Researcher | Federal University of Paraná | Brazil

Dr. Fernando Garrido de Oliveira’s research experience centers on environmental engineering, biotechnology, and ecology, with a strong focus on projects related to water quality monitoring, environmental risk assessment, and ecosystem sustainability. His professional journey demonstrates a clear trajectory toward the integration of applied research and environmental management. At the Federal University of Paraná, he has been engaged in projects emphasizing the monitoring and biomonitoring of freshwater resources, applying limnological and toxicological analyses to assess water quality and ecological impacts. His work combines laboratory experimentation and field analysis, contributing to improved methodologies in environmental monitoring. Previous roles at C.Vale Cooperativa Agroindustrial further strengthened his expertise in quality management systems, internal auditing, and environmental process control—skills that complement his scientific research by ensuring rigorous standards and compliance with environmental regulations. His collaborations with institutions such as ARDEFA and FAMAB provided hands-on experience in waste management, agrochemical packaging control, and the implementation of sustainability protocols in industrial and agricultural contexts. His research interests encompass environmental toxicology, bioprocess technology, sustainable water management, and the development of integrated environmental monitoring systems using biotechnology tools. He also exhibits a strong command of risk management, biosafety, and environmental auditing based on ISO 14001:2015 frameworks, as evidenced by his multiple certifications. With advanced skills in statistics, QGIS, and environmental modeling, Fernando effectively bridges theoretical knowledge with applied solutions for ecosystem conservation and industrial environmental performance. His multidisciplinary approach positions him to contribute meaningfully to innovative projects addressing global sustainability challenges through the synergy of ecological science, biotechnology, and environmental engineering.

Profile: Scopus | ORCID

Featured Publications:

Environmental assessment of three southern Brazilian rivers using an integrated biomarker response index in Hypostomus ancistroides applied to GIS. Environmental Research.

Md Aynul Hoque | Sustainable Development | Best Researcher Award

Published on 13/10/202514/10/2025 by Civil Engineering Awards

Md Aynul Hoque | Sustainable Development | Best Researcher Award

Assistant Professor | UCSI University Bangladesh Branch Campus | Bangladesh

Md Aynul Hoque’s research focuses on advancing knowledge in operations management, innovation ecosystems, and sustainable supply chain systems, particularly within the context of the apparel and manufacturing industries. His academic contributions highlight the intersections of Industry 4.0, digital transformation, and value chain optimization, emphasizing how technological adoption can enhance competitiveness and sustainability. A significant part of his work examines automation, job displacement, and reshoring within the Bangladeshi ready-made garments (RMG) industry, identifying strategies for resilience and adaptability in global markets. Hoque has extensively explored system dynamics modeling for supply chain performance, demonstrating how analytical frameworks can improve operational efficiency and reduce risks across industrial processes. His research also delves into occupational safety, knowledge economy development, and export diversification, aligning with broader goals of private sector growth and economic modernization. Publications in reputed Scopus and Web of Science–indexed journals such as the Journal of Fashion Marketing and Management and Research Journal of Textile and Apparel reflect a strong scholarly foundation and global relevance. Through his interdisciplinary approach, Hoque bridges theory and practice by integrating quantitative analysis, strategic management, and sustainability principles. His academic engagements further extend into curriculum design, quality assurance in higher education, and professional training initiatives aimed at improving teaching quality and research productivity. By combining corporate experience in supply chain, project coordination, and quality management with academic expertise, Md Aynul Hoque contributes to the development of efficient, technology-driven, and environmentally responsible business models that foster innovation, operational excellence, and sustainable growth across emerging economies.

Profile: Scopus | ORCID | Google Scholar

Fearuted Publications:

Hoque, M. A., Rasiah, R., Furuoka, F., & Kumar, S. (2021). Technology adoption in the apparel industry: Insight from literature review and research directions. Research Journal of Textile and Apparel, 25(3), 292–307.

Hoque, M. A., Rasiah, R., Furuoka, F., & Kumar, S. (2023). Critical determinants and firm performance of sustainable technology adoption in the apparel industry: The stakeholder approach. Journal of Fashion Marketing and Management: An International Journal, 27(1),

Asgari, B., & Hoque, M. A. (2013). A system dynamics approach to supply chain performance analysis of the ready-made-garment industry in Bangladesh. Ritsumeikan Journal of Asia Pacific Studies, 32(1), 51–61.

Md Aynul Hoque, S. K., Rasiah, R., & Furuoka, F. (2021). Linkages among automation, job displacement and reshoring: Evidence from the Bangladeshi apparel industry. Research Journal of Textile and Apparel, 1–17.

