Bablu Mordina | Supercapacitor for energy storage application | Innovations in Materials Engineering Award

Published on by Civil Engineering

Dr Bablu Mordina | Supercapacitor for energy storage application | Innovations in Materials Engineering Award

Scientist ‘E’, DMSRDE (DRDO) , Kanpur

Dr. Bablu Mordina is a distinguished scientist currently serving as Scientist D at the Defence Materials and Stores Research and Development Establishment (DMSRDE), DRDO, Kanpur. He specializes in the development of advanced nanomaterials for sensor and energy applications. With over a decade of experience, Dr. Mordina has contributed significantly to nanocomposites, supercapacitors, microwave absorbers, and eco-friendly materials. He holds 16 international journal publications, 5 Indian patents, and 4 book chapters. Dr. Mordina has presented his research at prestigious conferences and delivered invited talks at renowned institutions.

PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Diverse Expertise in Nanomaterials and Sensors: Dr. Bablu Mordina has extensive experience in various cutting-edge fields, including nanomaterials, energy devices, supercapacitors, and magnetic nanoparticles. His work on metal oxide and bio-waste-based carbon nanostructures, supercapacitors, and nanocomposites for microwave absorption is highly relevant in modern research areas, demonstrating his expertise in both material science and energy storage.
  2. Innovative Contributions to Defense and Industry: His contributions to the development of novel nanomaterials for the defense sector, including eco-friendly coolants for radars and vehicles, and high-pressure hydraulic fluids for the Indian Navy, underscore his innovative applications of research to practical problems.
  3. Research Output: With 16 international journal publications, 5 patents, 4 technical reports, and 4 book chapters, Dr. Mordina’s prolific output in academic and applied research demonstrates his significant contribution to the field. His work has been presented at both national and international conferences, reflecting his active engagement in the scientific community.
  4. Recognition and Collaboration: Dr. Mordina has received recognition through citations of his work, showing the impact of his research. Additionally, his role in delivering invited talks at reputed academic and research institutes highlights his ability to disseminate knowledge and collaborate effectively.
  5. Commitment to Advancing Technology: His work in developing magnetorheological elastomers for vibration damping and wear-resistant polymer nanocomposites highlights his commitment to advancing technology with applications in both industrial and defense sectors.

AREAS FOR IMPROVEMENTS

  1. Collaborative Work with Broader Industries: While his work is highly impactful in defense and research, expanding collaborations with broader industrial sectors and non-defense applications could enhance the reach and application of his innovations. This could also provide further avenues for interdisciplinary research.
  2. Increased Public Engagement and Outreach: Although Dr. Mordina has delivered invited talks, expanding his public outreach to communicate his work to a broader audience—including students, policymakers, and the general public—could enhance the visibility and impact of his research.
  3. Diversification of Research Areas: While his work is impressive, focusing on diversifying the range of applications for his nanomaterials and energy devices—perhaps in sustainable energy or health care—could further establish him as a leader in multiple fields.

EDUCATION

🎓 B.Sc. Chemistry (Hons) – University of Calcutta (2002)
🎓 B.Tech. in Polymer Science & Technology – University of Calcutta (2005)
🎓 M.Tech. in Polymer Science & Technology – University of Calcutta (2009)
🎓 Ph.D. in Chemical Engineering – Indian Institute of Technology Kanpur (2017)

EXPERIENCE

🔬 Scientist D, DRDO (2009–Present): Focused on nanomaterials for sensors and energy devices.
🏭 Industrial Experience, Kalpana Industries Ltd. (2 years): Specialized in flexible cable compounds including polyvinyl chloride and polyethylene composites.

AWARDS AND HONORS

🏆 5 Indian Patents
🏆 16 International Journal Publications
🏆 10 Research Papers Presented at Conferences
🏆 8 Invited Talks at Academic and Research Institutes

RESEARCH FOCUS

🔍 Development of nanomaterials for sensors and energy devices.
🔍 Supercapacitors using bio-waste carbon nanostructures.
🔍 Nanocomposites for microwave absorption and vibration damping.
🔍 Eco-friendly coolants and hydraulic fluids for defense platforms.

PUBLICATION TOP NOTES

  1. 📖 Functional Polymer Nanocomposites as Supercapacitors for Health Care
  2. 📖 Structure-Property Relationship in Binder-Free Asymmetric Supercapacitor
  3. 📖 Binder-Free Hybrid Supercapacitor Based on Nickel Ferrite Nanoparticles
  4. 📖 Carbon Nanofibers-Reinforced Polymer Nanocomposites for Microwave Absorption
  5. 📖 Smart Elastomeric Hydrogel Containing Nanosized Barium Ferrite
  6. 📖 Impact of Process Conditions on NiMoO4 Nanorods for Supercapacitors
  7. 📖 Fe3O4 Nanoparticles in Hollow Mesoporous Carbon Nanofibers for Microwave Absorption
  8. 📖 Graphene Oxide in Magnetorheological Hydrogel for Enhanced Behavior
  9. 📖 Friction and Dry Sliding Wear of Bismaleimide with Carbon Nanotubes
  10. 📖 Thermal and Mechanical Properties of Poly(Vinyl Butyral)-Modified Nanocomposites

CONCLUSION

Dr. Bablu Mordina is highly deserving of the Best Researcher Award due to his diverse expertise in nanomaterials, energy devices, and defense-related applications. His extensive research output, industrial experience, and innovative contributions to both academic and defense sectors demonstrate his significant role in advancing modern science. While there are areas for improvement in terms of expanding collaborations and public outreach, his accomplishments make him a standout candidate for the award. His continued focus on developing novel technologies with real-world applications further solidifies his position as a leading researcher in his field.

Burcu Buram Colak Demirel | Building Energy | Best Researcher Award

Published on by Civil Engineering

Mrs Burcu Buram Colak Demirel | Building Energy | Best Researcher Award

Research Assistant, Zonguldak Bulent Ecevit University, Turkey

Burcu Buram Çolak is an academic and architect with a passion for exploring the intersection of architecture and environmental design. She has worked in various roles in academia and practice, contributing significantly to research in architecture and sustainable building systems. With a background in architecture, she is currently serving as a research assistant at Zonguldak Bülent Ecevit University and Gazi University in Turkey. Her work primarily focuses on air quality in architectural spaces, energy conservation, and adaptive building design. She has contributed to numerous publications and continues to be actively engaged in research and the development of innovative solutions in architectural design.

