Akerke Amirkhanova | Medicinal Herbs | Women Researcher Award

Published on by Popular EngineerLeave a Comment on Akerke Amirkhanova | Medicinal Herbs | Women Researcher Award

Ms. Akerke Amirkhanova | Medicinal Herbs | Women Researcher Awar

School of pharmacy, S.D. Asfendiyarov Kazakh National Medical University, Kazakhstan

Akerke Amirkhanova is an accomplished researcher and educator in pharmaceutical sciences, specializing in the development of drugs from medicinal plant materials. Currently, she serves as a teacher at Kazakh National Medical University, where she imparts her expertise in pharmacy, pharmaceutical production technology, and phytopreparation technologies. With a Doctorate in Pharmaceutical Production Technology from Kazakh National Medical University, Akerke’s academic and professional journey is marked by her groundbreaking work on the isolation of biologically active substances from medicinal plants. Her international experience includes internships at Gdansk Medical University in Poland, deepening her knowledge in pharmacognosy. Throughout her career, Akerke has dedicated herself to advancing scientific research and nurturing future leaders in the pharmaceutical industry.

Profile

Education

Akerke Amirkhanova holds a Doctorate in Pharmaceutical Production Technology (2018) from Kazakh National Medical University, where her research focused on the preparation of extracts and isolation of biologically active substances from medicinal plants. She also holds a Master of Science in Chemistry from Kazakh National University (2014), where her research explored the environmental impact and distribution of heavy metals. She began her academic journey with a Bachelor of Science in Chemistry from the same institution in 2010, deepening her knowledge in chemical processes related to environmental sciences. Akerke’s strong academic foundation, combined with specialized international training during internships at Gdansk Medical University in Poland, gives her a broad perspective in both theoretical and practical aspects of pharmaceutical science, particularly in phytochemistry and biotechnology. Her academic credentials and international exposure shape her multifaceted expertise in the field.

Experience

Akerke Amirkhanova’s professional journey includes significant experience in both academia and research. Since 2018, she has been a teacher at Kazakh National Medical University, imparting knowledge in pharmaceutical sciences. Her courses cover a variety of subjects such as drug development, modern phytopreparation technologies, and the preparation of biologically active additives. In addition to her teaching role, Akerke has also served as a specialist in chemistry at Kazakh National University from 2010 to 2015. During her doctoral studies, Akerke expanded her expertise with internships in the Department of Pharmacognosy at Gdansk Medical University in Poland (2016–2017). These experiences have allowed her to contribute extensively to pharmaceutical research, particularly in the extraction and use of medicinal plants for drug development. Her academic and practical experience has solidified her position as an expert in the intersection of chemistry, biotechnology, and pharmaceutical science.

Research Focus

Akerke Amirkhanova’s research focuses primarily on the development of pharmaceutical technologies based on medicinal plant raw materials. She is dedicated to isolating biologically active substances and creating effective drug formulations derived from these plant materials. A key part of her research is the preparation of plant extracts and the identification of microorganisms with probiotic activity from natural food sources. Akerke’s studies aim to explore and harness the therapeutic properties of medicinal plants, especially in the context of modern phytochemistry and biotechnology. She has published works on the development of phytopreparations, exploring the potential of various plant species to create bioactive compounds beneficial for human health. Her interdisciplinary approach combines chemistry, environmental science, and pharmacology to advance sustainable drug production technologies. Through her research, Akerke contributes to the growing field of natural medicine and its application in modern pharmaceutical practices.

Publication Top Notes

  1. Ceratocarpus arenarius: Botanical Characteristics, Proximate, Mineral Composition, and Cytotoxic Activity 🌿📑
  2. Gas Chromatography–Mass Spectrometry Profiling of Volatile Metabolites Produced by Some Bacillus spp. and Evaluation of Their Antibacterial and Antibiotic Activities 🔬💡
  3. Molecular Characterization of Some Bacillus Species from Vegetables and Evaluation of Their Antimicrobial and Antibiotic Potency 🧫🌱
  4. Study of Phytochemical Compounds of Plantago Major Leaves Grown in Kazakhstan 🌿💧
  5. Development of Technology and Composition of Alhagi Kirghisorum Schrenk (Camel Thorn) Extracts Based Tablets 💊🌵
  6. Review of the Current Status of Study Oxytropis 🔎📚
  7. Thin-Layer Chromatography Analysis of Extract Oxytropis Glabra Lam. DC. 📖🌱
  8. Virtual-Interactive Visualization of Atomic Structures, Electron Configurations, Energy Levels in 3D Format for the Construction of Virtual-Interactive Laboratories with the Mechanisms of Chemical Reactions in Inorganic and Organic Chemistry 💻🔬

