Ahmed Sobhy Darwish | Analytical Chemistry | Best Researcher Award

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Dr. Ahmed Sobhy Darwish | Analytical Chemistry | Best Researcher Award

PhD student at Zagazig University, Egypt

Ahmed Sobhy Abdelrahim Abdallah Darwish is an accomplished analytical chemist and Laboratories Development Deputy Manager at Egyptian International Pharmaceutical Industries (EIPICO), also affiliated with Zagazig University. He holds a B.Sc. in Chemistry‑Physics, a diploma (Analytical Chemistry, excellent), pre-master, and a Master’s degree, all from Zagazig University. Currently pursuing a Ph.D. He began his career in QC laboratories at Delta Pharma, then progressed through section head roles at Grand Pharma, Averroes, Al‑Debeiky, and Copad Pharma. He leads a team of ten at EIPICO, overseeing method development, stress stability studies, and comparative in vitro investigations. He actively contributes to regulatory harmonization by engaging with USP, BP, SFDA, and other pharmacopoeias. A Best Researcher Award recipient, he has submitted case studies to BP and participated in USP pilot programs. He also serves as a peer reviewer for international journals.

Professional Profile

Google Scholar | ORCID

Education

Ahmed Sobhy Darwish’s academic background showcases a steady commitment to excellence in analytical chemistry. He began his studies with a Bachelor’s degree in Chemistry‑Physics from Zagazig University, graduating with high distinction. He further pursued a diploma in Analytical Chemistry with top honors, followed by a pre‑master qualification marked by outstanding academic achievement. His educational journey culminated in a Master’s degree in Analytical Chemistry, and he is currently engaged in doctoral studies in the same field. His English proficiency is evidenced by a TOEFL score that surpasses common requirements for doctoral programs. This well-structured academic progression illustrates his deepening expertise, strong theoretical foundation, and dedication to advanced analytical techniques.

Professional Experience

Ahmed Sobhy Darwish has built an extensive career in pharmaceutical quality control and analytical method development. He began with a foundational role as a quality control chemist, where he developed essential technical skills. He progressed through leadership roles in various pharmaceutical companies, overseeing stability studies and analytical methodology. His responsibilities included managing laboratory operations, validating stability-indicating methods, and leading teams in analytical research. Currently, he holds a senior position where he directs lab development initiatives, supervises a professional team, and leads innovative projects such as stress stability testing and in vitro comparative studies. He also liaises with pharmacopoeial bodies, reflecting his authority in aligning practices with regulatory standards. His career demonstrates a trajectory of growing leadership, technical depth, and strategic contribution to pharmaceutical innovation.

Research Focus

Dr. Darwish’s research centers on developing eco-friendly, stability-indicating HPLC and liquid chromatography methods for pharmaceutical analysis. His work prioritizes environmental sustainability while ensuring robustness and regulatory compliance. Key areas include quantifying drugs such as piracetam, vincamine, levomenol, netilmicin, colchicine, khellin, valsartan, sacubitril, simvastatin, and fenofibrate in bulk and finished dosage forms. He emphasizes certified reference materials, green solvent systems, and minimal waste generation. By submitting two eco-analytical case studies to the British Pharmacopoeia sustainability guidance, he directly impacts regulatory practice. Participation in the USP Quality Assist Beta Pilot Program and BP Beta Site studies further reinforces his focus on method validation in real-world settings. His research bridges analytical precision with environmental responsibility, positioning him at the forefront of sustainable pharmaceutical quality control.

Publication Top Notes

“A Simple Eco‑Friendly Stability‑Indicating HPLC Method for Determination of NETILMICIN in Bulk and Ophthalmic Solution”, Biomedical Chromatography (August 2025), DOI: 10.1002/bmc.70152.
A validated HPLC approach using green solvents to quantify netilmicin in bulk and ophthalmic solutions, offering reduced environmental impact while maintaining assay accuracy.

“Environmental sustainability profiles assessment of HPLC stability indicating method for quantitation of piracetam and vincamine in pharmaceutical medications”, Talanta Open (August 2025), DOI: 10.1016/j.talo.2025.100407.
Evaluates environmental metrics (e.g., solvent consumption, waste) for HPLC methods analyzing piracetam and vincamine, demonstrating greener alternatives without sacrificing sensitivity.

“Developing a sensitive, ecological, and economic HPLC method for the concurrent quantification of KOLCHICINE and KHELLIN”, Microchemical Journal (July 30, 2025), DOI: 10.1016/j.microc.2025.114716.
Introduces a dual-analyte HPLC method for colchicine and khellin in bulk and sachets, optimized for sensitivity and cost-effectiveness using eco-friendly solvents.

