological advancement ⚙️📑. These awards reflect his consistent pursuit of excellence in both academic and industrial domains.

Publication Top Notes

1. A Cracking Model for Reinforced Concrete Cover Taking Account of the Accumulation of Corrosion Products in the ITZ Layer, and Including Computational and Experimental Verification

  • Authors: T. Krykowski, T. Jaśniok, F. Recha, M. Karolak

  • Journal: Materials, 13(23), Article 5375

  • Year: 2020

  • Citations: 16

  • Summary:
    This paper presents a comprehensive model for simulating the cracking of reinforced concrete (RC) covers, with special attention to the interfacial transition zone (ITZ) between the steel and concrete. It accounts for the accumulation of corrosion products, which induces expansive stresses leading to cracking. Both computational simulations and experimental results are provided, confirming the model’s effectiveness in predicting crack initiation and propagation due to rebar corrosion.

2. The Simulation of Corrosion Degradation of Concrete Specimen in Stationary Heat and Moisture Conditions

  • Authors: F. Recha, T. Jaśniok, T. Krykowski

  • Journal: Architecture, Civil Engineering, Environment, 10(4)

  • Year: 2018

  • Citations: 6

  • Summary:
    This study uses numerical simulations to analyze the degradation of concrete due to corrosion under constant thermal and moisture conditions. The results show how environmental stability influences the rate of corrosion and crack formation. The simulation helps in understanding the long-term performance of RC structures exposed to consistent environmental stressors.

3. Estimation Method of Corrosion Current Density of RC Elements

  • Author: F. Recha

  • Journal: Open Engineering, 13(1), Article 20220430

  • Year: 2023

  • Citations: 4

  • Summary:
    The paper introduces a new method to estimate corrosion current density in RC elements. The method is based on measurable physical parameters and provides a practical tool for engineers to assess corrosion levels without invasive testing. It contributes to better monitoring and prediction of RC degradation.

4.Numerical simulation of the load-bearing capacity decrease of reinforced concrete structure due to reinforcement corrosion

  • Authors: F. Recha, T.J. Krykowski, T. Jaśniok

  • Conference: 15th Int. Conf. on New Trends in Statics and Dynamics of Buildings

  • Year: 2017

  • Citations: 4

  • Summary:
    This conference paper details a numerical study of how reinforcement corrosion reduces the load-bearing capacity of RC structures over time. The simulation includes the progressive loss of cross-section and bond strength, providing insight into long-term structural performance and failure risks due to corrosion.

5.Principles for conducting periodic technical inspections of buildings in terms of safety and use

  • Authors: F. Recha, P. Nagel

  • Journal: BUILDER, 295(2), pp. 12–14

  • Year: 2022

  • Citations: 3

  • Summary:
    A practical article outlining procedures and legal requirements for routine inspections of buildings. It emphasizes safety, usability, and the early detection of degradation phenomena such as corrosion. The paper serves as a guideline for engineers and inspectors to ensure compliance and structural integrity.

6. Application of Interval Analysis to Assess Concrete Cover Degradation in Accelerated Corrosion Tests

  • Authors: F. Recha, K. Yurkova, T. Krykowski

  • Journal: Materials

  • Year: 2023

  • Citations: 2

  • Summary:
    This research explores the use of interval analysis to model and evaluate the degradation of concrete covers during accelerated corrosion testing. The interval approach allows for uncertainty in material properties and measurement data, offering a more robust assessment tool for interpreting test results in corrosion studies.

Conclusion

Dr. Faustyn Recha is an ideal recipient of the Academic Achievement in Civil Engineering Award. His blend of rigorous research, innovative thinking, and educational leadership defines him as a transformative figure in modern civil engineering academia. With a PhD that breaks new ground, significant teaching responsibilities, and global collaboration, Dr. Recha not only achieves academic excellence — he inspires it in others. Recognizing his work would honor a career committed to advancing civil engineering knowledge, resilience, and practice.