 

André Araújo | Multi-Robot System | Best Researcher Award

Published on by Popular EngineerLeave a Comment on André Araújo | Multi-Robot System | Best Researcher Award

Mr. André Araújo | Multi-Robot System | Best Researcher Award

CTO & PhD Candidate, Ingeniarius, Lda & Institute For Systems and Robotics – U Coimbra, Portugal

André Araújo is the CTO and co-founder of Ingeniarius, Lda., an R&D company specializing in robotics and AI. With over a decade of experience in mobile, aerial, and aquatic robotics, he has developed multi-robot systems for industrial and scientific applications. His expertise spans autonomous navigation, AI integration, and sensor systems. André holds an MSc in Electrical and Computer Engineering from the University of Coimbra (FCTUC), where he is pursuing a Ph.D. in Multi-Robot Systems. He has worked at leading R&D institutions such as ISR Coimbra, INESCTEC Porto, and IST-ID Lisbon. His professional journey includes contributions to cutting-edge projects like AGVs, swarm robotics, aerial robotics, and smart systems. He has published numerous research articles and actively collaborates with industry leaders to drive technological innovation in robotics and AI. His work adheres to international standards, ensuring quality and efficiency in development processes.

Education

André Araújo pursued his academic journey at the University of Coimbra (FCTUC), where he obtained his MSc in Electrical and Computer Engineering with a focus on Robotics and Automation in 2012. Currently, he is continuing his education with a Ph.D. in Multi-Robot Systems at the same institution. Throughout his academic career, André has developed a deep understanding of autonomous navigation, cooperative robotics, sensor systems, and AI, shaping his research interests and innovations in the field of robotics. His Ph.D. research focuses on the development of intelligent multi-robot systems with applications in industrial, scientific, and real-world scenarios. He has received fellowships and grants for research in robotics from institutions like INESCTEC Porto, ISR Coimbra, and IST-ID Lisbon, where he also contributed to several pioneering projects in autonomous systems. This strong academic foundation has played a crucial role in his successful career as a researcher and innovator in robotics and AI.

Experience

André Araújo’s professional career spans over 10 years, with a focus on robotics and AI innovation. He is the CTO and co-founder of Ingeniarius, Lda., where he leads projects in mobile, aerial, and aquatic robotics. Since 2014, he has developed intelligent multi-robot systems for industrial and scientific applications, tackling challenges in automation, navigation, and AI. As a researcher and consultant at institutions like ISR Coimbra, INESCTEC Porto, and IST-ID Lisbon, André has contributed to multiple high-profile projects such as AGVs, swarm robotics, aerial drones, and autonomous systems. He has played a key role in the development of cutting-edge robotic technologies for applications ranging from infrastructure monitoring to fire prevention. His experience includes overseeing projects from inception to implementation, ensuring compliance with international standards like ISO 9001. Through his career, André has developed a comprehensive skill set, including project management, R&D, and system integration.

Research Focus

André Araújo’s primary research focus is on developing multi-robot systems and autonomous navigation technologies. His expertise lies in the integration of robotics, AI, and sensor systems to address complex industrial and scientific challenges. He specializes in designing and implementing intelligent robotic systems for applications such as infrastructure monitoring, search and rescue operations, wildfire prevention, and agricultural automation. André’s research extends to swarm robotics, where he explores collaborative approaches to improve system efficiency and performance. A significant part of his work revolves around the application of AI algorithms to enable real-time decision-making and coordination among multiple robots. His focus also includes advancements in human-robot interaction and the development of systems that support autonomous operation in dynamic environments. With a deep interest in the future of robotics, André aims to push the boundaries of automation, contributing to the advancement of industries and scientific fields through innovative solutions and interdisciplinary research.