“Simple validated approach to quantify valsartan and sacubitril in medications using liquid chromatography”, Bulletin of Faculty of Science, Zagazig University (July 1, 2025).
Presents a streamlined LC protocol for simultaneous determination of valsartan and sacubitril, validated for pharmaceutical formulations with robust linearity and accuracy.

“DEVELOPMENT AND VALIDATION OF STABILITY INDICATING RP‑HPLC METHOD FOR SIMULTANEOUS DETERMINATION OF SIMVASTATIN AND FENOFIBRATE IN BULK AND DOSAGE FORM”, Bulletin of Faculty of Science, Zagazig University (July 1, 2025).
Reports a reversed‑phase HPLC technique validated for concurrent analysis of simvastatin and fenofibrate, incorporating stress degradation studies to ensure specificity.

“An ecologically sound HPLC determination of LEVOMENOL in topical therapies using a certified reference material with green properties”, Results in Chemistry (May 8, 2025).
Describes a certified‑reference based HPLC method for levomenol quantification in topical products, optimizing green solvent usage while achieving regulatory-grade precision.

Conclusion

Dr. Darwish’s deep integration of sustainability, innovation, and leadership in pharmaceutical analytics makes him an exceptional nominee for the Best Researcher Award. His profile aligns well with the award’s objectives of recognizing impactful, regulatory-aligned, and environmentally responsible scientific contributions.

Mahamat Abdallah | Sustainability | Young Researcher Award

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Mr. Mahamat Abdallah | Sustainability | Young Researcher Award

Civil Engineer, Beijing Jiaotong University, China

Mahamat Nour Issa Abdallah is an emerging civil engineer and researcher specializing in sustainable infrastructure in arid regions. He earned his BSc in Civil Engineering from Shenyang Jianzhu University, China, and is currently pursuing a Master’s degree at Beijing Jiaotong University. His professional journey includes roles as a Site Engineer and Engineering Department Supervisor in China and the UAE, where he managed diverse projects focusing on quality control, design coordination, and regulatory compliance. Fluent in English, Arabic, and Mandarin, Mahamat’s multicultural proficiency enhances his collaborative capabilities. His research, particularly on wind erosion and sand deposition in desert railways, reflects a commitment to addressing environmental challenges through geospatial analysis and innovative engineering solutions. Mahamat’s blend of academic rigor and practical experience positions him as a promising contributor to sustainable civil engineering practices.

Profile

Orcid

🎓 Education 

  • Bachelor of Science in Civil Engineering
    Shenyang Jianzhu University, China (2016–2020)
    Focused on structural analysis, construction materials, and project management, laying a strong foundation in civil engineering principles.

  • Master of Science in Civil Engineering
    Beijing Jiaotong University, China (2021–Present)
    Specializing in geospatial analysis and sustainable infrastructure, Mahamat’s research addresses mitigation strategies for wind erosion and sand deposition in desert railway systems. His interdisciplinary approach combines environmental science with civil engineering to develop resilient infrastructure solutions.

🏗️ Experience 

  • Intern, Shenyang ZhongHeng Construction Engineering L.L.C, China (2019–2020)
    Conducted daily site inspections, quality control, and manpower reporting. Assisted in reviewing and modifying fit-out drawings, coordinating with site supervisors and technicians.

  • Site Engineer, DHCN Construction L.L.C, Dubai, UAE (2021–2022)
    Oversaw daily site operations, ensured quality standards, coordinated with foremen, and managed progress reporting. Handled inspection approvals and rectification of non-conformance reports.

  • Engineering Department Supervisor, Origin International Management L.L.C & AL Qimma Engineering Consultancy L.L.C, Abu Dhabi, UAE (2022–Present)
    Managed coordination between consultants and contractors for shop drawing approvals, designed architectural and electrical drawings, and arranged fit-out quotations. Handled site inspections, obtained necessary NOCs, and ensured compliance with fire safety systems. Reported weekly progress and handed over completed projects to clients.