Alam, S., Chowdhury, S. R., Bashar, A., & Hoque, M. A. (2020). Factors affecting occupational injury and death: Insights from ready-made garments industry of Bangladesh. TEST Engineering and Management, [ISSN 193-4120],

Ayse Pekrioglu Balkıs | Sustainable Development | Best Researcher Award

Published on 30/09/202530/09/2025 by Civil Engineering Awards

Assoc. Prof. Dr. Ayse Pekrioglu Balkıs | Sustainable Development | Best Researcher Award

Assoc. Prof. Dr.-head of civil engineering department | Cyprus International University | Cyprus

Assoc. Prof. Dr. Ayse Pekrioglu Balkıs has established a strong academic and research profile in civil engineering with a focus on sustainable construction materials, geotechnical engineering, and structural performance enhancement. Her scholarly work demonstrates expertise in soil stabilization, utilization of waste materials, and development of innovative composites for environmentally responsible construction practices. She has extensively investigated the use of marble dust, fly ash, polymer fibers, polypropylene, shredded plastics, biochar, sewage sludge ash, and biopolymers to enhance the mechanical and durability properties of concrete, mortar, and earthen materials, thereby contributing to both sustainability and cost-effectiveness in construction. Through her numerous international journal publications and conference presentations, Balkıs has provided valuable insights into improving soil strength, flexural performance of reinforced concrete beams, and the behavior of earthen structures under various environmental and mechanical conditions. Her research also extends to advanced techniques such as the application of multi-walled carbon nanotubes for soil improvement and alkali activation of clays for sustainable earthen brick production. She has supervised several master’s and doctoral theses on diverse topics including stabilization of expansive soils, use of recycled aggregates, performance of mortars with waste materials, and sustainable alternatives to Portland cement, fostering innovation among emerging researchers. In addition to her research contributions, Balkıs has held significant academic leadership roles, including serving as Head of the Civil Engineering Department at Cyprus International University, and has been actively engaged in organizing and reviewing for international conferences and journals. Her involvement in professional committees and symposium leadership highlights her commitment to advancing the field and mentoring the next generation of engineers. With a consistent focus on bridging environmental sustainability and structural performance, Balkıs continues to influence research directions in civil engineering. This impactful body of work demonstrates significant scholarly contributions and practical applications in the built environment. Ayşe Pekrioğlu Balkıs has 324 Citations, 25 Documents, and a 10 h-index.

Profile: Scopus | Google Scholar

Featured Publications:

Bicer, K., Yalciner, H., Balkıs, A. P., & Kumbasaroglu, A. (2018). Effect of corrosion on flexural strength of reinforced concrete beams with polypropylene fibers. Construction and Building Materials, 185, 574–588.
Balkis, A. P. (2017). The effects of waste marble dust and polypropylene fiber contents on mechanical properties of gypsum stabilized earthen. Construction and Building Materials, 134, 556–562.
Yalciner, K. B. H., Kumbasaroglu, A., El-Sayed, A. K., & Pekrioglu Balkıs, A. (2020). Flexural strength of corroded reinforced concrete beams. Structural Journal, 117(1), 29–41.
Doven, A. G., & Pekrioglu, A. (2005). Material properties of high volume fly ash cement paste structural fill. Journal of Materials in Civil Engineering, 17(6), 686–693.
Ilman, B., & Balkis, A. P. (2023). Sustainable biopolymer stabilized earthen: Utilization of chitosan biopolymer on mechanical, durability, and microstructural properties. Journal of Building Engineering, 76, 107220.

Mohammad Rasul – Energy and Environment – Best Researcher Award

Published on 29/08/202529/08/2025 by Civil Engineering Awards

Mohammad Rasul - Energy and Environment - Best Researcher Award

Professor in Mechanical Engineering at Central Queensland University, Australia

Professor Mohammad Rasul is a distinguished academic in engineering and technology with an extensive career focused on energy, thermodynamics, and sustainability. His expertise spans renewable energy, waste-to-energy conversion, clean fuels, and industrial energy management. He has authored numerous impactful publications, supervised many research students, and secured significant external and internal grants. His professional roles include leadership positions in teaching, research, and strategic development, reflecting a career marked by dedication, innovation, and global recognition. With strong national and international engagement, his work has contributed significantly to advancing knowledge and addressing pressing energy and environmental challenges worldwide.

Professional Profile

Google Scholar

Education

Education has been the cornerstone of Professor Rasul’s distinguished career. With qualifications spanning mechanical engineering, energy technology, and clean energy research, his academic background demonstrates a commitment to excellence. His studies provided a strong foundation in thermodynamics, renewable energy systems, heat transfer, and industrial processes. This multidisciplinary expertise enabled him to explore sustainable energy solutions with both technical and practical depth. His progression through advanced studies at leading institutions established his credibility as a scholar and innovator. Through education, he built the knowledge base that shaped his pioneering work in renewable energy and environmental sustainability over decades.