Profile

Orcid

Strengths for the Award

  1. Diverse and Relevant Research Focus: Burcu Buram Çolak’s research is highly interdisciplinary, focusing on crucial issues in architecture such as air quality, building materials, energy conservation, and adaptable design systems. Her work addresses contemporary challenges in sustainable architecture and indoor environmental quality, which are of increasing importance in today’s world.
  2. Publications in Prestigious Journals: Burcu has published several impactful papers in recognized journals, including articles on energy conservation, adaptable building shells, and the intersection of architecture with branding and music. These publications demonstrate both academic depth and the practical application of her research.
  3. Academic and Professional Experience: With experience as a project architect and research assistant at prominent universities, Burcu successfully bridges theory and practice. Her professional background, combined with her active involvement in research, gives her a unique edge as an academic and practitioner.
  4. Innovation and Multidisciplinary Approach: Her work on comparing glass as a structural material with lightweight alternatives, as well as adaptive building shell designs, reflects her forward-thinking approach to architecture. She is engaging with cutting-edge issues in sustainability, energy-efficient design, and adaptive reuse in architecture.
  5. Ongoing Commitment to Research: Burcu is actively pursuing a PhD and has a clear focus on air quality in architectural spaces, indicating a long-term commitment to advancing knowledge in the field. Her research is evolving, which speaks to her dedication to contributing valuable insights for the architecture and design communities.

Areas for Improvement

  1. Broader Research Impact and Collaboration: While Burcu has produced high-quality publications, there is potential to increase the visibility of her work through more international collaborations and participation in high-impact conferences. This could further solidify her reputation in the global academic community.
  2. Increased Integration of Research and Teaching: As she is working both in academia and in research, Burcu could enhance the integration of her research into her teaching, sharing her findings with students more directly. This would not only benefit her students but also position her as a leader in architectural education.
  3. Expansion into More Applied Research: While Burcu has engaged with innovative research, exploring more applied case studies, particularly in collaboration with architectural firms or municipalities, could elevate the practical impact of her work. Engaging in real-world projects could strengthen the applicability and relevance of her research to broader architectural practice.

Education

Burcu Buram Çolak completed her Bachelor’s degree in Architecture at Erciyes University in 2013. She furthered her education by obtaining a Master’s degree from Gazi University, where she investigated glass as a structural material in her thesis. Burcu is currently pursuing a PhD at Gazi University, focusing on air quality in architectural spaces. Her academic journey has been deeply influenced by her research interests in building materials, energy efficiency, and environmental factors in architecture. She continues to expand her expertise through active research and academic collaboration.

Experience

Burcu Buram Çolak began her career as an architect at an architecture company from 2013 to 2017, where she worked on various projects. In 2017, she transitioned to academia, joining Gazi University as a research assistant in the Faculty of Architecture, where she contributed to teaching and research. Since 2023, she has been serving as a research assistant at Zonguldak Bülent Ecevit University in the Faculty of Architecture and Design. Her professional experience spans both practice and academia, allowing her to bridge the gap between theory and real-world application in architectural design and research.

Awards and Honors

Burcu Buram Çolak has been recognized for her contributions to architectural research and innovation. She has received accolades for her research on building materials, sustainable design, and energy conservation in residential buildings. Her work on adaptive building shells has been highly regarded in the academic community, and she has been awarded funding for her doctoral research on air quality in architectural spaces. In addition to these honors, Burcu has been acknowledged for her published works in international journals, further cementing her status as an influential figure in architectural research.

Research Focus

Burcu Buram Çolak’s research focuses on the relationship between air quality and architectural spaces, particularly the role of building materials and energy-efficient designs in improving environmental conditions. She has explored glass as a structural system material, comparing it with lightweight structural materials for sustainability. Her current PhD research aims to investigate how air quality impacts the well-being of occupants and how architectural interventions can improve indoor environments. Her work seeks to create innovative architectural solutions that prioritize both sustainability and the health of building occupants, addressing contemporary challenges in urban design and construction.

Publication Top Notes

  • Renovation Strategies for Energy Conservation in Multi-Story Residential Buildings in Turkey 🏢💡
  • Examples of Adaptive Module Variations for Adaptable Building Shell Design 🏛️🔄
  • Importance of Architecture in the Branding Process: An Evaluation on a Famous Brand 🏙️🔍
  • İmgesel Yapılarda Müzik ve Geometri Kesişimi; Iannis Xenakis Örnekleri Üzerinden İnceleme 🎶

Conclusion

Burcu Buram Çolak exhibits the qualities of an outstanding researcher: innovative ideas, a multidisciplinary approach, and a strong commitment to advancing knowledge in sustainable architecture and building design. Her research is highly relevant to contemporary issues in architecture, such as environmental quality and energy conservation. Although there are opportunities to expand her international collaborations and make her research more applied, her ongoing PhD and established academic career indicate that she is well on her way to becoming a leading figure in her field. Therefore, Burcu is highly deserving of the Best Researcher Award, as her work continues to make significant contributions to both academic and practical aspects of architecture.

POOJA CHAUDHARY | RENEWABLE ENERGY SOLAR CELL | Best Researcher Award

Published on by Civil Engineering

Ms. POOJA CHAUDHARY | RENEWABLE ENERGY SOLAR CELL | Best Researcher Award

RESEARCH SCHOLAR,Madan Mohan Malaviya Engineering College: Madan Mohan Malaviya University of Technology, India

Pooja Chaudhary is an enthusiastic and dedicated researcher in the field of Electronics Engineering with a focus on VLSI Design and Communication Engineering. Currently pursuing her Ph.D. in Solar Photovoltaic Cells at Madan Mohan Malaviya University of Technology, Gorakhpur, her research combines advanced electronics with renewable energy solutions. She has a strong academic background, holding a Master’s degree in Communication Engineering and a Bachelor’s degree in Electronics and Communication Engineering. Pooja is skilled in industry-standard software tools for VLSI design and is deeply engaged in cutting-edge research, particularly in cognitive radio, solar energy, and antenna design. Her professional goals include contributing to sustainable energy solutions and advanced communication systems.