🔬 Research

Mahamat’s research centers on sustainable infrastructure development in arid regions, with a particular emphasis on mitigating wind erosion and sand deposition affecting desert railways. Utilizing geospatial analysis and computational modeling, his work aims to develop effective strategies for maintaining the integrity and safety of railway systems subjected to harsh desert conditions. His interdisciplinary approach integrates environmental science, civil engineering, and data analytics to address the challenges posed by sand accumulation on railway tracks. By focusing on the optimization of sand mitigation measures, Mahamat contributes to the advancement of resilient infrastructure solutions that are crucial for the sustainability of transportation networks in desert environments.MDPI

📚 Publication Top Notes

1. Mitigation Measures for Wind Erosion and Sand Deposition in Desert Railways: A Geospatial Analysis of Sand Accumulation Risk

  • Journal: Sustainability

  • Publication Date: April 29, 2025

  • DOI: 10.3390/su17094016

  • Contributors: Mahamat Nour Issa Abdallah, Tan Qulin, Mohamed Ramadan, Providence Habumuremyi

Summary:
This study presents a geospatial analysis of sand accumulation risks affecting desert railways. By integrating environmental data and computational modeling, the research identifies critical areas prone to wind erosion and sand deposition. The findings offer valuable insights into the development of targeted mitigation strategies to enhance the resilience and safety of railway infrastructure in arid regions.

Conclusion

Mahamat Nour Issa Abdallah is a promising early-career civil engineer with a strong combination of practical experience, multilingual ability, and emerging research in sustainable infrastructure. His work is especially relevant to Middle Eastern and desert environments, making him a good candidate for a Young Researcher Award, particularly if the award emphasizes applied civil engineering, resilience against climate challenges, or geospatial environmental research.

Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

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Dr. Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

Assistant Professor, Central Institute of Petrochemicals Engineering and Technology, India

Dr. Manish Choudhary is an Assistant Professor in Chemical Engineering at CIPET: IPT Lucknow, with a Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University. He also holds an M.Tech. from IIT Roorkee. Dr. Choudhary’s career is marked by a strong passion for teaching, research, and academic administration. He has published seven papers in SCI & Scopus indexed journals, focusing on topics such as polymer composites, recycling, and biomass thermodynamics. He has delivered invited talks at international conferences and mentors students for higher education and industry collaboration. Dr. Choudhary’s contributions to improving educational programs, such as hybrid classrooms and industry-academic ties, showcase his dedication to fostering student growth and innovation. His recognition spans across various academic and professional milestones, making him a noteworthy figure in the field of chemical engineering and environmental sustainability.

Profile

Education

Dr. Manish Choudhary completed his Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University (2019-2023). He earned his M.Tech. in Chemical Engineering from IIT Roorkee (2010-2012), a prestigious institute known for its excellence in engineering education and research. Prior to that, he obtained his B.Tech. in Chemical Engineering from UPTU (2005-2009). Dr. Choudhary’s academic journey reflects a solid foundation in chemical engineering principles, focusing on sustainable growth and innovative solutions in various sectors, including polymer composites and waste management. His advanced studies have equipped him with the expertise to conduct high-impact research, contribute to educational reforms, and engage in global academic discussions. His education from these esteemed institutions has been instrumental in shaping his career as a researcher and educator dedicated to both academic and professional excellence.

Experience

Dr. Manish Choudhary has accumulated extensive teaching and administrative experience at CIPET: IPT Lucknow. As an Assistant Professor since 2017, he has been instrumental in teaching both undergraduate and postgraduate students, with a focus on Chemical Engineering topics such as Thermodynamics, Heat and Mass Transfer, and Polymer Composites. Dr. Choudhary has played a pivotal role in academic and accreditation work, including NBA, NAAC, and NIRF-related activities. He is also a coordinator for ATAL FDPs and has introduced hybrid classroom learning to adapt to modern educational trends. Furthermore, Dr. Choudhary has been a mentor for student startups like SNOWFLAKE, facilitating innovation and industry collaboration. Previously, he served as a Lecturer (2012-2017), where he contributed to student development, extracurricular activities, and accreditation processes. His leadership has enhanced the overall quality of education and student engagement at CIPET, making him a valuable asset to the institution.

Research Focus

Dr. Manish Choudhary’s research primarily revolves around sustainable technologies, focusing on thermodynamics, biomass recycling, and polymer composites. His work in thermal degradation and kinetics of various biomass materials, such as rice husk and sun hemp, aims to improve waste management processes and environmental sustainability. He has conducted in-depth studies on the modification and characterization of agricultural waste for its use in polymer composites, with a strong emphasis on mechanical, thermal, and morphological properties. Dr. Choudhary also explores eco-friendly solutions for industrial safety and hazard management, contributing to safer manufacturing processes. His publications in SCI & Scopus indexed journals underline his contribution to advancing knowledge in chemical engineering and sustainable development. He is committed to applying his research to practical solutions for waste valorization, recycling, and the development of renewable materials. His future research trajectory is focused on improving sustainability practices and enhancing the circular economy in various industries.