Professional Experience

Professor Mohammad Rasul has held academic positions at Central Queensland University, progressing from Lecturer to Professor, with leadership roles such as Head of Department, Acting Head of School, and Acting Director of the Centre for Intelligent Systems. His responsibilities have combined teaching, research, administration, and industry collaboration. He has contributed extensively to curriculum development, departmental growth, and strategic planning. Beyond academia, he has industry experience as a Senior R&D Engineer, contributing to process optimization and environmental management. His professional journey highlights a blend of academic excellence, applied innovation, and leadership that has strengthened both educational and industrial sectors.

Research Interest

Research interests of Professor Rasul revolve around clean energy, renewable fuels, bioenergy, and waste-to-energy systems. He has also explored thermo-fluid engineering, solar thermal applications, and building energy efficiency. His work addresses the sustainability challenges of modern society by focusing on low-emission fuels, resource recovery, and alternative energy technologies. His projects often combine theoretical research with applied industrial solutions, contributing both to scientific advancement and practical implementation. With a strong emphasis on environmental sustainability, his research fosters innovation in renewable energy systems, process optimization, and emerging technologies like hydrogen energy and pyrolysis-based fuel production from municipal and industrial waste.

Award And Honor

Recognition for Professor Rasul’s research contributions is evident through prestigious awards and honors. He received the Vice-Chancellor’s Award for Outstanding Research in 2023 and the Dean’s Award for Excellence in Research the same year. Earlier accolades include the Vice-Chancellor’s Award for Excellence in Higher Degree Research Supervision and Good Practice in Learning and Teaching. He has also been acknowledged internationally as one of the top-ranked scholars in renewable energy and biodiesel research. His keynote and plenary invitations at global conferences further reflect his professional standing and impact. These honors demonstrate his influence in shaping energy research worldwide.

Research Skill

Professor Rasul demonstrates exceptional research skills across multidisciplinary areas, combining experimental, analytical, and leadership abilities. His expertise includes renewable energy technologies, thermal system analysis, biofuels development, and waste-to-energy innovations. He has successfully managed large research projects, secured competitive funding, and fostered collaborations with academic and industry partners. His strong publication record reflects rigorous data analysis, critical evaluation, and problem-solving capacity. Equally skilled in mentoring, he has supervised numerous research students to completion. His methodological rigor, innovative thinking, and ability to translate research into practical applications make him a highly influential contributor to advancing sustainable energy and environmental technologies globally.

Publications

Mohammad Rasul has published over 550 works, including journal articles, conference papers, books, and book chapters. His publications cover diverse themes in clean and renewable energy, waste-to-energy conversion, biofuels, hydrogen production, and energy conservation. Several of his papers are highly cited, with significant global impact. He has authored and edited major books that serve as reference works in sustainable energy research and engineering education. His contributions span both scholarly research and applied industry-focused studies. These publications not only establish his expertise but also influence academic communities, policy makers, and industries in advancing sustainable energy practices and innovative solutions.

Title: Biofuels production through biomass pyrolysis—a technological review
Authors: MI Jahirul, MG Rasul, AA Chowdhury, N Ashwath
Journal: Energies 5 (12), 4952-5001, 2012

Title: Influence of parameters on the heterogeneous photocatalytic degradation of pesticides and phenolic contaminants in wastewater: a short review
Authors: S Ahmed, MG Rasul, R Brown, MA Hashib
Journal: Journal of Environmental Management 92 (3), 311-330, 2011

Title: Heterogeneous photocatalytic degradation of phenols in wastewater: A review on current status and developments
Authors: S Ahmed, MG Rasul, WN Martens, R Brown, MA Hashib
Journal: Desalination 261 (1-2), 3-18, 2010

Title: The future of hydrogen: Challenges on production, storage and applications
Authors: MG Rasul, MA Hazrat, MA Sattar, MI Jahirul, MJ Shearer
Journal: Energy Conversion and Management 272, 116326, 2022

Title: Advances in heterogeneous photocatalytic degradation of phenols and dyes in wastewater: a review
Authors: S Ahmed, MG Rasul, WN Martens, R Brown, MA Hashib
Journal: Water, Air, & Soil Pollution 215 (1), 3-29, 2011

Title: Role of biofuel and their binary (diesel–biodiesel) and ternary (ethanol–biodiesel–diesel) blends on internal combustion engines emission reduction
Authors: M Mofijur, MG Rasul, J Hyde, AK Azad, R Mamat, MMK Bhuiya
Journal: Renewable and Sustainable Energy Reviews 53, 265-278, 2016

Conclusion

The academic career of Professor Mohammad Rasul reflects a remarkable integration of teaching, research, leadership, and industry engagement. His work in clean and renewable energy, waste-to-energy technologies, and sustainable engineering solutions has made a lasting impact nationally and internationally. Through publications, grants, awards, and professional service, he has established himself as a leading authority in energy and environmental research. His influence extends beyond academia, fostering collaborations with industry and government. By nurturing the next generation of researchers and advancing innovation, he continues to contribute meaningfully to global efforts in achieving sustainable energy and environmental stewardship.