Profile

Scopus

Strengths for the Award

  1. Solid Academic Background:
    • Pooja Chaudhary has demonstrated a strong academic record, with a Bachelor’s degree in Electronics and Communication Engineering (72.66%) and a Master’s degree in Communication Engineering (81.10%) from reputed institutions in Uttar Pradesh. This academic foundation sets a strong base for her research contributions.
  2. Ongoing Doctoral Research:
    • Pooja is pursuing a Ph.D. in Solar Photovoltaic Cells at the Madan Mohan Malaviya University of Technology, Gorakhpur, focusing on a highly relevant and evolving field in renewable energy. Her dissertation topic, “Design and Development of Compact Printed Monopole Antenna for Cognitive Radio Application,” shows her ability to combine cutting-edge communication technology with energy-efficient solutions.
  3. Research Publications:
    • Pooja has contributed to peer-reviewed journals and conferences, including:
      • Physica Scripta (2024): A publication on enhancing the efficiency of Sb2Se3 solar cells, showcasing her work on the optimization of materials for solar energy applications.
      • Emerging Materials Research (2024): Another paper on improving Sb2Se3 solar cell performance using advanced electron transport layers (IGZO and n-ZnO), demonstrating her expertise in material science and solar cell engineering.
      • International Conference Paper (2018): A paper on a switchable frequency reconfigurable UWB antenna for cognitive radio applications, reflecting her contribution to communication technologies and antennas.
    • These publications indicate a well-rounded research portfolio with applications in renewable energy, communication systems, and advanced electronics.
  4. Qualified for Major Examinations:
    • Pooja has qualified for the NET (National Eligibility Test) multiple times between 2018 and 2022, showing her consistent commitment to academic excellence.
    • She has also qualified for GATE in 2017 and 2019, showcasing her deep understanding of engineering principles.
  5. Training and Industry Expertise:
    • Pooja has completed vocational training in N.E. Railway Signal and Telecommunication Center, which is highly relevant for her role in academia and practical engineering applications.
    • She is proficient in industry-standard software tools used in VLSI design, such as Silvaco TCAD, Cadence Virtuoso, HFSS, and Synopsys Design Compiler, which are crucial for her ongoing and future research projects in VLSI, communication systems, and antenna design.
  6. Awards and Fellowships:
    • She has been recognized with the National Fellowship (valid until 2026), Rajiv Gandhi Fellowship for PG Students in 2016-2017, and NET qualifications, further underlining her academic merit and contribution to research.

Areas for Improvement

  1. Broader Research Network:
    • While Pooja has produced valuable research in her areas of expertise, expanding her professional network by collaborating with more international researchers or involving herself in multi-disciplinary projects could further enhance the visibility and impact of her work.
  2. Diversity of Research Focus:
    • Although Pooja’s research is strong in the domains of solar cells and cognitive radio, exploring interdisciplinary fields (e.g., AI in VLSI, quantum computing, or smart grid systems) could open up more innovative avenues for her work and increase her research impact.
  3. Public Engagement and Outreach:
    • More visibility in the form of invited talks, workshops, or educational outreach could help Pooja enhance her academic profile. Engaging in platforms that showcase her research, such as social media or academic conferences, could improve her recognition as a thought leader.

Education

Pooja Chaudhary completed her Bachelor’s degree in Electronics and Communication Engineering in 2014 with a score of 72.66% from the Institute of Technology and Management in Gorakhpur, affiliated with Uttar Pradesh Technical University. She later pursued a Master’s degree in Communication Engineering from Madan Mohan Malaviya University of Technology, Gorakhpur, where she achieved an impressive score of 81.10%. Currently, she is pursuing a Ph.D. in Solar Photovoltaic Cells, focusing on designing compact printed monopole antennas for cognitive radio applications. Pooja’s academic journey reflects her passion for innovative technology and commitment to improving energy systems and communications through research.

Experience

Pooja Chaudhary has 2 years of teaching experience at New Jagdish Durgawati Pvt. ITI College, Khalilabad, Sant-Kabir Nagar. In addition to her teaching role, she has worked on numerous academic projects and seminars. Her experience extends beyond teaching to practical training, having completed a four-week vocational training in signal and telecommunication at N.E. Railway, Gorakhpur. This blend of teaching, training, and research experience has shaped her into a versatile academic professional. She also possesses hands-on experience with industry-standard software tools like Silvaco TCAD, Cadence Virtuoso, HFSS, and Synopsys Design Compiler, equipping her to contribute effectively to the academic and research community.

Awards and Honors

Pooja Chaudhary has received several prestigious honors throughout her academic career. She qualified for the National Eligibility Test (NET) in 2018, 2019, 2021, 2022, and 2022, underscoring her commitment to academic excellence. She has also successfully cleared GATE in 2017 and 2019, further strengthening her profile. In recognition of her academic potential, she received the Rajiv Gandhi Fellowship for PG students in 2016-2017. Additionally, she was awarded the National Fellowship in 2021, valid until 2026, which recognizes her excellence in research. These accolades validate Pooja’s dedication to both teaching and research in electronics and renewable energy.

Research Focus

Pooja Chaudhary’s research primarily focuses on Solar Photovoltaic Cells, Cognitive Radio Applications, and VLSI Design. Her current Ph.D. work explores optimizing the efficiency of Sb2Se3 solar cells using bi-layer absorbers, along with enhancing the performance of solar cells using advanced electron transport layers like IGZO and n-ZnO. Additionally, she has worked on the design of a compact printed monopole antenna for cognitive radio applications, aiming to develop reconfigurable antennas for flexible wireless communication. Pooja’s research integrates renewable energy with communication technology, highlighting her multidisciplinary approach to solving contemporary challenges in energy and communication systems.

Publication Top Notes

  1. Enhancing efficiency of Sb2Se3 solar cell through optimized optical and electrical properties with Bi-layer absorber (Physica Scripta, 2024)
  2. Performance enhancement of Sb2Se3 solar cell with IGZO and n-ZnO as electron transport layers (Emerging Materials Research, 2024)
  3. A Switchable Frequency Reconfigurable UWB Antenna for Cognitive Radio Application (Proceedings of the 2nd International Conference on Electronics, Communication, and Aerospace Technology, ICECA 2018)

Conclusion

Pooja Chaudhary is a highly competent and promising researcher with significant contributions to the fields of solar photovoltaic technology, communication engineering, and VLSI design. Her academic qualifications, research publications, and teaching experience make her an ideal candidate for the Best Researcher Award. With continued research, collaboration, and public engagement, she is poised to make even more significant contributions to the academic and research community in the coming years.Pooja’s strengths in combining communication technologies with renewable energy, her proficiency in advanced software tools, and her consistent track record of research excellence place her as a standout candidate for this award.