Publication Top Notes

  1. Thermal kinetics and morphological investigation of alkaline treated rice husk biomass 🌾🔥
    Journal of the Indian Chemical Society, 2022

  2. Determination of thermal degradation behavior and kinetics parameters of chemically modified sun hemp biomass 🌿⚗️
    Bioresource Technology, 2023

  3. Impact of various surface modifications on agro waste rice husk and its reinforced polymer composites ♻️🔬
    Materials Today: Proceedings, 2021

  4. Study on mechanical, thermal and morphological properties of RHA filled PVC composite 🏗️🔍
    International Journal of Scientific Engineering and Applied Science, 2015

  5. Thermal and mechanical investigation of chemically treated hybrid biomass epoxy bio-composite: an approach of pyrolysis kinetics 🔬🔥
    Bioresource Technology Reports, 2023

  6. Kinetics modeling & comparative examine on thermal degradation of alkali treated Crotalaria juncea fiber using model fitting method 🔥🧬
    Journal of the Indian Chemical Society, 2023

  7. Sustainable valorization of rice husk: thermal behavior and kinetics after chemical treatments ♻️🌾
    Biomass Conversion and Biorefinery, 2023

  8. Phyto-Pharmacognostical and Hypocholesterolemic Activity of Morus alba L. 🌱🧪
    European Chemical Bulletin, 2023

 

 

 

 

ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

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Dr. ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

PhD, Faculty of Sciences and Techniques of Tangier (FSTT), Morocco

Ilyace Korodowou is a Togolese PhD candidate in Materials Science and Engineering at the Faculty of Sciences and Techniques of Tangier, Morocco. With a background in Mathematics and Natural Sciences, Ilyace graduated with honors from Eyadema Military College in 2016. After completing studies in Biology, Chemistry, and Geology, he pursued a Bachelor’s and Master’s degree in Materials Science, focusing on materials recycling, biopolymer characterization, and sustainable technologies. His research interests include nonwoven processes, plastics, and environmental applications. Ilyace has gained valuable experience in academic research, as well as professional roles in scientific projects and laboratory environments. Outside of his studies, he enjoys reading, football, jogging, and watching crime series. His interdisciplinary approach and passion for impactful research make him a promising figure in the field of materials science.

Profile

Education

Ilyace Korodowou has pursued a diverse and rigorous educational journey in the field of Materials Science and Engineering. His academic path began at Eyadema Military College in Togo, where he completed his high school education in Mathematics and Natural Sciences in 2016. Afterward, he pursued studies in Biology, Chemistry, and Geology (DEUST), followed by a Bachelor’s degree in Chemical Analysis Techniques at Abdelmalek Essaâdi University in Tangier, Morocco. He furthered his education by obtaining a Master’s degree in Materials Engineering for Plastics and Metallurgy (GMPM), deepening his expertise in physics, chemistry, and mechanical engineering. Currently, he is a PhD candidate specializing in Materials Sciences and Engineering, focusing on the recycling, valorization, and characterization of biopolymers, as well as sustainable nonwoven processes. His research is grounded in scientific curiosity, innovation, and a commitment to environmental sustainability.

Experience

Ilyace Korodowou has developed extensive experience in materials science and research, gaining hands-on exposure in various labs and research projects. He is currently a PhD candidate at Abdelmalek Essaâdi University, where his research focuses on sustainable materials, particularly nonwoven technologies, plastics recycling, and biopolymer characterization. Ilyace also worked as a research assistant at the Technical Center of Plastics and Rubber in Casablanca, Morocco, from 2021 to 2023, gaining practical insights into plastic and rubber material processing. He has participated in a number of internships, including work at the Physico-Chemistry Laboratory of Natural Materials and the LAMSE Laboratory. His past roles also include laboratory assistance, where he supervised practical sessions for undergraduates and provided guidance on research methodologies. Additionally, Ilyace has contributed to several scientific conferences and is actively involved in mentoring students for their final-year projects, showcasing his commitment to advancing knowledge and fostering new talent in materials science.

Awards and Honors

Ilyace Korodowou has earned various academic and professional accolades in his field. Notably, he received the first prize at the third edition of the CESTOM-INNOVE project competition in 2022, awarded for his innovative ecoVALFI project, focusing on sustainable materials. His academic journey has been marked by several prestigious certifications, including a badge of achievement in “Optimization of Processes and Advanced Processes of Thermoplastics and Composites” from Institut Mines-Télécom in Paris (2024), and a series of research-focused certificates from Clarivate, University of Liège, and Paris-Saclay University. Ilyace has also excelled in numerous online learning platforms, including earning badges in Biomass and Green Chemistry, Nanoscience, and Advanced Chemistry. His ongoing academic success underscores his commitment to advancing in materials science and engineering, particularly in sustainable development and environmental preservation.