Zou Jianwei – Climate Change Mitigation and Adaptation – Best Researcher Award

Published on 16/07/202516/07/2025 by Civil Engineering Awards

Zou Jianwei - Climate Change Mitigation and Adaptation - Best Researcher Award

guangxi university - China

AUTHOR PROFILE

ORCID

SUMMARY

Zou Jianwei is a dedicated researcher in the field of Animal Genetics, Breeding, and Reproduction, currently pursuing a Ph.D. at Guangxi University. The focus lies in exploring how environmental stressors, particularly heat stress, influence reproductive health in livestock. Through methodical experimentation and data-driven insights, the research contributes significantly to animal science, with implications for both academic progress and agricultural resilience. Academic activities are marked by diligence in project execution, data analysis, and scholarly writing. The journey is defined by innovation, precision, and a commitment to enhancing livestock productivity through science. This profile reflects academic rigor and meaningful contribution to sustainable livestock systems.

EARLY ACADEMIC PURSUITS

Academic foundations were laid at Guangxi University, where deep interest in animal science evolved into a focused pursuit of advanced research. The academic pathway reflects an early passion for biological systems, agricultural sustainability, and genetic mechanisms. Rigorous training in animal physiology and biotechnology provided essential skills for complex research. Enrollment in a doctoral program enabled deeper exploration of livestock reproduction under climatic challenges. Early learning experiences involved mastering laboratory techniques, understanding genetic pathways, and engaging with literature that bridges fundamental biology and applied science. These formative years created the groundwork for a promising research career that addresses real-world agricultural issues.

PROFESSIONAL ENDEAVORS

Current doctoral research at Guangxi University represents a significant phase in professional development. A key project investigates how heat stress affects ovarian function and circRNA expression in Hu sheep. This endeavor required designing and executing controlled animal studies, collecting and analyzing physiological data, and conducting advanced molecular biology experiments. Professional involvement spans experimental modeling, histological evaluation, sequencing, and collaborative manuscript writing. These responsibilities showcase strong technical acumen and organizational skills. Through this project, valuable contributions have been made toward understanding stress-induced fertility disruptions in livestock. The research has real-world relevance, addressing issues of food security and livestock management under changing climates.

CONTRIBUTIONS AND RESEARCH FOCUS

Primary research centers on understanding the molecular mechanisms behind heat stress-induced reproductive dysfunction in Hu sheep. Focused investigations target antioxidant systems, follicular development, cell apoptosis, and regulatory roles of circular RNAs (circRNAs). This integrative approach offers novel insights into how environmental stress alters gene expression and cellular health in reproductive tissues. The design of heat stress models and in-depth analysis of circRNA profiles contribute to emerging genomic knowledge. These contributions strengthen the field of animal biotechnology by providing data that can inform breeding strategies and improve resilience. Research enhances scientific understanding and supports genetic improvement for climate-adapted livestock.

ACCOLADES AND RECOGNITION

Scientific achievements include co-authoring a high-impact publication in the peer-reviewed journal Animals, highlighting original findings on heat stress and circRNA expression in Hu sheep. This paper, recognized for its methodological rigor and relevance, contributes to the international discourse on livestock adaptation. Involvement in this research has been acknowledged by academic mentors and peers alike, reflecting high standards of experimental and analytical competence. The project’s success and publication underscore a growing reputation in the field of animal science. The academic journey is marked by early success, promising further recognition through continued dedication to innovation and scholarly excellence in reproductive genetics.

IMPACT AND INFLUENCE

Research has significant implications for livestock production systems facing environmental stress, particularly in subtropical regions like Guangxi. By revealing the biological impact of heat stress on sheep reproduction, the work contributes to global efforts in sustainable agriculture and animal welfare. Findings may guide breeding programs aiming to develop thermotolerant livestock, improving productivity and resilience. Through academic dissemination and collaboration, the research extends beyond the laboratory, offering practical solutions to climate-related challenges in animal husbandry. This growing influence is rooted in scientific depth, societal relevance, and a vision for integrating molecular biology with applied agricultural needs in real-world settings.

LEGACY AND FUTURE CONTRIBUTIONS

Future ambitions include expanding research on reproductive genetics, epigenetics, and environmental adaptation in livestock. By integrating omics technologies with applied breeding, the goal is to develop practical tools for improving fertility and stress tolerance. Planned contributions aim to influence policy, guide breeding programs, and inspire interdisciplinary collaboration. The legacy envisioned is one of translational research—where molecular insights drive agricultural innovation. Further studies will likely explore broader species contexts, delve into RNA regulatory networks, and engage with global agricultural communities. With a strong foundation and forward-looking vision, this research journey is poised to make lasting contributions to animal science.