laila taoufiq | Earthquake Engineering | Women Researcher Award

Posted on by Civil Engineering Awards

Ms . laila taoufiq | Earthquake Engineering | Women Researcher Award

professor at ecole polytechnique d’agadir , Morocco

Dr. Laila Taoufiq is a highly capable and dedicated researcher in the field of materials physics, with a strong focus on sustainable construction and environmental engineering. Her work addresses pressing issues such as structural resilience, indoor air quality, and the recycling of industrial waste in building materials. With six peer-reviewed publications, including recent contributions on the 2023 Al Haouz earthquake and radioactivity in indoor environments, her research demonstrates both scientific relevance and societal impact. Dr. Taoufiq combines academic rigor with practical teaching across multiple engineering institutions, bringing valuable expertise in structural modeling and materials testing. While her international exposure and publication volume could be further developed, her contributions to applied research and education are commendable. She stands out as a strong candidate for a Best Researcher Award, particularly where the focus is on research impact, sustainability, and innovation in engineering practices. Her academic dedication and real-world focus merit formal recognition.

Professional Profile

Education🎓

Dr. Laila Taoufiq has a solid and multidisciplinary academic background in engineering and materials science. She earned her Doctorate in Materials Physics from the University Chouaib Doukkali, El Jadida, in 2018, where she conducted extensive research on the environmental and technical feasibility of recycling industrial waste, such as ash, in construction materials. Her doctoral thesis was awarded with high honors and jury congratulations. Prior to that, she completed her engineering degree in 2011 from the prestigious Ecole Nationale Supérieure des Mines de Rabat (ENIM), specializing in materials and structural engineering. Her academic journey began with a Master’s degree in Materials Science from the Faculty of Sciences and Technologies (FST) in Settat between 2005 and 2009. This well-rounded education has equipped her with both theoretical knowledge and practical skills in material behavior, structural analysis, and sustainable engineering, forming a strong foundation for her current research and teaching activities.

Professional Experience📝

Dr. Laila Taoufiq has accumulated extensive professional experience in both research and higher education. Since September 2022, she has been serving as a lecturer and researcher at the École Polytechnique d’Agadir, where she teaches key engineering subjects such as reinforced and prestressed concrete, structural analysis, and modeling using structural software like Robot. Her teaching approach is highly practical, incorporating lab work and applied mechanics. Prior to this, she held teaching positions at several respected institutions, including ENSA Agadir, ESEFA, and ENSAM Casablanca, where she led courses and laboratory sessions in construction materials, solid mechanics, and resistance of materials. Her hands-on teaching style involves conducting a wide range of technical experiments in concrete behavior, materials testing, and structural analysis. Dr. Taoufiq’s professional experience reflects a strong integration of academic knowledge and real-world application, making her a valuable contributor to engineering education and applied research in sustainable building practices.

Research Interest🔎

Dr. Laila Taoufiq’s research interests lie at the intersection of sustainable construction, environmental engineering, and materials science. She focuses on the reuse and valorization of industrial by-products, such as coal ash and bottom ash, in concrete manufacturing to promote eco-friendly and cost-effective construction solutions. Her work aims to reduce environmental impact while improving the mechanical and radiological properties of construction materials. She is also deeply engaged in structural safety research, as evidenced by her recent study on building failures during the 2023 Al Haouz earthquake. Additionally, Dr. Taoufiq investigates indoor air quality and natural radioactivity exposure in built environments, contributing to public health and safety. Her research combines experimental lab work, field assessments, and structural modeling to develop practical solutions for current engineering challenges. Through these interdisciplinary efforts, she strives to enhance building performance, environmental sustainability, and resilience, making her work highly relevant to modern civil and environmental engineering needs.

Award and Honor🏆

Dr. Laila Taoufiq has been recognized for her academic excellence and research contributions throughout her career. Most notably, she was awarded a Doctorate in Materials Physics with the highest distinction—“Très Honorable avec Félicitations du Jury”—by the University Chouaib Doukkali in 2018, a clear acknowledgment of the quality, relevance, and originality of her doctoral research. Her thesis on the technical and environmental feasibility of valorizing industrial ashes in construction materials earned praise for its innovative approach to sustainability in civil engineering. While no specific awards beyond her doctoral honors are listed, her consistent involvement in impactful research and her active teaching roles at prominent Moroccan engineering institutions demonstrate professional recognition and trust in her expertise. Dr. Taoufiq’s growing portfolio of peer-reviewed publications, particularly on high-impact topics such as earthquake resilience and indoor environmental health, further establishes her as a respected figure in her field and a deserving candidate for future academic and research honors.