Research Focus

Ilyace Korodowou’s research focuses on the sustainable recycling and valorization of materials, particularly in the fields of biopolymers, nonwoven technologies, and plastic materials processing. His work explores environmentally friendly alternatives to traditional materials, such as the use of sisal fibers and recycled materials in industrial applications. Ilyace is dedicated to characterizing and functionalizing biopolymers, with a focus on improving their properties for various applications in sustainability. He is also exploring innovative nonwoven processes, specifically in the context of filtration membranes and absorbent materials, that can help reduce the environmental impact of plastic waste. Additionally, his research includes the design and optimization of materials for specific applications, including the development of composite materials and the study of life cycle assessments (LCA) for environmental impact evaluation. Ilyace’s interdisciplinary approach combines materials science, engineering, and environmental science to create a more sustainable future through innovative material design and processing.

Publication Top Notes

  • Evaluating sisal fibers as an eco-friendly and cost-efficient alternative to cotton for the Moroccan absorbent hygiene and textile industries 🌱 (Industrial Crops and Products, 2024)
  • Industrial ecology in Morocco: wet laying composite air filter membrane based on cottonized sisal fibers and recycled nonwoven supermarket bag 🌿 (Biomass Conversion and Biorefinery, 2024)
  • Stabilization of Argan Oil Nanoemulsions Using Chitosan Extracted from Pink Shrimp Shells 🐚 (Applied Science, 2025)
  • Cottonized sisal fibers: a more economic and sustainable alternative to natural cotton, – for absorbent textile and hygienic products, in Morocco 🌱 (2024)
  • Industrial Ecology in Morocco: Wet Laying Composite Filter Membrane Based on Cottonized Sisal Fibers and Recycled Non-Woven Supermarket Bag 🧵 (2023)
  • Composite membrane based on cellulose fibers and recycled polypropylene: a more economic and sustainable alternative for the filtration of particles in the air 🌍 (8th International Symposium on Sediment Management, 2024)

 

 

Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation Management | Best Researcher Award

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Dr. Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation Management | Best Researcher Award

Researcher/Private Consultant, Mediterranean Agronomic institute of Bari, Italy

Ahmed Ali Ayoub Abdelmoneim is an Egyptian researcher, consultant, and educator focusing on agricultural water management and climate change. With a Ph.D. in Irrigation Modernization from the Mediterranean Agronomic Institute of Bari, Ahmed has a strong background in innovative irrigation systems, automation, and IoT applications. His work has spanned various global projects, including technical assistance, youth networking, and training courses. As a member of the MedYWat network, Ahmed has advocated for youth involvement in water issues. His research on improving furrow irrigation, developing smart gated pipe systems, and enhancing irrigation efficiency aligns with global needs for sustainable water use. Through his work, Ahmed strives to bridge the gap between technology and traditional irrigation practices for the betterment of agriculture and water conservation.

Profile

Education

Ahmed Ali Ayoub Abdelmoneim holds a Ph.D. in Irrigation Modernization from the Mediterranean Agronomic Institute of Bari, where he focused on improving furrow irrigation systems. He also earned a Master’s degree in Land and Water Resources Management from the Mediterranean Agronomic Institute of Bari (CIHEAM), specializing in irrigated agriculture, water management, and environmental sustainability. Additionally, Ahmed pursued research studies at the University of California Davis, focusing on agricultural water distribution systems and hydraulic analysis using innovative technology like drones and IoT devices. He holds a diploma in Laser Applications in Meteorology and Agriculture from Cairo University and a Bachelor’s degree in Agricultural Engineering from Cairo University. Ahmed’s academic foundation emphasizes advanced water management, irrigation systems, and sustainable agricultural practices.

Experience

Ahmed Ali Ayoub Abdelmoneim has gained significant professional experience as a researcher and consultant in agricultural water management. Currently working at the Mediterranean Agronomic Institute of Bari, Ahmed provides technical assistance, project coordination, and consultancy in regional water management projects. He is also involved in teaching courses on solar energy for irrigation and on-farm irrigation systems. Previously, Ahmed worked as a Ph.D. researcher focusing on furrow irrigation and smart irrigation systems. In 2017, he served as a Technical Officer in the Low-Emission Capacity Building Project for UNDP, working on climate change mitigation strategies and managing training activities. Earlier in his career, Ahmed worked in metal analysis, quality assurance, and project management in irrigation design for Green Hills International and EMAAR’s Uptown Cairo project. His extensive experience spans project coordination, education, IoT in agriculture, and climate change adaptation.