NOTABLE PUBLICATIONS

Title: Effect of heat stress on growth performance, carcase characteristics, meat quality and rumen-muscle axis of Hu sheep
Authors: Sanbao Zhang, Yu Zhang, Yirong Wei, Jianwei Zou, Bao Yang, Qian Wang, Jun Lu, Junzhi Lu, Zihua Zheng, Yanna Huang, et al.
Journal: Italian Journal of Animal Science (Published: 2024-12-31)

Title: Transcriptome-Wide Study Revealed That N6-Methyladenosine Participates in Regulation Meat Production in Goats
Authors: Juhong Zou, Yujian Shen, Jianwei Zou, Jingsu Yu, Yuhang Jiang, Yanna Huang, Qinyang Jiang
Journal: Foods (Published: 2023-03-09)

Muhammad Usama Haroon – Sustainability – Eco-friendly Construction Practices Award

Published on 30/06/202530/06/2025 by Civil Engineering Awards

Muhammad Usama Haroon - Sustainability - Eco-friendly Construction Practices Award

Middle East Technical University Northern Cyprus Campus - Pakistan

AUTHOR PROFILE

SCOPUS

🌱 SUMMARY

Muhammad Usama Haroon is a dedicated researcher in the field of environmental and sustainable engineering, currently pursuing his Master of Science in Sustainable Environment and Energy Systems at Middle East Technical University, Turkey. His academic background in chemical engineering and sustainability research highlights a commitment to addressing environmental challenges through innovation. His thesis explores the eco-friendly stabilization of soft clays using treated sewage sludge as a sustainable alternative to cement—an approach aimed at reducing environmental impact while enhancing construction materials. With a CGPA of 3.86/4.00, he has demonstrated academic excellence and a passion for impactful research. Usama’s work spans areas such as cementitious materials, solid waste reuse, durability assessments, and microstructural characterization. His publications and scholarly activities underscore a keen ability to bridge theory with practical environmental solutions. This summary reflects Usama’s journey as a young, promising researcher focused on blending sustainable development goals with scientific rigor.

📘 EARLY ACADEMIC PURSUITS

Usama began his academic journey at the University of Engineering and Technology (UET) in Lahore, Pakistan, where he earned a Bachelor of Science in Chemical Engineering with a strong academic performance. During his undergraduate years, he laid the foundation for his interdisciplinary research interests in materials science, sustainability, and environmental engineering. His exposure to chemical processes, thermodynamics, and environmental control systems equipped him with essential skills for tackling sustainability challenges. This foundational phase also ignited his curiosity about the reuse of industrial and municipal waste materials—eventually leading to his specialization in sustainable construction and environmental systems. Even at this early stage, Usama showed interest in improving environmental practices in real-world contexts, as evidenced by his later internships and review papers focused on water reuse and waste management. These academic beginnings highlight his progressive mindset and the formative experiences that propelled him toward a research-focused career in environmental sustainability.

👨‍🏫 PROFESSIONAL ENDEAVORS

Professionally, Usama has excelled in both academic and educational roles, blending teaching with research. Currently a graduate teaching assistant at Middle East Technical University, he actively contributes to the Chemistry Department, facilitating lab work and tutoring in courses such as General Chemistry and Physical Chemistry. His prior teaching roles at The City School DHA Campus and Allied School as a chemistry and mathematics instructor and academic coordinator demonstrate strong pedagogical commitment. He designed lesson plans, led lab sessions, coordinated assessments, and guided students, showcasing leadership and communication skills vital to any academic career. These diverse teaching experiences, spanning from school to university level, not only reflect his versatility but also reinforce his dedication to spreading scientific knowledge. Moreover, his professional internship at FrieslandCampina Engro Pakistan Limited allowed him to work hands-on in optimizing water resource strategies, further solidifying his expertise in industrial sustainability practices. His career path exemplifies a balanced approach to education, research, and real-world application.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Usama’s core research contributions center on environmental engineering, sustainable construction materials, and climate action. His most impactful work includes the development of eco-friendly stabilization techniques for soft clays using treated sewage sludge—a sustainable alternative to cement. By reducing reliance on cement, this work not only curbs CO₂ emissions but also promotes beneficial reuse of municipal waste. His contributions also extend to indoor air quality and occupant thermal comfort in hot and humid climates, particularly in urban regions of Pakistan. Usama has published research in notable journals such as Sustainability, with topics spanning from solid waste reuse to microstructural analysis of treated clay composites. His interdisciplinary expertise covers cementitious materials, durability testing, and environmental data analysis. The integration of microscopy, chemical analysis, and statistical tools in his research showcases a robust, data-driven approach. Usama’s work directly supports the UN Sustainable Development Goals, particularly in climate action, clean water access, and sustainable industrial practices.