 

Hurayra Md Abu | Energy Power | Best Researcher Award

Published on by Civil Engineering

Mr Hurayra Md Abu | Energy Power | Best Researcher Award

Student/Member, North China Electric Power University, China

Md Abu Hurayra is a dedicated mechanical engineering student at North China Electric Power University (NCEPU), Beijing, China. Specializing in heat and mass transfer, energy storage, computational fluid dynamics (CFD), new energy materials, and mechanical design, Hurayra is committed to pushing the boundaries of sustainable energy solutions. With a top rank in both his Bachelor’s and Diploma programs, he has established a solid foundation in mechanical engineering. His research interests focus on enhancing energy efficiency, exploring innovative energy storage materials, and applying AI in mechanical design. Hurayra is recognized for his contributions to green technologies and sustainable practices, which are reflected in his published work. He continues to pursue academic excellence, aiming to drive advancements in energy and mechanical engineering. Hurayra’s dedication to his field is evident in his achievements, and he is poised to make significant contributions to the industry.

Profile

Google Scholar

Strengths for the Award

Md Abu Hurayra demonstrates exceptional academic and research capabilities, which make him a strong contender for the Best Researcher Award. His academic achievements, including being ranked 1st in both his Bachelor’s and Diploma programs, highlight his commitment to excellence. His research focuses on critical areas such as heat and mass transfer, energy storage, new energy materials, and the application of AI in mechanical design. His work on biomaterials for energy storage, published in Green Technologies and Sustainability, reflects his contribution to sustainable technologies, a key area of global importance. Hurayra has shown solid potential in translating theoretical knowledge into practical, innovative solutions for energy efficiency and sustainability, positioning him as a future leader in the field.

Areas for Improvement

While Hurayra has made impressive strides in his academic journey, there are a few areas where further development could strengthen his profile for the award. His citation index, publication count, and involvement in industry-sponsored projects could be expanded to demonstrate the broader impact and recognition of his research. Gaining more hands-on experience in applied industry research, as well as publishing more articles in high-impact journals, could further establish his research visibility. Also, leadership in collaborative research and editorial roles in high-tier journals could amplify his academic influence.

Education 

Md Abu Hurayra is currently pursuing a Bachelor of Science in Mechanical Engineering at North China Electric Power University (NCEPU), Beijing, China, with an impressive score of 87.73% in the 6th semester and ranking 1st out of 35 students. He has demonstrated outstanding academic performance, reflecting his passion and commitment to the field of mechanical engineering. Prior to his undergraduate studies, Hurayra completed a Diploma in Mechanical Technology at the Bangladesh Sweden Polytechnic Institute (BSPI) in Chittagong, Bangladesh, where he earned a CGPA of 3.93 out of 4.00, securing the top rank in his class. His educational background provides him with a comprehensive understanding of mechanical engineering principles, reinforced by his expertise in energy systems, heat transfer, and mechanical design. Hurayra’s academic achievements highlight his strong technical abilities and potential for future innovation in the mechanical and energy engineering sectors.

Experience 

Md Abu Hurayra has been actively involved in various research and consultancy projects during his academic journey. At North China Electric Power University, he has participated in cutting-edge research related to heat and mass transfer, energy storage, and CFD. His involvement in these projects has allowed him to apply theoretical knowledge to real-world challenges, particularly focusing on enhancing energy storage systems and exploring new energy materials. Hurayra has also contributed to collaborative industry projects, where he worked alongside professionals to develop innovative mechanical design solutions, integrating AI to optimize performance. His technical skills, combined with his ability to collaborate effectively with diverse teams, have positioned him as a valuable asset to research initiatives. Additionally, Hurayra’s experience in publishing research articles and presenting at conferences further demonstrates his growing influence in the field of mechanical engineering, particularly in energy and sustainability-related projects.

Awards and Honors

Md Abu Hurayra has received several academic and research-related honors in recognition of his dedication and excellence. He was ranked 1st in both his Bachelor’s program at North China Electric Power University (NCEPU) and his Diploma course at Bangladesh Sweden Polytechnic Institute (BSPI), reflecting his academic prowess and commitment to mechanical engineering. His research in energy storage and sustainable technologies has been acknowledged by peers and faculty, positioning him as a promising young researcher. Hurayra’s scholarly achievements include recognition for his work in heat and mass transfer, where he has contributed valuable insights into energy efficiency. His leadership in various research initiatives, combined with his ability to apply theoretical concepts to real-world applications, has earned him respect within the academic community. As he continues his studies and research, Hurayra is expected to receive further recognition for his contributions to energy technologies and mechanical design.

Research Focus 

Md Abu Hurayra’s primary research focus lies at the intersection of heat and mass transfer, energy storage systems, and the application of AI in mechanical design. His research interests extend to developing new energy materials that can enhance the efficiency and sustainability of energy storage technologies. Hurayra’s work in computational fluid dynamics (CFD) explores how fluid dynamics can be optimized in energy systems, such as batteries and renewable energy systems, to maximize performance. He is passionate about green technologies and sustainable solutions that address the growing energy challenges of today’s world. Hurayra also focuses on the application of AI in mechanical design to improve system optimization, reduce energy consumption, and foster innovation in energy-efficient products. His interdisciplinary approach, integrating material science, thermodynamics, and advanced computational techniques, places him at the forefront of research into next-generation energy solutions.

Publication Top Notes

  1. Biomaterials for energy storage: Synthesis, properties, and performance 🌱🔋 (MS Chowdhury, MS Oliullah, RT Islam, MA Hurayra, MZ Al Mahmud, et al.) Green Technologies and Sustainability, 100152

Conclusion

Md Abu Hurayra possesses a strong foundation in mechanical engineering and energy systems. His research contributions to sustainable energy storage and mechanical design are notable, and his potential for future innovation is clear. While there is room for further growth in terms of publishing more research and gaining wider industry exposure, his dedication, academic achievements, and the impact of his work on energy solutions make him a highly suitable candidate for the Best Researcher Award. With continued research contributions and collaborations, Hurayra is poised to become a leading figure in the field of mechanical and energy engineering.

 

Fanghua Li | Geothermal Energy | Best Researcher Award

Published on by Civil Engineering

Dr Fanghua Li | Geothermal Energy | Best Researcher Award

Research Assistant, Guangxi University, China

Dr. Fanghua Li is a distinguished scholar in civil and communication engineering, currently a PhD candidate at Guangxi University, China. He has worked across a range of engineering disciplines, focusing on urban heat island effects, permeability in concrete, and advanced pavement technologies. Dr. Li has made significant contributions to research in both theoretical and applied aspects of energy efficiency, particularly in cold regions and urban planning. With multiple publications in prestigious journals and several notable projects under his belt, Dr. Li is at the forefront of innovative solutions in sustainable infrastructure. His research is particularly focused on integrating heat flux management and cooling technologies in urban environments, contributing to the development of energy-efficient materials and designs.