Awards and Honors

Ahmed Ali Ayoub Abdelmoneim has received numerous honors recognizing his outstanding academic and professional achievements. He was ranked first in the CIHEAM M.Sc. program (2014-2015) for his excellent academic performance. Ahmed was also ranked second in the Agriculture Engineering department at Cairo University in 2010. These accolades highlight his commitment to excellence in both his studies and research. His professional journey has been equally distinguished, as he has contributed significantly to advancing agricultural water management practices, with a focus on addressing climate change and water scarcity. In addition, Ahmed has been recognized as a valuable member of the MedYWat network, where he plays a key role in advocating for youth involvement in water issues and facilitating international collaborations. His participation in international workshops and conferences, such as those organized by the Centre for Mediterranean Integration, further demonstrates his leadership in the field of sustainable water management.

Research Focus

Ahmed Ali Ayoub Abdelmoneim’s research focuses on sustainable water management, irrigation modernization, and the application of IoT and automation in agriculture. His doctoral work at the Mediterranean Agronomic Institute of Bari centered on enhancing furrow irrigation systems through automation and smart technologies, including self-compensating gated pipes. By integrating innovative technologies like drones, sensors, and IoT devices, Ahmed aims to improve irrigation efficiency, water distribution uniformity, and reduce environmental impacts. His research extends to the comparative assessment of irrigation management practices and the development of low-cost precision irrigation solutions for arid regions. Ahmed’s work on climate change adaptation, water scarcity, and food security underpins his broader commitment to addressing global water challenges. His studies on the water footprint of crops and performance evaluation of smart irrigation systems contribute to ongoing efforts to create more sustainable agricultural systems worldwide.

Publications (with emojis):

  1. Forecasting Blue and Green Water Footprint of Wheat 🌾📊
  2. Advancements in Remote Sensing for Evapotranspiration Estimation 🌍🌱
  3. Towards Affordable Precision Irrigation: Experimental Comparison 💧🌿
  4. OptGate: Tool for Gated Pipe System Performance 🚰🔧
  5. IoT for Soil Moisture Tensiometer Automation 📡🌾
  6. IoT for Double Ring Infiltrometer Automation 🤖💧

 

 

Samaneh Abdi Qezeljeh | Energy and Sustainability | Best Researcher Award

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Ms. Samaneh Abdi Qezeljeh | Energy and Sustainability | Best Researcher Award

PhD Researcher, Technische Universität Darmstadt, FG SLA, Germany

Samaneh Abdi Qezeljeh is a passionate researcher in the field of mechanical engineering, currently pursuing her Ph.D. at the Technical University of Darmstadt. With a solid academic background and a CGPA of 17.51/20 in her Master’s studies, she has made notable contributions to fluid mechanics, heat transfer, and energy conservation. Samaneh’s research interests encompass fluid-structure interaction (FSI), computational fluid dynamics (CFD), turbulence, bio-mechanics, and numerical simulations. Throughout her academic career, she has earned recognition for her excellent performance, ranking 5th in her Master’s cohort and 3rd in her Bachelor’s program. Her work has been published in high-impact journals such as Energies and the International Journal of Multiphase Flow. Samaneh is also highly skilled in various engineering software, including Comsol Multiphysics, Ansys-Fluent, and SolidWorks. Alongside her research, she has tutored undergraduate and graduate students at the University of Tabriz.

Profile

Education

Samaneh Abdi Qezeljeh obtained her Bachelor’s degree in Mechanical Engineering from Seraj Higher Education Institute, Tabriz, Iran, where she ranked 3rd in her class. She excelled academically with a CGPA of 17.63/20 (excluding thesis) and earned a thesis grade of 19.75/20. Her thesis focused on Incompressible Flow Simulation in a Backward-Facing Step with an Elastic Wall, highlighting her expertise in computational fluid dynamics (CFD). Samaneh continued her academic journey by pursuing a Master of Science (M.Sc.) in Mechanical Engineering with a focus on Energy Conservation at the University of Tabriz, where she achieved a CGPA of 17.51/20. Her Master’s thesis, titled “Investigation of Different Fluids on the Performance of Organic Rankine Cycle with and Without Preheater,” reflects her research interests in energy systems. Currently, she is enrolled in the Ph.D. program at Technical University of Darmstadt, focusing on fluid mechanics and thermal load peak treatment.