Publication Top Notes

  • A Multi-Drone System Proof of Concept for Forestry Applications 📄🌳
  • Unlocking the Potential of Human-Robot Synergy Under Advanced Industrial Applications: The FEROX Simulator 🤖🏭
  • An Image-Based Framework for Measuring the Prestress Level in CFRP Laminates: Experimental Validation 📐
  • Towards the Next Generation of Multi-Robot Systems for Solar Power Plants Inspection and Maintenance 🌞🚁
  • Benchmarking for Strain Evaluation in CFRP Laminates Using Computer Vision: Machine Learning versus Deep Learning 🧠💻
  • Multi-Robot Path Planning based on Self-Organized Map for Autonomous Robots (SOMAR) 🛠️
  • ROS Integration of an Instrumented Bobcat T190 for the SEMFIRE Project 🤖🔥
  • Localization and navigation assessment of a heavy-duty field robot 🚜📍
  • Mediçao da extensao em laminados de cfrp pré-esforçados no reforço de elementos de betao 📊
  • Improving the robustness of a service robot for continuous indoor monitoring 🏠🤖
  • A Reliable Localization Architecture for Mobile Surveillance Robots 🕵️‍♂️
  • Fostering human–robot cooperative architectures for search and rescue missions in urban fires 🔥🚨
  • Using Artificial Intelligence for Pattern Recognition in a Sports Context ⚽🤖

 

 

Farhad Zare | Biomechanics | Best Researcher Award

Published on by Popular EngineerLeave a Comment on Farhad Zare | Biomechanics | Best Researcher Award

Mr. Farhad Zare | Biomechanics | Best Researcher Award

Graduated, Shiraz University, Iran

Farhad Zare is a Mechanical Engineer specializing in computational fluid dynamics (CFD) and biomechanics. With an academic background that includes a master’s degree from Shiraz University and a deep interest in drug delivery systems, his research aims to bridge the gap between theoretical simulations and real-world applications. Over the years, Farhad has demonstrated expertise in numerical simulations, fluid mechanics, and microfluidics. His focus on applying computational models in healthcare, especially in nasal drug delivery, showcases his interdisciplinary approach. Farhad is also passionate about mentoring students and sharing his knowledge through his educational YouTube channel, infinitycfd.

Profile

Orcid

Education

Farhad Zare completed his M.Sc. in Mechanical Engineering—Energy Conversion from Shiraz University (2015-2018), one of the top universities in Iran. His thesis focused on the numerical simulation of drug delivery in the human nasal cavity via a nasal spray device, earning him an excellent degree with a GPA of 3.57/4.0. Prior to this, he obtained his B.Sc. in Mechanical Engineering from Persian Gulf University (2010-2014), where he ranked in the top 10% of his class with a GPA of 3.53/4.0. During his undergraduate years, Farhad worked on the simulation of bed deformation in water channel flow with non-Newtonian deformable beds. His solid academic performance and strong technical background have laid the foundation for his research in fluid dynamics, biomechanics, and computational simulations.

Experience

Farhad Zare has accumulated significant experience in both research and practical applications of mechanical engineering. His numerical simulation projects include drug delivery systems, microfluidics, and the impact of surface roughness on flow characteristics in micro-channels. He has worked with advanced tools like Ansys Fluent, OpenFOAM, and SolidWorks, applying them to simulations of heat exchangers, helical geometries, and complex fluid flows. Farhad also has a solid track record as a mentor and teacher assistant, helping M.Sc. and B.Sc. students. His practical experience includes internships in piping design and maintenance for a sugar factory and water supply and sanitation systems. Additionally, Farhad has been active in the educational field through his YouTube channel, infinitycfd, where he shares his expertise in CFD with a wider audience.

Awards and Honors

Farhad Zare has received multiple accolades for his academic and extracurricular achievements. He was awarded full scholarships for both his graduate and undergraduate studies due to his excellent academic performance. Farhad’s commitment to excellence was recognized when he earned an excellent grade for his master’s thesis, a significant milestone in his educational journey. Additionally, he placed second in the provincial Kyokushin sport competition in Shiraz, Iran, which highlights his perseverance and discipline outside the academic realm. These awards reflect his dedication to both his professional field and personal development, positioning him as an outstanding candidate for future research endeavors and leadership roles in mechanical engineering and biomechanics.