Research Skill🔬

Dr. Laila Taoufiq possesses a diverse and well-developed set of research skills that span experimental work, data analysis, and applied engineering. She is highly skilled in the characterization of construction materials, particularly in assessing mechanical, environmental, and radiological properties. Her expertise includes designing and conducting laboratory experiments, such as concrete strength testing, adsorption of heavy metals, and evaluating the performance of recycled materials like coal ash in construction applications. Dr. Taoufiq is proficient in using analytical tools and structural modeling software, such as Autodesk Robot, for simulating and analyzing the behavior of concrete and steel structures under different loading conditions. Her research is grounded in real-world applications, often addressing critical challenges such as earthquake damage assessment, indoor air quality, and sustainable construction practices. She also demonstrates strong abilities in academic writing, data interpretation, and interdisciplinary collaboration, making her a capable and solution-oriented researcher in materials science and structural engineering.

Conclusion💡

Dr. Laila Taoufiq is a strong candidate for the Women Researcher Award, especially in contexts that emphasize research relevance, societal impact, sustainability, and interdisciplinary contributions. Her work is technically sound, environmentally significant, and aligned with global development goals. With greater international engagement and expanded publication output, she has the potential to emerge as a leading figure in her field. Her combination of academic excellence, teaching, and research makes her highly deserving of recognition under this award.

Publications Top Noted✍

  • Title: Structural failure of reinforced concrete buildings: The case of Al Haouz earthquake on 8 September 2023, Morocco

  • Authors:

    • L. Taoufiq, Laila

    • M. Chourak, Mimoun

    • E.M. Guendouli, El Mehdi

    • F.Z. Arrakhiz, Fatimaezzahra Z.

  • Journal: Structures (Published by Elsevier)

  • Year: 2025

  • Citation Format (APA Style):
    Taoufiq, L., Chourak, M., Guendouli, E. M., & Arrakhiz, F. Z. (2025). Structural failure of reinforced concrete buildings: The case of Al Haouz earthquake on 8 September 2023, Morocco. Structures. (Link not available)

 

Vasanthi P | Structural Engineering | Best Researcher Award

Posted on by Civil Engineering Awards

Dr . Vasanthi P | Structural Engineering | Best Researcher Award

Associate Professor at Chennai Institute of Technology , India

Dr. P. Vasanthi, with a Ph.D. in Composite Structures and over 18 years of combined academic and industry experience, is a highly accomplished researcher in Civil Engineering. She has published 26 journal papers, including in Web of Science and Scopus-indexed journals, presented at international conferences, and holds a patent on enhancing recycled aggregate concrete. Her work spans sustainable construction materials, nano-technology applications, and the integration of machine learning in structural analysis. Dr. Vasanthi actively contributes to academic development through workshops, FDPs, and student mentoring. She holds certifications from NPTEL and Coursera, demonstrating a commitment to continuous learning. Her leadership roles in organizing academic events and serving on technical committees further reflect her dedication. While international collaborations and research funding could enhance her profile, her contributions thus far are significant. Dr. Vasanthi is a strong candidate for the Best Researcher Award, recognized for her innovation, academic rigor, and impact on civil engineering research.

Professional Profile 

Education🎓

Dr. P. Vasanthi holds a strong academic background in Civil Engineering, beginning with a Bachelor of Engineering (B.E.) in Civil Engineering from the Institute of Road Transport and Technology, affiliated with Bharathiar University, graduating with First Class in 2001. She pursued her Master of Engineering (M.E.) in Structural Engineering from Sathyabama University, where she graduated with First Class with Distinction in 2010, achieving a CGPA of 8.13. Further advancing her academic qualifications, she earned her Doctorate (Ph.D.) in Composite Structures from Sathyabama University in August 2021. Her educational journey reflects a consistent commitment to academic excellence and specialization in structural and composite materials. Dr. Vasanthi has further enriched her knowledge through multiple certification programs from NPTEL and Coursera in areas such as structural design, geotechnical engineering, stress management, and sustainable transportation systems. Her robust educational foundation has been pivotal in shaping her research and teaching expertise in the field of civil engineering.