🏅 ACCOLADES AND RECOGNITION

Usama’s academic journey has been distinguished by recognition at both national and international levels. He was awarded a full scholarship for his master's program at Middle East Technical University in recognition of his academic excellence and potential. Additionally, he earned a certificate of merit for presenting his research paper on sustainable water utilization and wastewater reuse in Pakistan’s dairy industry at the prestigious NISE Conference in Kyrenia, Cyprus. These honors affirm the scholarly quality and societal relevance of his research. His ability to present, publish, and apply complex environmental data in a meaningful way reflects a high level of intellectual maturity and innovation. Furthermore, his role as a teaching assistant comes with merit-based responsibilities, further validating his standing in the academic community. These accolades serve not only as personal achievements but as validation of his contributions to sustainability, environmental engineering, and academic leadership.

🌍 IMPACT AND INFLUENCE

Usama’s work holds significant promise in transforming how societies approach construction, waste management, and environmental planning. His exploration of sewage sludge as a substitute for cement introduces a sustainable and scalable solution to two major issues: cement overuse and sludge disposal. This innovation, if adopted widely, could significantly lower greenhouse gas emissions from the construction industry. Furthermore, his research on climate change in Pakistan and his review of industrial water reuse provide vital policy insights aligned with the 2030 Agenda for Sustainable Development. As a multidisciplinary thinker, Usama bridges engineering, environmental science, and policy-making—offering holistic solutions to global challenges. His influence is growing within academic and applied research circles, particularly across Turkey and Pakistan. By focusing on developing-country contexts, Usama brings attention to localized sustainability needs and promotes equitable scientific progress. His impact goes beyond publications—it lies in his ability to generate actionable knowledge for environmental resilience and sustainability.

🔮 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Usama aims to deepen his research in eco-friendly construction materials, particularly through advanced waste valorization techniques and circular economy frameworks. His vision includes contributing to low-carbon technologies, improving soil stabilization practices, and shaping environmental policy through scientific evidence. Usama’s legacy will likely be one of interdisciplinary innovation, especially in regions vulnerable to climate stress. He is poised to lead collaborative projects that merge academia with industry, and to mentor future sustainability scholars. His ability to communicate scientific findings in accessible ways makes him a potential advocate for sustainable practices at both grassroots and institutional levels. As global challenges intensify, Usama’s research offers scalable, eco-conscious solutions that could inform not only engineering practice but also sustainability education and policy frameworks. With a solid foundation in teaching, research, and applied science, his future contributions will undoubtedly leave a lasting mark on environmental science and sustainable development worldwide.

PUBLICATION

Title: Sustainable strength enhancement of cement-clay composites through partial replacement with sewage sludge and sewage sludge ash
Authors: [Not specified in the input]
Journal: Construction and Building Materials

Manali Rathee – Sustainable Development – Women Researcher Award

Published on 23/06/202523/06/2025 by Civil Engineering Awards

Manali Rathee - Sustainable Development - Women Researcher Award

IIT JAMMU - India

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Manali Rathee’s academic pursuits focus on geopolymer concrete as a sustainable alternative to traditional Portland cement. Emphasis is placed on durability, service life, and low-carbon innovations. Core areas include resistance to chemical attacks, carbonation behavior, microstructural optimization using nanomaterials, and integration of industrial by-products to support circular-economy goals. Research contributes to sustainable structural engineering for climate-resilient infrastructures in line with India’s Net-Zero 2070 agenda. The work aligns strongly with emerging global themes of green construction materials and performance-based structural design for harsh environments such as marine zones and urban industrial sectors.

EDUCATION

Currently pursuing a Ph.D. in Civil Engineering with specialization in Structure and Construction Management at IIT Jammu. Holds a Master's in Structure and Construction Management from NIT Jalandhar, with thesis centered on geopolymer paving blocks using waste materials under a TEQIP-III project. Undergraduate degree in Civil Engineering was earned from GL Bajaj Institute of Technology and Management. Academic background is complemented by the Sakura Science Exchange Program (Japan), multiple certifications in STAAD Pro, AutoCAD, and industry-institute webinars, reflecting a commitment to multidisciplinary learning and international collaboration.

PROFESSIONAL EXPERIENCE

Experience includes multiple teaching assistant roles at IIT Jammu and NIT Jalandhar in subjects like Engineering Mechanics and Structural Engineering. Hands-on industry training gained through internship at NTPC Netra Site as a quality control engineer and summer training at NBCC (India) Ltd. Experience managing and volunteering in international workshops and student-driven events. Exposure to both academic and industry perspectives provides a balanced approach to research and practical application. Active involvement in academic event coordination and cross-cultural exchange programs has enhanced professional growth and leadership.

RESEARCH INTEREST

Primary interest lies in geopolymer concrete systems, particularly their chemical durability, microstructural evolution, and service-life prediction under aggressive exposures. Areas of investigation include chloride and carbonation ingress, interfacial behavior with nanomaterials (MXenes, graphene), and valorization of industrial by-products like copper slag and zinc slag. Research promotes low-carbon construction materials, aiming to optimize the physical and mechanical performance of alkali-activated binders. Strong inclination toward circular economy in construction through waste reuse, targeting environmental sustainability, and material innovation suitable for high-performance structural applications.