Experience

Samaneh Abdi Qezeljeh has gained valuable practical experience through her internship at I.D.E.M Co. (Iranian Diesel Engine Manufacturing Co.), where she worked in the Research and Development (R&D) department from July to August 2017. During this internship, Samaneh was involved in the design and modification of engines, particularly focusing on optimizing engine performance. This hands-on experience enhanced her understanding of real-world mechanical engineering challenges and deepened her knowledge of energy systems. In her academic career, Samaneh has contributed to the advancement of fluid mechanics and energy conservation research at the Technical University of Darmstadt. As a Ph.D. student, she is currently working on the study of thermal load peak treatment in turbulent aerosol flows. She has also tutored undergraduate and graduate students at the University of Tabriz, focusing on SolidWorks and CFD software, sharing her expertise and mentoring future engineers.

Research Focus

Samaneh Abdi Qezeljeh’s research focuses primarily on fluid mechanics, heat transfer, and energy systems, with a particular emphasis on computational fluid dynamics (CFD) and fluid-structure interaction (FSI). Her work also explores bio-mechanics, turbulence modeling, and numerical simulations to address real-world engineering problems. As a Ph.D. candidate at the Institute for Fluid Mechanics and Aerodynamics at Technical University of Darmstadt, Samaneh’s current research project, titled “Study of Thermal Load Peak Treatment in the Air Gap Utilizing Turbulent Aerosol Flows”, is investigating ways to optimize thermal performance in energy systems. Her previous work on the Organic Rankine Cycle has further solidified her interest in energy conservation techniques and sustainable energy solutions. Samaneh has also studied incompressible fluid flows in her Master’s thesis and has explored advanced fluid simulations, focusing on the interaction between fluids and structural elements.

Publication Top Notes

 

 

Niloufar Salehi | Circular Supply Chains | Best Researcher Award

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Ms Niloufar Salehi | Circular Supply Chains | Best Researcher Award

MS Niloufar Salehi , KTH Royal Institute of Technology , Sweden

Niloufar Salehi is a dedicated PhD candidate at KTH Royal Institute of Technology in Stockholm, specializing in Circular Manufacturing Systems. With over five years of experience, Niloufar excels in developing data-driven decision-support tools that facilitate the transition to sustainable manufacturing practices. Her strategic and analytical mindset empowers her to address complex challenges in the field, aiming for innovative solutions that contribute to a circular economy. Niloufar’s collaborative spirit has fostered partnerships with international universities and research institutes, enriching academic discourse and resulting in numerous publications. She is deeply committed to sustainability, believing that urgent action is needed to ensure a better future.

Publication Profile

Google Scholar

Strengths for the Award

  1. Expertise in Circular Manufacturing: Niloufar has a deep understanding of Circular Manufacturing Systems, demonstrated through her extensive research and development of decision-support tools. Her work directly contributes to advancing sustainable practices in manufacturing.
  2. Strong Analytical and Problem-Solving Skills: Her ability to tackle complex challenges through multi-method simulation modeling shows a high level of analytical competence, making her a valuable asset in the field.
  3. Successful Project Management: Niloufar has effectively led and contributed to multiple EU-funded projects, showcasing her leadership in data gathering, project coordination, and stakeholder engagement.
  4. Collaborative Research Contributions: She has established fruitful collaborations with over four international universities, resulting in several impactful publications, reflecting her ability to work well in diverse research environments.
  5. Teaching and Mentoring: Her experience in teaching and supervising students demonstrates her commitment to knowledge dissemination and nurturing the next generation of researchers.

Areas for Improvement

  1. Broader Impact Communication: While her research is impactful, enhancing her communication skills to reach broader audiences could amplify the visibility of her contributions.
  2. Networking Expansion: Increasing her involvement in industry conferences and workshops may provide additional platforms for sharing her research and establishing more collaborations.
  3. Interdisciplinary Approaches: Exploring intersections with other disciplines, such as social sciences or policy-making, could enrich her research and broaden its applicability.