Professional Experience📝

Dr. P. Vasanthi possesses a well-rounded professional background with 14 years of teaching experience and 4 years of industry experience in Civil Engineering. She began her academic career as a Lecturer at Annai JKK Sampoorani Ammal Polytechnic College and Pallavan Engineering College, gradually advancing to Assistant Professor roles at SRM Institute of Science & Technology, Sathyabama Institute of Science and Technology, and currently serves at Chennai Institute of Technology. She has also held the position of Associate Professor at Adhi College of Engineering and Technology. Her academic roles have included teaching, mentoring, coordinating student projects, organizing academic events, and setting university question papers. Prior to her academic career, she worked as a Site Engineer with Classic Builders for four years, gaining valuable hands-on experience in construction practices and site management. This combination of academic and industry experience enriches her teaching and research with practical insight, making her a well-rounded and impactful educator and researcher.

Research Interest🔎

Dr. P. Vasanthi’s research interests lie primarily in the areas of advanced construction materials, sustainable engineering, and structural analysis. She focuses extensively on concrete and construction materials, particularly the use of nano materials, recycled aggregates, and industrial waste in concrete to enhance its mechanical and durability properties. Her expertise extends to steel and composite structures, with a strong emphasis on innovative material applications in structural systems such as Concrete-Filled Steel Tube (CFST) columns. She is also deeply involved in interdisciplinary research, integrating modern technologies like machine learning, IoT, and data analytics into civil engineering applications, including structural health monitoring and predictive modeling. Her work aims to address key challenges in construction sustainability, performance optimization, and cost-effectiveness. With a growing body of publications and a patent to her name, Dr. Vasanthi’s research continues to contribute meaningful advancements in the field of civil engineering, with practical relevance and academic depth.

Award and Honor🏆

Dr. P. Vasanthi has received several recognitions and honors that reflect her dedication and contributions to the field of civil engineering. She has been awarded a Certificate of Recognition for her role as a reviewer at the Indian Structural Steel Conference held at IIT Hyderabad, highlighting her expertise in structural engineering. Additionally, she served as a Technical Review Committee Member for the National Conference on Sustainable Materials and Smart Practices (NCSMSP-2021) at Bannari Amman Institute of Technology. These accolades showcase her academic credibility and involvement in advancing research quality. She is also a Life Member of prestigious professional bodies such as the American Society of Civil Engineers (ASCE) and the National Information Centre of Earthquake Engineering (NICEE). Her active participation in technical conferences and her commitment to research excellence underline her suitability for further professional recognition, including awards such as the Best Researcher Award in the domain of civil engineering.

Research Skill🔬

Dr. P. Vasanthi possesses a diverse and well-developed set of research skills that span experimental analysis, material innovation, data interpretation, and interdisciplinary application. Her core strengths lie in designing and executing experimental studies on advanced construction materials, such as nano-modified concrete, composite structures, and recycled aggregates. She is proficient in applying statistical tools like Taguchi-Grey Relational Analysis and Response Surface Methodology for optimization studies. Additionally, her skills extend to the use of software tools like AutoCAD, STAAD Pro, and ANSYS, which support her structural modeling and simulation work. Dr. Vasanthi is also skilled in integrating machine learning and IoT-based technologies into civil engineering applications, such as crack detection and strength prediction. Her ability to publish in reputed journals and present in international conferences reflects strong academic writing, data visualization, and critical analysis abilities. Overall, her comprehensive research skill set enables her to contribute meaningfully to innovative, sustainable, and practical engineering solutions.

Conclusion💡

Dr. P. Vasanthi is a highly committed, multi-faceted academic and researcher who exhibits substantial promise and performance in civil engineering research, particularly in sustainability, structural innovation, and interdisciplinary approaches. Her diverse output, industry-aligned experience, and research contributions make her well-qualified and suitable for the Best Researcher Award.

Publications Top Noted✍

  • Publication Title: Sawdust as a sustainable additive: Comparative insights into its role in concrete and brick applications

    • Authors: P. Vasanthi, B. Prabhu, B. Priyanka Murugesan

    • Year: Not provided

    • Citations: 0

  • Publication Title: Investigation of mechanical and dynamic mechanical analysis of bamboo/olive tree leaves powder-based hybrid composites under cryogenic conditions

    • Authors: V. Ganesan Velmurugan, L. Natrayan Lakshmaiya, J.S. Singh Chohan Jasgurpreet Singh, S.S. Kaliappan, D. Arunkumar

    • Year: 2024

    • Citations: 28

  • Publication Title: Air Quality Monitoring on Congested Roads Using Smart Sensor Technology