Profile

Scopus

Strengths for the Award

Dr. Fanghua Li demonstrates exceptional strength in applied research in civil engineering, particularly in areas related to urban heat management, energy efficiency, and sustainable infrastructure. His work on evaporation resistance characteristics in permeable concrete and its impact on the urban heat island effect, as well as his studies on the reflectivity of roadbeds in cold regions, aligns well with current global environmental and sustainability priorities. He has published multiple highly regarded articles in top-tier journals, such as Cold Regions Science and Technology, Energy and Buildings, and Solar Energy, highlighting his profound impact on his field. His research has been widely cited, with over 590 citations across 480 documents, indicating that his work is not only innovative but also highly influential in advancing understanding and practical applications. Furthermore, his involvement in managing key laboratory projects and contributing to national science foundations emphasizes his leadership and collaborative skills.

Areas for Improvements

While Dr. Li’s research contributions are impressive, expanding his focus to include more interdisciplinary studies could further enhance the depth of his work. For example, exploring the integration of his civil engineering expertise with the latest advancements in artificial intelligence (AI) or machine learning for predictive modeling of urban infrastructure would be a valuable next step. Additionally, while his work is highly technical, expanding into more policy-driven research that examines how engineering solutions can be integrated at a government or societal level could bridge the gap between academia and practical, large-scale implementation.

Another area of improvement could be the exploration of emerging materials and technologies, such as nanotechnology or bio-based construction materials, in the context of urban cooling and energy efficiency. This could keep his work at the cutting edge of sustainable engineering and ensure that his research stays relevant in a rapidly changing technological landscape.

Education

Dr. Fanghua Li’s educational journey reflects his deep commitment to the field of engineering. He is currently pursuing a PhD in Civil Engineering at Guangxi University, focusing on sustainable urban infrastructure. He earned a Master’s degree in Communication Engineering from Hunan University (2012) and a Bachelor’s degree in Communication Engineering from Xi’an University of Technology (2009). His academic foundation spans both civil and communication engineering, allowing him to bridge the gap between infrastructure design and advanced communication systems. Dr. Li has participated in various research initiatives that blend his knowledge of engineering and technology, resulting in meaningful contributions to environmental and energy-efficient engineering solutions.

Experience

Dr. Fanghua Li’s professional experience spans over a decade, with significant roles in both academia and industry. From 2012 to 2013, he worked at the Huizhou Branch of China Mobile in network maintenance, where he honed his technical expertise in communication systems. From 2013 to 2020, he managed key laboratory operations at Guangxi University, gaining in-depth experience in research management and laboratory supervision. His role involved overseeing scientific projects focused on energy efficiency, urban heat management, and sustainable construction materials. His work continues to shape his academic and research output, with a focus on integrating innovative solutions in civil engineering and communication technologies to address pressing environmental challenges.

Awards and Honors

Dr. Fanghua Li has received numerous accolades for his outstanding contributions to research in civil and communication engineering. Among his most notable achievements are his successful completion of NSFC (National Natural Science Foundation of China) Youth Projects and his research on permeability in concrete and urban heat island mitigation. His work has earned recognition from multiple academic and industry bodies. Dr. Li has consistently ranked highly in collaborative research projects, including those related to reflectivity and cooling technologies in cold regions. His scholarly contributions have garnered him a strong citation record, with his work influencing both academia and industry in sustainable infrastructure design.

Research Focus

Dr. Fanghua Li’s research focuses on sustainable engineering solutions for urban environments, with particular emphasis on managing heat flux, permeability in materials, and improving energy efficiency. His work examines the urban heat island effect, the cooling performance of reflective surfaces, and the behavior of pavements and roadbeds in cold regions. He is also interested in advancing urban infrastructure materials, specifically in reducing the impact of extreme temperatures on urban areas. Additionally, Dr. Li explores the integration of nanomaterials in energy storage systems, paving the way for more sustainable building and construction practices. His research seeks to address both environmental and technical challenges by combining theoretical studies with practical applications.

Publication Top Notes

  1. Experimental study on the cooling performance of shading boards with different emissivities at the underside 🌞📚 Cold Regions Science and Technology, 2020
  2. An Innovative Simplified Approach for Conductive Heat Flux in Pavement Structures 🔥🏙 Energy and Buildings, 2024
  3. A side-by-side comparison of the cooling effect of building blocks with retro-reflective and diffuse-reflective walls 🏢🌞 Solar Energy, 2016
  4. A Scientometric Examination on Geothermal Energy Application Research 🌍💡 Renewable Energy, 2024
  5. Free convection simulation of hybrid nanomaterial in permeable cavity with inclusion of magnetic force ⚙️🔬 Journal of Molecular Liquids, 2021
  6. Influences of imposed magnetic force on treatment of hybrid nanofluid involving non-Darcy porous model 🔬🌡 International Communications in Heat and Mass Transfer, 2021
  7. Melting process of nanoparticle enhanced PCM through storage cylinder incorporating fins ❄️🔋 Powder Technology, 2021
  8. Performance of ventilation system involving thermal storage unit considering porous media 🌬️💨 Journal of Energy Storage, 2020
  9. Finned unit solidification with use of nanoparticles improved PCM 💡🔬 Journal of Molecular Liquids, 2020
  10. Numerical study for nanofluid behavior inside a storage finned enclosure involving melting process 🔧❄️ Journal of Molecular Liquids, 2020
  11. Moist curing increases the solar reflectance of concrete 🌞🏗️ Construction and Building Materials, 2019
  12. The amplitude and maximum of daily pavement surface temperature increase linearly with solar absorption 🌞🌍 Road Materials and Pavement Design, 2017

Conclusion

Dr. Fanghua Li is highly deserving of the Best Researcher Award. His robust academic background, leadership in managing complex research projects, and his pioneering contributions to urban cooling technologies and sustainable infrastructure design make him a strong candidate for this recognition. His ability to contribute to both theoretical and applied aspects of engineering, combined with a growing citation profile, shows his continued influence in the field. Moving forward, expanding his research to include interdisciplinary methodologies and emerging technologies would only further solidify his place as a leader in the global engineering research community.

Overall, Dr. Li exemplifies the qualities of an outstanding researcher—innovation, impact, and leadership—and would be an excellent choice for the Best Researcher Award.