AWARD AND HONOR

Secured a TEQIP-III sponsored project during postgraduate studies and ranked among the top 3 in the M.Tech department. Recognized with a funded research internship and project support, alongside multiple GATE qualifications with high percentile scores. Presented research internationally in the UK and Japan, reflecting strong academic visibility. Achievements include presenting in top-tier conferences and contributing to global forums on sustainable concrete technologies. Patent filed for a novel cementitious binder. Recognized as a proactive contributor in both technical education and sustainable innovation initiatives.

RESEARCH SKILL

Proficient in advanced material characterization techniques including XRD, SEM, EDS, FTIR, and beginner-level TEM. Skilled in mechanical performance testing and microstructural analysis of cementitious materials. Proficient in AutoCAD, STAAD Pro, MATLAB, and MS Office. Experienced with data analysis and experimental setup for durability testing under acid, sulfate, and thermal conditions. Competent in operating across Windows, Linux, and Mac platforms. Effective communication skills in English and Hindi. Strong coordination capabilities demonstrated through participation in research events, academic workshops, and student-led conferences.

PUBLICATIONS TOP NOTED

Published in high-impact journals like ACS Materials Au, ACS Applied Engineering Materials, and Magazine of Concrete Research. Key contributions include studies on MXene-geopolymer interactions, thermal and chemical durability of alkali-activated binders, and sustainable concrete with fly ash and slags. Reviewed critical aspects of geopolymerization and carbonation resistance. Authored eight peer-reviewed articles and two accepted papers, addressing both experimental findings and theoretical insights. Publication record highlights strength in multidisciplinary civil engineering, nanomaterials application, and durability modeling for advanced construction materials.

Durability properties of copper slag and coal bottom ash based I-shaped geopolymer paver blocks
M. Rathee, N. Singh
Construction and Building Materials, 347, 128461 (2022)

Carbonation resistance of blended mortars and industrial by-products: A brief review
N. Singh, B. Sharma, M. Rathee
Cleaner Materials, 4, 100058 (2022)

Study of mechanical properties of geopolymer mortar prepared with fly ash and GGBS
M. Rathee, A. Misra, J. Kolleboyina
Materials Today: Proceedings, 93, 377–386 (2023)

Reviewing geopolymer concrete: a possible sustainable structural material of future
M. Rathee, N. Singh
Environment, Development and Sustainability (2024)

Interfacial Chemistry of Ti₃C₂Tₓ MXene in Aluminosilicate Geopolymers for Enhanced Mechanical Strength
M. Rathee, H.K. Surendran, C. Narayana, R. Lo, A. Misra, K. Jayaramulu
ACS Applied Engineering Materials, 2(8), 2027–2037 (2024)

RESEARCH FOCUS

Research emphasizes geopolymer systems’ performance in aggressive environments and the role of functional additives in tailoring binder microstructure. Special attention is paid to circular-economy frameworks by incorporating hazardous waste like copper slag, aiming for safer disposal and improved mechanical properties. The goal is to develop advanced geopolymer composites that meet the dual demands of sustainability and performance. Strategic use of analytical tools supports the development of material models for structural durability, promoting the widespread adoption of low-carbon building technologies across infrastructure sectors.

CONCLUSION

Manali Rathee is a promising civil engineering researcher advancing the field of sustainable and low-carbon construction materials. Through rigorous academic training, field exposure, and impactful publications, significant contributions have been made to geopolymer concrete development. Interdisciplinary approach bridges structural mechanics with material chemistry and environmental sustainability. Patent and project execution underscore innovation and research leadership. Participation in global conferences and workshops marks strong engagement with the international scientific community. The work supports a future-ready construction industry through knowledge integration, experimental innovation, and societal relevance.

Andrey Achitaev | Sustainable Development | Best Researcher Award – 2896

Published on 04/10/202404/10/2024 by Civil Engineering Awards

Mr. Andrey Achitaev | Sustainable Development | Best Researcher Award

AT Siberian Federal University

Andrey Achitaev is a seasoned expert in [specific field, e.g., materials science, mechanical engineering, or software development], known for his innovative work in [specific areas of expertise, e.g., materials design, computational modeling, or system optimization]. With a background in both research and applied science, he has made meaningful contributions to [specific industry or academic area], where his work has influenced advancements in [mention relevant sectors, e.g., renewable energy, advanced manufacturing, or software solutions].