    • Authors: P. Partheeban Pachaivannan, P. Vasanthi, M. Priyanka Murugesan, B. Madhuja, B. Vijaya

    • Year: Not provided

    • Citations: 0

 

Chito Villanueva | Earthquake Engineering | Best Researcher Award

Posted on by Civil Engineering Awards

Mr Chito Villanueva | Earthquake Engineering | Best Researcher Award

Student at Polytechnic University of the Philippines, Philippines

Chito M. Villanueva is a highly accomplished Structural Engineer and Technical & QA/QC Manager with over 20 years of experience in the design and construction industry. Based in Dubai, he holds multiple professional memberships, including ASCE-SEI, ACI, AISC, and PICE-UAE. He is a licensed civil engineer in the Philippines and Dubai, with expertise in seismic design, resilience-based engineering, and structural analysis. Chito is proficient in various engineering software and has contributed to high-profile projects such as Damac Heights Tower and Al Ghurair Mall Expansion. He is currently pursuing a Master of Science in Civil Engineering at the Polytechnic University of the Philippines, specializing in Structural Engineering. A dedicated professional, Chito is passionate about integrating practical site execution with innovative design solutions to deliver cost-effective and timely projects.

Professional Profile

Orcid

Education 🎓

Chito Villanueva is currently pursuing a Master of Science in Civil Engineering at the Polytechnic University of the Philippines, specializing in Structural Engineering (2022–present). He earned his Bachelor of Science in Civil Engineering from the Technological Institute of the Philippines, Manila (1998–2003), where he graduated as a scholar of Makati. His technical foundation was laid at Don Bosco Technical Institute, Makati City (1993–1998), where he completed his high school education with a focus on Industrial Drafting Technology, earning him four consecutive Top 10 Technical awards. Chito’s academic journey reflects his strong commitment to technical excellence and continuous learning in the field of structural engineering.

Experience 💼

With over 20 years of experience, Chito Villanueva has held key roles in prominent organizations. Currently, he serves as Technical & QA/QC Manager – Structural Engineer at Bu Haleeba Contracting L.L.C., Dubai (2018–present), overseeing quality management and value engineering. Previously, he worked as a Technical Engineer – Structural at Al Rostamani Pegel L.L.C. (2016–2017) and as a Structural Engineer at Arabtec Construction L.L.C. (2011–2016), contributing to projects like Damac Heights Tower and Tiarra Tower. He also served at Habtoor Leighton Group (2008–2011) and Prisma Spaceframe (2005–2008), specializing in glazing structures and high-rise designs. His expertise spans structural design, site supervision, and interdisciplinary coordination, ensuring project success.

Awards and Honors 🏆

Chito Villanueva has been recognized for his technical prowess and academic excellence. During high school at Don Bosco Technical Institute, he was a 4-time consecutive Top 10 Technical awardee and a Don Bosco Youth Center Scholar. He graduated as a scholar of Makati during his bachelor’s degree in Civil Engineering at the Technological Institute of the Philippines. His professional achievements include holding a Dubai Municipality License (U/L) and being an IRCA CQI Certified Lead Auditor for ISO 9001:2015. Chito’s dedication to continuous learning is evident through his active participation in seminars and webinars offered by ASCE, ACI, AISC, and PICE.

Research Focus 🔍

Chito Villanueva’s research focuses on resilience-based seismic design and the application of nonlinear fluid viscous dampers in structural engineering. He is particularly interested in linear and nonlinear modelingLRHA (Linear Response History Analysis), and NLRHA (Nonlinear Response History Analysis). His work emphasizes integrating practical site execution with advanced structural design solutions to enhance building resilience against seismic events. Chito’s research aims to bridge the gap between theoretical design and real-world applications, ensuring cost-effective and sustainable construction practices.

Publication Top Notes 📚

  1. The application of nonlinear fluid viscous dampers in resilience-based seismic design: A systematic review (Structures, 2025)

Conclusion 🌟

Chito M. Villanueva is a seasoned Structural Engineer with a proven track record in design, construction, and quality management. His extensive experience, coupled with his academic pursuits and research focus on seismic resilience, positions him as a valuable contributor to the engineering field. Chito’s dedication to innovation, practical solutions, and continuous learning makes him a standout professional in the industry.