Research Focus

Farhad Zare’s research interests revolve around computational fluid dynamics (CFD), biomechanics, and the simulation of particle and droplet dynamics. His focus includes analyzing the trajectory and fate of particles in complex flow systems, such as nasal drug delivery. He has developed advanced numerical models to study drug deposition in the human nasal cavity and microfluidic systems. His research in microfluidics and MEMS (micro-electromechanical systems) aims to optimize the design and functionality of medical devices, particularly in the realm of targeted drug delivery. Farhad also explores the interaction of surface roughness and airflow within micro-channels, contributing to advancements in both biomedical engineering and mechanical system optimization. By combining his knowledge of CFD, fluid mechanics, and biomechanics, Farhad aspires to make significant contributions to healthcare applications, including more efficient and effective drug delivery devices.

Publication Top Notes

  1. Optimized gravity-driven intranasal drop administration delivers significant doses to the ostiomeatal complex and maxillary sinus 🌿💉 Drug Delivery and Translational Research, 2023
  2. Targeted drug delivery to the inferior meatus cavity of the nasal airway using a nasal spray device with angled tip 💡🔬 Computer Methods and Programs in Biomedicine, 2022

 

 

Minwoo Park | Superconductivity | Best Researcher Award

Published on by Popular EngineerLeave a Comment on Minwoo Park | Superconductivity | Best Researcher Award

Dr. Minwoo Park | Superconductivity | Best Researcher Award

Post-Doc, University of Seoul, South Korea.

Minwoo Park is a Post-Doctoral Researcher at the University of Seoul, specializing in computational materials science and condensed matter physics. He received his Ph.D. in Physics from Konkuk University, where he studied the Raman effects of few-layer two-dimensional materials using first-principles calculations. His research focuses on energy materials, superconductivity, and quantum materials. He has contributed significantly to the study of 2D materials, quantum spin Hall properties, and lithium-ion battery anode materials. His work has been published in leading journals, such as npj Computational Materials and JACS, with over 950 citations. Minwoo holds a patent for high-capacity anode materials for batteries and has collaborated with experimental teams on various projects, including graphene analysis and superconductivity. He is a member of the Korean Physical Society.

Profile :

Orcid

Scopus

Google Scholar 

Education :

Minwoo Park completed his undergraduate and graduate studies in Physics, earning a Ph.D. from Konkuk University, South Korea. His doctoral research focused on the Raman effects of few-layer two-dimensional (2D) materials, where he utilized first-principles calculations to explore their unique properties. This research set the foundation for his career in computational materials science. Currently, as a Post-Doctoral Researcher at the University of Seoul, Minwoo investigates superconductivity in doped SrTiO3 and continues to contribute to the understanding of energy materials and quantum materials. Throughout his education, Minwoo engaged in advanced studies in condensed matter physics, materials science, and quantum physics, combining theoretical models with computational simulations. His rigorous academic training and innovative approach have positioned him as a leader in his field. Additionally, his ongoing post-doctoral work allows him to collaborate with both experimental and theoretical research teams globally, advancing the boundaries of materials science.

Experience :

Minwoo Park’s professional experience spans both academic research and scientific collaborations. After completing his Ph.D., he joined the University of Seoul as a Post-Doctoral Researcher, focusing on the superconductivity of doped SrTiO3. His work integrates computational materials science, condensed matter physics, and quantum physics, producing high-impact research in energy materials and quantum materials. Minwoo’s most notable achievements include publishing in prestigious journals such as npj Computational Materials, JACS, and Advanced Functional Materials, contributing significantly to battery technology and quantum spin Hall systems. His experience also includes working on molecular dynamics simulations, where he analyzed the effects of mechanical stress on graphene ripples. He has provided critical theoretical insights to experimental teams, helping shape the direction of 2D material research. Minwoo holds one patent related to lithium-ion battery anode materials, showcasing his ability to translate scientific innovation into real-world applications. He is actively involved in collaborations, further expanding his research impact.

Research Focus :

Minwoo Park’s research focuses on computational materials science, with an emphasis on condensed matter physics and two-dimensional (2D) materials. His work explores the electronic and structural properties of 2D materials, such as graphene, graphdiyne, and transition metal dichalcogenides. He has made significant contributions to the study of novel anode materials for lithium-ion batteries and the design of quantum materials with spintronic properties, such as quantum spin Hall insulators. Minwoo’s research has advanced the understanding of electron-phonon coupling in superconducting materials, particularly doped SrTiO3. By using first-principles calculations and molecular dynamics simulations, he investigates how different material properties can be tailored for energy storage, quantum devices, and nanotechnology applications. His contributions to the field of computational materials science aim to bridge the gap between theory and practical applications, making his research crucial for the development of future energy technologies and advanced quantum materials.