Professional Profiles:

orcid

Strengths for the Award

Andrey Aleksandrovich Achitaev demonstrates considerable expertise and innovation in the fields of electrical engineering and renewable energy, which makes him a strong candidate for both the Research for Community Impact Award and the Best Researcher Award.His experience as Lead Engineer in relay protection and automation, along with his work as CEO of SPE Electromechanical Technologies Ltd., showcases his leadership and capability in developing and introducing cutting-edge products to the market. His involvement in creating new electrical drive products and conducting research on electrical networks and renewable energy storage systems highlights his contributions to sustainable energy solutions, directly benefiting communities by optimizing energy systems.Andrey’s research articles, published in high-impact journals, such as those on wind turbines, magnetic variable transmission, and the stability of power systems, further demonstrate his significant contributions to renewable energy technologies and power grid stability. His work in isolated power systems and hydraulic turbines strengthens his candidacy for the Research for Community Impact Award, as these innovations are vital for enhancing power efficiency in underserved or off-grid regions.

Areas for Improvement

While Andrey’s portfolio is strong, expanding his contributions to interdisciplinary research and international collaborations could further enhance his global impact. Engaging in more community outreach and public dissemination of his findings would amplify the real-world impact of his research, particularly in educating the public and policymakers on the benefits of renewable energy and power grid optimization.Additionally, securing grants or funding for larger-scale projects, especially those that address community needs, could strengthen his application for the Research for Community Impact Award. While his technical and research achievements are clear, demonstrating a more direct link between his work and measurable societal benefits would further elevate his profile.

Education:

Andrey Achitaev holds an extensive academic background in [specific field, e.g., Materials Science or Mechanical Engineering]. He completed his Bachelor’s degree in [specific field] from [University Name], where he developed a strong foundation in [mention core subjects or areas, e.g., material properties, thermodynamics, or mechanical systems]. He further pursued his Master’s degree at [University Name], specializing in [specific area of study, e.g., advanced materials, computational modeling]. During his postgraduate studies, Mr. Achitaev engaged in research focusing on [specific research focus, e.g., sustainable material development, energy-efficient technologies], which led him to contribute to several key projects and publications. If applicable, he has also completed a PhD in [specific field] from [University Name], with a dissertation focused on [specific research area]. His educational journey has equipped him with advanced technical expertise and a deep understanding of [specific industry or field].

Professionals Experience:

Andrey Achitaev is an experienced professional in [specific field, e.g., engineering, computer science, or materials science], with over [number] years of expertise in both academia and industry. He currently serves as [current role, e.g., Senior Research Scientist, Lecturer, or Engineer] at [Institution/Company Name], where he focuses on [mention specific areas of responsibility, e.g., research and development, innovation in materials, or process optimization]. His previous roles include positions at [mention previous companies or institutions], where he contributed to significant advancements in [mention industry or technology, e.g., materials processing, software development, or product design].

Skills:

Andrey Achitaev is highly skilled in [specific skills, e.g., materials analysis, computational modeling, product development]. He is proficient in using [mention specific tools or software, e.g., AutoCAD, MATLAB, Python] and has a strong foundation in [mention key technical skills, e.g., simulation, data analysis, experimental testing]. His ability to manage multidisciplinary teams and projects is supported by his excellent problem-solving and leadership skills.

Research Focus:

Mr. Achitaev’s research focuses on [mention key areas, e.g., materials science, renewable energy, or computational modeling]. He is particularly interested in addressing challenges in [mention specific challenges, e.g., sustainable material development, energy efficiency, or advanced manufacturing techniques]. His research aims to provide innovative solutions to critical issues in [specific sector or technology], contributing to the development of cutting-edge technologies and processes.

Publications :

“Modelling electromagnetic transmission for gas-piston generator in RTDS to estimate its dynamic stability”
- Conference: Rudenko International Conference “Methodological Problems in Reliability Study of Large Energy Systems” (RSES 2021)
- Publication Year: 2023
“On the optimal structure of power system multi-agent control”
- Conference: Rudenko International Conference “Methodological Problems in Reliability Study of Large Energy Systems” (RSES 2021)
- Publication Year: 2023
“Stability of Nonlinear Electromechanical Systems with a Magnetic Gearbox”
- Journal: Russian Engineering Research
- Publication Date: October 2023
“An Adaptive Inertia and Damping Control Strategy Based on Enhanced Virtual Synchronous Generator Model”
- Journal: Mathematics
- Publication Date: September 2023
“Life extension of AC-DC converters for hydrogen electrolysers operating as part of offshore wind turbines”
- Journal: International Journal of Hydrogen Energy
- Publication Date: August 2023

Conclusion:

Andrey Aleksandrovich Achitaev is well-suited for both the Research for Community Impact Award and the Best Researcher Award. His groundbreaking work in renewable energy systems, combined with his leadership in the electrical engineering field, makes him a strong contender for these awards. His research directly impacts power generation, especially in isolated and off-grid communities, reflecting a deep commitment to advancing sustainable energy solutions. With further focus on interdisciplinary collaboration and community outreach, Andrey could significantly amplify the broader impact of his work.