Education 

Niloufar holds a PhD in Production Engineering from KTH Royal Institute of Technology (2018–2024), where her thesis focuses on creating multi-method simulation model-based decision-support tools for Circular Supply Chain implementation. Prior to her doctoral studies, she earned an MSc in Energy Systems Engineering from Sharif University of Technology in Iran (2014–2017), achieving a GPA of 17.78/20 and ranking in the top 10% of her class. Her master’s thesis concentrated on optimizing recovery technologies for municipal solid waste through a multi-criteria decision-making model, highlighting her strong foundation in sustainability. Niloufar’s academic journey began with a BSc in Chemical Engineering, also from Sharif University (2009–2013), where she laid the groundwork for her future research in sustainable engineering practices and environmental management.

Experience 

Niloufar’s professional journey spans significant roles, including her current position as a PhD candidate at KTH Royal Institute of Technology, where she leads data gathering and project management efforts for multiple EU-funded projects. Notably, she has contributed to Horizon Europe’s DiCiM project, focusing on digitalized value management for Circular Manufacturing Systems. In her role within H2020 ReCiPSS, she has been instrumental in transitioning linear supply chains to circular ones, developing multi-method simulation models that assess economic, environmental, and technical performance. Additionally, Niloufar has experience as a researcher at Sharif Energy Research Institute, where she conducted techno-economic analyses related to anaerobic digestion. Her extensive teaching experience includes courses on Circular Manufacturing Systems at KTH and guest lectures at various institutions, demonstrating her commitment to sharing knowledge and fostering future generations in the field.

Research Focus 

Niloufar’s research focuses on Circular Manufacturing Systems, specifically the development of decision-support tools that facilitate the implementation of circular supply chains. She employs multi-method simulation models to analyze the complexities of manufacturing systems and support sustainable practices. Her work emphasizes data-driven solutions for transitioning traditional linear supply chains into circular frameworks, addressing the urgent need for sustainability in manufacturing. Key areas of interest include resource efficiency, waste reduction, and the integration of digital technologies in manufacturing processes. Niloufar’s research contributions also explore stakeholder dynamics in circular supply chains, ensuring that economic, environmental, and technical aspects are considered for effective decision-making. Through collaboration with international partners and participation in various EU-funded projects, she aims to enhance academic knowledge and provide practical solutions that drive the adoption of circular economy principles in manufacturing.

Publications Top Notes

  • Amir, S., Salehi, N., Roci, M., Sweet, S., & Rashid, A. (2022). Towards circular economy: A guiding framework for circular supply chain implementation. 📚
  • Roci, M., Salehi, N., Amir, S., Shoaib-ul-Hasan, S., Asif, F. M. A., Mihelič, A., & Rashid, A. (2022). Towards circular manufacturing systems implementation: A complex adaptive systems perspective using modelling and simulation as a quantitative analysis tool. 🌍
  • Roci, M., Salehi, N., Amir, S., Asif, F. M. A., Shoaib-ul-Hasan, S., & Rashid, A. (2022). Multi-method simulation modelling of circular manufacturing systems for enhanced decision-making. 🛠️
  • Salehi, N., Amir, S., Roci, M., Shoaib-ul-Hasan, S., Asif, F. M. A., Mihelič, A., Sweet, S., & Rashid, A. (2024). Towards circular manufacturing systems implementation: An integrated analysis framework for circular supply chains. 🔄
  • Asif, F. M., Salehi, N., & Lieder, M. (2022). Consumer Perceptions of the Circular Business Model: A Case of Leasing Strollers. 👶
  • Kokare, S., Asif, F. M. A., Mårtensson, G., Shoaib-ul-Hasan, S., Rashid, A., Roci, M., & Salehi, N. (2021). A comparative life cycle assessment of stretchable and rigid electronics: a case study of cardiac monitoring devices. ❤️
  • Shoaib-ul-Hasan, S., Roci, M., Asif, F. M. A., Salehi, N., & Rashid, A. (2021). Analyzing temporal variability in inventory data for life cycle assessment: Implications in the context of circular economy. 📊
  • Villamil Velasquez, C., Salehi, N., & Hallstedt, S. I. (2020). How Can Information and Communications Technology Support the Link Between Circular Economy and Product Life Cycle Management? – a Review. 💻
  • Salehi, N., Mahmoudi, M., Bazargan, A., & McKay, G. (2019). Exergy and Life Cycle-Based Analysis. In C. M. Hussain (Ed.), Handbook of Environmental Materials Management (pp. 1057–1078). 📖

Conclusion

Niloufar Salehi exemplifies the qualities of a leading researcher in the field of Circular Manufacturing Systems. Her strong foundation in data-driven decision support, coupled with her project management and collaborative skills, positions her as a frontrunner for the Best Researcher Award. With targeted improvements in communication and networking, she has the potential to significantly elevate her impact in both academic and industrial contexts.