Publications Titles :

  1. Multilayer graphynes for lithium ion battery anode ⚡🔋
  2. 2D transition metal dichalcogenide heterostructures for p‐and n‐type photovoltaic self‐powered gas sensor ☀️🔬
  3. Graphdiyne as a high-capacity lithium ion battery anode material ⚡🔋
  4. Molecular-level understanding of continuous growth from iron-oxo clusters to iron oxide nanoparticles 🧪🔬
  5. Widely tunable band gaps of graphdiyne: an ab initio study 🧑‍🔬📊
  6. Raman spectra shift of few-layer IV-VI 2D materials 📈🎶
  7. Exotic geometrical and electronic properties in hydrogenated graphyne 💡⚛️
  8. High-throughput screening of metal-porphyrin-like graphenes for selective capture of carbon dioxide 🌍🔬
  9. Doping effect in graphene-graphene oxide interlayer ⚙️💨
  10. Design of 2D massless Dirac fermion systems and quantum spin Hall insulators based on sp–sp2 carbon sheets 🧑‍🔬✨
  11. Configuration of ripple domains and their topological defects formed under local mechanical stress on hexagonal monolayer graphene 🌀🌍
  12. Fe–Porphyrin-like nanostructures for selective ammonia capture under humid conditions 💨⚗️
  13. Gated MoSi2N4 monolayer as a highly efficient nanosensor towards selected common pollutants 🌿🧪
  14. sp–sp2 Carbon Sheets as Promising Anode Materials for Na-Ion Batteries ⚡🔋
  15. Carbyne bundles for a lithium-ion-battery anode ⚡🔋
  16. Improved Transport of Adenosine Incorporated in Lipid Nanoparticles across Reconstructed Human Epidermis 💉👨‍🔬
  17. Efficient detection of specific volatile organic compounds associated with COVID-19 using CrX2 (X= Se, Te) monolayers 🦠💨
  18. Wedge energy bands of monolayer black phosphorus: a first-principles study 🧑‍🔬⚛️
  19. Corrigendum: High-throughput screening of metal-porphyrin-like graphenes for selective capture of carbon dioxide 🌍🔬
  20. Vertical Dielectric of Conducting Functionalized Few-Layer MoS2 🔬💡

Grigol Keshelava | surgery | Best Researcher Award

Published on by Popular EngineerLeave a Comment on Grigol Keshelava | surgery | Best Researcher Award

Dr. Grigol Keshelava | surgery | Best Researcher Award

vascular surgeon, Clinic Healthycore, Georgia.

 

Grigol Keshelava, born on December 23, 1978, is a renowned Georgian vascular surgeon and academic. With expertise in vascular surgery, anatomy, and science, he has contributed significantly to medical advancements in Georgia and internationally. He currently serves as the Chief of the Department of Vascular Surgery at Clinic Helsicore in Tbilisi, Georgia. His academic journey includes numerous placements and internships across France, Germany, and Georgia. Dr. Keshelava has a Ph.D. from Tbilisi State Medical University and is a professor at New Vision University. His passion for integrating medical science with artistic elements has led him to explore the anatomical aspects depicted in Renaissance art. A highly respected clinician and researcher, his contributions to vascular surgery and interdisciplinary research continue to have a lasting impact on the field.

Profile

Orcid

Education 

Grigol Keshelava completed his medical education at Tbilisi State Medical University (1996-2002), where he developed a strong foundation in medicine. His journey in vascular surgery and related fields was enhanced by numerous clinical placements in world-renowned institutions. These include the Department of Vascular Surgery at Hospital de la Timon in Marseille, France (2001-2006), and the Department of Vascular Surgery at the University of Elizabeth Hershberger in Berlin, Germany (2004). Dr. Keshelava also completed internships in the Department of Neurosurgery and Visceral Surgery at various French hospitals. His academic journey continued with scientific research, culminating in a doctoral degree (Ph.D.) from Tbilisi State Medical University in 2008. In 2021, he expanded his academic role by becoming a professor at New Vision University, where he continues to shape future vascular surgeons and contribute to the growth of medical education in Georgia.