Dimitris Aivaliotis | Nanotechnology for Energy Applications | Best Innovation Award

Published on by Civil Engineering

Mr Dimitris Aivaliotis | Nanotechnology for Energy Applications | Best Innovation Award

Graduate, Hellenic Mediterranean University – HMU, Greece

Dimitris Aivaliotis is a dedicated electrical engineer from Greece, currently pursuing an MSc in Nanotechnology for Energy Applications at the Hellenic Mediterranean University. With a strong foundation in Electrical and Computer Engineering, he has engaged in practical training in electronics laboratories, enriching his technical skills and hands-on experience. Passionate about advancing energy technologies, Dimitrios actively contributes to research and development in nanotechnology. He is committed to leveraging innovative solutions for energy applications and has collaborated with esteemed researchers in his field.

Profile

ORCID

Strengths for the Award

Dimitris Aivaliotis demonstrates a robust foundation in Electrical and Computer Engineering, supported by his practical training and ongoing Master’s studies in Nanotechnology for Energy Applications. His publication, “Metal-Ion Intercalation Mechanisms in Vanadium Pentoxide and Its New Perspectives,” reflects a significant contribution to understanding energy materials, showcasing his ability to engage in impactful research. Collaborating with established researchers indicates his capability to work within a team, enhancing the quality of his work. His commitment to sustainability and innovation positions him as a forward-thinking researcher in the energy sector.

Areas for Improvement

While Dimitris has made noteworthy contributions, expanding his research portfolio could further strengthen his candidacy. Engaging in more diverse projects or interdisciplinary collaborations would enhance his experience and visibility in the field. Additionally, seeking opportunities for public speaking or presenting at conferences could improve his communication skills and networking capabilities, which are essential for a successful research career.

Education 

Dimitrios Aivaliotis began his academic journey at the Hellenic Mediterranean University in October 2010, where he earned a degree in Electrical Engineering T.E. in January 2022. His education laid a solid foundation in Electrical and Computer Engineering, equipping him with essential skills and knowledge. In March 2022, he embarked on a Master’s program focused on Nanotechnology for Energy Applications, where he is currently deepening his expertise. His coursework emphasizes the intersection of nanotechnology and energy systems, preparing him to tackle contemporary challenges in sustainable energy solutions.

Experience 

Dimitrios Aivaliotis has gained valuable practical experience through his training at the Hellenic Mediterranean University, where he worked in an electronics laboratory from June to November 2020. This role allowed him to apply theoretical knowledge in a real-world setting, enhancing his understanding of electronic systems and instrumentation. His involvement in research projects, particularly in the field of nanotechnology, showcases his ability to collaborate with peers and contribute to cutting-edge scientific inquiries. Dimitrios’s hands-on experience and academic background uniquely position him to pursue innovative solutions in energy applications.

Awards and Honors 

While specific awards and honors are not listed, Dimitrios Aivaliotis’s academic achievements and contributions to research signify his commitment to excellence in his field. His ongoing studies in Nanotechnology for Energy Applications reflect his ambition and dedication to advancing energy technologies. Engaging in collaborative research and publishing a journal article demonstrates his capability and recognition within the academic community. As he continues his educational journey, Dimitrios aims to contribute significantly to the field, potentially earning accolades and recognition for his innovative work in sustainable energy solutions.

Research Focus

Dimitrios Aivaliotis’s research focus lies at the intersection of nanotechnology and energy applications. He is particularly interested in the mechanisms of metal-ion intercalation, as explored in his published work, “Metal-Ion Intercalation Mechanisms in Vanadium Pentoxide and Its New Perspectives.” His studies aim to advance the understanding of materials that can enhance energy storage and conversion technologies. By investigating the properties and applications of nanomaterials, Dimitrios seeks to contribute to the development of more efficient energy systems. His passion for sustainability drives his research, with the ultimate goal of addressing global energy challenges through innovative nanotechnology solutions.

Publication Top Notes

📄 Metal-Ion Intercalation Mechanisms in Vanadium Pentoxide and Its New Perspectives

Conclusion

Dimitrios Aivaliotis is a promising candidate for the Best Researcher Award. His solid academic background, practical experience, and significant contributions to energy research underscore his potential. By addressing areas for improvement, he can elevate his research profile and make even greater strides in the field of nanotechnology and sustainable energy solutions.

Priscila Guaygua-Amaguaña | Environmental Engineering | Best Researcher Award

Published on by Civil Engineering

Ms. Priscila Guaygua-Amaguaña | Environmental Engineering | Best Researcher Award

PhD student | Université de Toulouse | France

🧬 Short Bio

Priscila Guaygua is an accomplished chemist and researcher from Ecuador, currently pursuing her PhD in environmental impact assessment of bio-based materials and eco-design at Toulouse INP in France. With a rich background in chemical engineering and green chemistry, she has worked on various innovative projects, focusing on sustainable processes, environmental impact analysis, and life cycle assessment. Her research interests lie in the valorization of agricultural by-products and eco-friendly materials.

👤 Profile

Orcid

🎓 Education

Priscila’s academic journey is marked by her commitment to green chemistry and eco-friendly innovation. In 2023, she began her PhD at Toulouse INP, focusing on the comparative evaluation of environmental impacts of bio-based materials. She holds a Master of Science in Green Chemistry and Processes for Biomass from the Institut National Polytechnique de Toulouse (2019-2021), and a Chemical Engineering degree from École Nationale Polytechnique in Ecuador (2014-2019).

💼 Experience

  • 2024: Professeur de Chimie at Ipst-Cnam, Toulouse, France – Instructed students on chemical reactions, material quantification, aqueous solutions, and organic synthesis.
  • 2022: Ingénieure Projet Innovation et Environnemental at Veso Concept, Fontenilles, France – Conducted life cycle assessments, eco-design initiatives, and managed R&D projects with a focus on environmental impacts.
  • 2021: Research Assistant at Laboratoire de Génie Chimique, CNRS, Toulouse – Studied carbon dynamics in olive oil production using C-TOOL software.
  • 2020: Research Assistant at Laboratoire de Chimie Agro-industrielle, INRA, Toulouse – Analyzed life cycle of olive pomace for biocomposite production using SimaPro.
  • 2017: Research Assistant at Département de Métallurgie Extractive (DEMEX), EPN, Quito, Ecuador – Assisted in research on metallurgy.

🔬 Research Interest

Priscila’s research focuses on the life cycle assessment (LCA) of agricultural by-products, specifically olive pomace, and their integration into biocomposites. She is dedicated to developing sustainable materials and eco-friendly processes that reduce environmental impacts through innovative approaches in green chemistry and biomass valorization.

🏆 Awards

Priscila has been nominated for several awards in the field of environmental chemistry and eco-design due to her impactful contributions to green chemistry projects, but specific award details are not provided.

📚 Publications

  1. Espadas-Aldana, G., Guaygua-Amaguaña, P., Vialle, C., Belaud, J-P., Evon, P., Sablayrolles, C. (2021). Life Cycle Assessment of Olive Pomace as a Reinforcement in Polypropylene and Polyethylene Biocomposite Materials: A New Perspective for the Valorization of This Agricultural By-Product. Coatings, 11(5), 525. Link.
    Cited by 10 articles.
    Prompt: Life Cycle Assessment of Olive Pomace Biocomposites published in Coatings, 2021.

📝 Conclusion

Priscila Guaygua is a passionate advocate for green chemistry and sustainable material development. Through her research and professional endeavors, she continues to push the boundaries of eco-friendly innovations, contributing significantly to the advancement of environmentally conscious scientific practices.

Geoffrey Ssebabi Mutumba – Energy Economics – Excellence in Research

Published on by Civil Engineering

Geoffrey Ssebabi Mutumba - Energy Economics - Excellence in Research

Kyambogo University - Uganda

AUTHOR PROFILE

ORCID

🎓 EDUCATIONAL BACKGROUND

Geoffrey Ssebabi Mutumba holds a Ph.D. in Energy Economics and Governance from Makerere University, completed in 2024. His academic journey began with a Bachelor of Arts in Education, specializing in Economics and Geography, followed by a Master of Arts in Economic Policy and Planning, both from Makerere University. Geoffrey's strong foundation in economics has equipped him to contribute significantly to the field of energy economics and policy.

🏫 PROFESSIONAL EXPERIENCE

Geoffrey has been a Senior Lecturer in the Department of Economics at Kyambogo University since 2011. His expertise in economics has also led him to serve as a Visiting Lecturer at the United Nations University for Peace in 2024. Over the years, Geoffrey has become a respected academic, recognized for his contributions to teaching and research in energy economics.

📚 RESEARCH AND PUBLICATIONS

Geoffrey’s research focuses on energy consumption, economic growth, and renewable energy in Uganda. He has published numerous papers in reputable journals, including the "Journal of Energy Research and Reviews" and "SN Business & Economics." His work provides critical insights into the prospects and challenges of energy development in Uganda, particularly in the context of sustainable development.

🎤 CONFERENCE PARTICIPATION

Geoffrey has actively participated in various international conferences, sharing his research findings on energy economics. Notable among these was his presentation on electricity consumption and economic growth in Uganda at the Moi University International Conference in Nairobi, Kenya, in 2020. His involvement in such events highlights his commitment to advancing knowledge in his field.

📘 TEACHING AND CURRICULUM DEVELOPMENT

At Kyambogo University, Geoffrey teaches courses such as Microeconomics, Policy Analysis, and Public Sector Economics at the graduate level. Beyond teaching, he has played a pivotal role in curriculum development, serving as a panelist for the National Curriculum Development Centre (NCDC) and contributing to the integration of tax education into Uganda's secondary school curriculum.

🤝 COMMUNITY ENGAGEMENT

Geoffrey is deeply involved in community work, particularly in education and curriculum development. He has served as a consultant for the Uganda Revenue Authority (URA) and contributed to various educational initiatives at the Ministry of Education and Sports. His dedication to improving education in Uganda is evident through his ongoing efforts in curriculum reform and teacher education programs.

📈 LEADERSHIP AND SERVICE

Geoffrey has demonstrated strong leadership within Kyambogo University, where he served as the Faculty and Departmental Examination Coordinator from 2016 to 2023. He also held the position of Secretary Finance for the Kyambogo University Academic Staff Association from 2015 to 2020, where he contributed to the financial management and welfare of academic staff.

NOTABLE PUBLICATION

Title: Electricity Consumption and Economic Growth: Evidence from the East African Community
Journal: Energy Strategy Reviews
Year: 2024
DOI: 10.1016/j.esr.2024.101431

Title: Renewable and Non-Renewable Energy Consumption and Economic Growth in Uganda
Journal: SN Business & Economics
Year: 2022
DOI: 10.1007/s43546-022-00220-7

Title: The Effects of Gross Domestic Product and Energy Consumption on Carbon Dioxide Emission in Uganda (1986-2018)
Journal: International Journal of Energy Economics and Policy
Year: 2022
DOI: 10.32479/ijeep.12552

Title: Readiness of Nuclear Energy Development in Uganda
Journal: Journal of Energy Research and Reviews
Year: 2022
DOI: 10.9734/jenrr/2022/v10i130244

Khalil Rami – Sustainable Development – Best Researcher Award

Published on by Civil Engineering

Khalil Rami - Sustainable Development - Best Researcher Award

Breda University of Applied Sciences - Netherlands

AUTHOR PROFILE

SCOPUS

EDUCATION & PROFESSIONAL QUALIFICATIONS 🎓

Dr. Khalil Rami is a distinguished Associate Professor in Tourism with a PhD in Tourism. Since 2012, he has been a prominent academic at Bethlehem University, Palestine, where he has contributed significantly to the field of tourism through both teaching and research. His key qualifications include senior lecturing roles in various aspects of tourism such as Planning & Development, European Tourism Policies, Politics and (In)stable Regions, and Socio-cultural and Environmental Impact Studies.

MEMBERSHIP OF PROFESSIONAL BODIES 🌐

Dr. Rami is an esteemed member of numerous professional organizations. He is associated with the ATLAS Association for Tourism and Leisure Education and the ISA International Sociologist Association, where he has served as President of Research Committee 50 and Vice President for the 2018-2025 term. His editorial contributions include roles with the Journal of Tourism Planning & Development, Current Issues in Tourism, Tourism Analysis, the Journal of Politics and Law, and the International Journal of Tourism Cities, among others.

FIELD RESEARCH SUPERVISION 🌍

Throughout his career, Dr. Rami has supervised extensive field research projects across diverse global destinations. His supervision includes student fieldwork in locations such as Ko Samui, Phuket, Bali, Singapore, Siem Reap, and various sites in Vietnam, analyzing tourism development, supply and demand, cross-cultural studies, and market dynamics.

CONSULTING EXPERIENCE 🌟

Dr. Rami has provided expert consulting services in tourism development, notably contributing to the Master Plan for Bethlehem Governorate, Palestine. His consultancy work involves extensive structural planning, including infrastructure and tourism project development, in collaboration with Khatib & Alami Consulting Company and ARUP Consulting Company.

RESEARCH & POLICY CONTRIBUTIONS 📚

In 2018, Dr. Rami participated in significant research for the TRAN Committee on Overtourism, contributing to policy discussions and responses to the impacts of overtourism. His research, published in collaboration with renowned experts, addresses the challenges and potential policy solutions for managing overtourism.

CONFERENCE ACTIVITIES & PRESENTATIONS 🗣️

Dr. Rami has presented papers at numerous international conferences, including on topics such as community-based tourism planning in Palestine and cultural tourism. His contributions to the academic discourse extend to lectures and workshops on the socio-cultural and environmental impacts of tourism.

ADVISORY & BOARD MEMBERSHIP 📋

In addition to his academic roles, Dr. Rami serves on several advisory boards, including the Cambridge Scholars Publishing Advisory Board and the Advisory Board for the London Journal of Tourism, Sport, and Creative Industries. His role in these boards underscores his influence in shaping tourism research and policy.

NOTABLE PUBLICATION

    • Stakeholders' Perspective on Smart Tourism Development: A Case Study of the West Bank, Palestine
      Authors: Isaac, R.K., Dodeen, S.
      Year: 2024
      Journal: Management and Sustainabil
    • To Tip or Not to Tip? Explaining Tipping Behavior in Restaurants with Service-Inclusive Pricing
      Authors: Fernandez, S., Gössling, S., Martin-Rios, C., Isaac, R., Lunde, M.
      Year: 2024
      Journal: International Journal of Hospitality Management
    • Customers’ Perceptions and Responses to Hotels’ Corporate Social Responsibility (CSR) Orientation: The Case of Bethlehem Hotels, Palestine
      Authors: Isaac, R.K., Mzembe, A.N., Andon, R.
      Year: 2024
      Journal: Current Issues in Tourism
    • Pilgrimage Tourism in Palestine: The Backbone of the Palestinian Economy
      Authors: Isaac, R.K.
      Year: 2023
      Book: Perspectives on Asian Tourism
    • Changing Practices of Tourism Stakeholders in Covid-19 Affected Destinations
      Authors: Çakmak, E., Isaac, R.K., Butler, R.
      Year: 2023
      Book: Changing Practices of Tourism Stakeholders in Covid-19 Affected Destinations

ZAFARULLAH NIZAMANI – Renewable energy – Sustainable Infrastructure Innovation Award

Published on by Civil Engineering

ZAFARULLAH NIZAMANI - Renewable energy - Sustainable Infrastructure Innovation Award

Universiti Tunku Abdul Rahman - Malaysia

AUTHOR PROFILE

SCOPUS

HEAD OF DEPARTMENT OF ENVIRONMENTAL ENGINEERING:

ZAFARULLAH NIZAMANI serves as the Head of the Department of Environmental Engineering, overseeing two undergraduate programs: the Bachelor of Civil Engineering (Environmental) and the Bachelor of Science in Occupational Health, Safety, and Environmental Health. In this leadership role, he shapes the department's academic direction and ensures its prominence within the university and the broader community.

ACADEMIC LEADERSHIP AND CURRICULUM DEVELOPMENT:

As chairperson of the Curriculum Development Committee, ZAFARULLAH is responsible for designing and updating curricula to meet academic and industry standards. He ensures that syllabi are reviewed every three years or sooner if necessary, to incorporate the latest developments and maintain relevance.

DEPARTMENT SUPERVISION AND RESEARCH PROMOTION:

ZAFARULLAH manages and leads the department staff, including hiring, mentoring, and evaluating performance. He actively promotes research within the department, encouraging staff to seek internal and external grants, and supports the advancement of research activities among both faculty and students.

STRATEGIC PLANNING AND PROGRAM ENHANCEMENT:

ZAFARULLAH sets strategic goals for the department, aligning them with the university's mission and vision. He identifies opportunities for program growth and improvement based on emerging industry trends and academic advancements, ensuring that the programs evolve to meet future challenges.

COLLABORATION AND NETWORKING:

ZAFARULLAH establishes and maintains strong connections with industry partners and professionals. He coordinates visits from external examiners and ensures all preparations for their assessments are meticulously handled. Additionally, he organizes biannual meetings with the Industry Advisory Panel, using their feedback to enhance program quality and relevance.

ACCREDITATION AND COMPLIANCE:

ZAFARULLAH ensures that the civil engineering program meets the accreditation standards of the Board of Engineers Malaysia and is working towards acquiring accreditation from the Department of Occupational, Safety and Health Malaysia for the Occupational Health & Safety and Environmental Health program. He stays informed about and ensures compliance with regulations from the Malaysian Qualification Agency (MQA).

INTERDEPARTMENTAL COLLABORATION:

ZAFARULLAH fosters interdisciplinary initiatives and research projects by collaborating with other departments within the university. This collaboration helps to integrate diverse perspectives and enhance the overall academic experience and research output of the department.

NOTABLE PUBLICATION

Optimization of mooring line design parameters using Mooring Optimization Tool for FPSO (MooOpT4FPSO) with the consideration of integrated design methodology
Authors: Ja'e, I.A., Ahmed Ali, M.O., Yenduri, A., Nizamani, Z., Nakayama, A.
Year: 2022
Journal: Ocean Engineering

Geospatial analysis of river flood hazard assessment
Authors: Soomro, R.A., Nizamani, Z., Nakayama, A., Tan, K.W.
Year: 2022
Conference: E3S Web of Conference

Determination of structural reliability of a reinforced concrete slab under fire load
Authors: Zafarullah, N., Eltigani, A., Nakayama, A., Bilal, H.S.M.
Year: 2022
Conference: E3S Web of Conferences

Effect of Various Mooring Materials on Hydrodynamic Responses of Turret-Moored FPSO with Emphasis on Intact and Damaged Conditions
Authors: Ja’e, I.A., Ali, M.O.A., Yenduri, A., Nizamani, Z., Nakayama, A.
Year: 2022
Journal: Journal of Marine Science and Engineering

Optimisation of mooring line parameters for offshore floating structures: A review paper
Authors: Ja'e, I.A., Osman Ahmed Ali, M., Yenduri, A., Nizamani, Z., Nakayama, A.
Year: 2022
Journal: Ocean Engineering