Experience 

Dr. Grigol Keshelava has had a distinguished career in vascular surgery, with extensive experience in clinical practice and leadership. He began his professional journey as a vascular surgeon at the West Georgian National Center of Interventional Medicine in Kutaisi, Georgia, from 2008 to 2013. He was promoted to Chief of the Department of Vascular Surgery at the same institution, where he led the department until 2018. From 2018 to 2020, he was the Chief of the Department of Vascular Surgery at Caucasus Medical Center in Georgia. In 2020, he took on the role of Chief of the Department of Vascular Surgery at Clinic Helsicore, where he continues to advance the practice. His leadership roles have allowed him to influence the growth and development of vascular surgery in Georgia, training new professionals while delivering advanced care to patients. Dr. Keshelava has gained international recognition for his contributions to both clinical and research domains.

Awards and Honors 

Dr. Grigol Keshelava’s career is marked by multiple achievements and accolades, reflecting his significant contributions to the medical field. He holds a Doctoral Degree (Ph.D.) from Tbilisi State Medical University and has received recognition for his research in both local and international circles. His research on vascular surgery and anatomical studies has earned him publications in high-impact journals such as European Journal of Vascular and Endovascular Surgery and Surgical and Radiologic Anatomy. His leadership at several prestigious institutions, such as the West Georgian National Center of Interventional Medicine, Tbilisi Heart and Vascular Clinic, and Clinic Helsicore, has been instrumental in shaping vascular surgery practices in Georgia. Additionally, his role as a professor at New Vision University has allowed him to impact the education of future vascular surgeons. His blend of clinical expertise and research innovation positions him as a leading figure in the field of vascular surgery in Georgia and beyond.

Research Focus 

Dr. Grigol Keshelava’s research interests lie at the intersection of vascular surgery, anatomy, and the innovative exploration of medical art. He focuses on various aspects of vascular conditions, including adventitial cystic disease, carotid artery entrapment, and aneurysm formation. His work often highlights anatomical variations that influence surgical approaches and outcomes. Dr. Keshelava is also renowned for his research on hidden anatomical features in works of Renaissance art, such as the study of brain anatomy in The Battle of Anghiari by Leonardo da Vinci and cardiovascular anatomy in Saint John the Baptist by Leonardo da Vinci. His interdisciplinary research incorporates artificial intelligence to analyze neuroanatomical aspects in art, bridging medical science with historical and artistic perspectives. Through his publications in leading scientific journals, he continues to challenge conventional approaches to anatomy and surgery, bringing fresh insights into medical education and practice.

Publications Titles

  1. Adventitial Cystic Disease of the Popliteal Artery with Nocturnal Rest Pain 🦵
  2. External Carotid Artery Entrapment by the Hyoid Bone Associated with an Atherosclerotic Stenosis of the Internal Carotid Artery 🦷
  3. Internal Carotid Artery Stenosis and Entrapment by the Hyoid Bone 💀
  4. Transarterial Chemoembolization in a Patient with Replaced Right Hepatic and Left Gastric Arteries Arising from the Abdominal Aorta 💉
  5. Hidden Brain Anatomy in Peter Paul Rubens’s Copy of ‘The Battle of Anghiari’ by Leonardo da Vinci 🧠
  6. Skull Anatomy in ‘Saint Jerome in the Wilderness’ by Leonardo da Vinci 💀
  7. Artificial Intelligence’s Interpretation of the Neuroanatomical Aspect of Peter Paul Rubens’s Copy of ‘The Battle of Anghiari’ by Leonardo da Vinci 🤖
  8. 180-degree Carotid Bifurcation with an Internal Carotid Artery Aneurysm 🔺
  9. Hidden Description of the Respiratory System Anatomy in ‘La Bella Principessa’ 🫁
  10. Successful Reconstruction of a Ruptured Brachial Artery Aneurysm With Superficial Femoral Vein 🩸
  11. Hidden Cardiovascular Anatomy in ‘Saint John the Baptist’ by Leonardo da Vinci ❤️

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

Published on by Popular EngineerLeave a Comment on Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation Management | Best Researcher Award

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 🤖💧

 

 

Moataz Abdel-Aziz | Solar Energy | Engineering Award of Excellence

Published on by Popular EngineerLeave a Comment on Moataz Abdel-Aziz | Solar Energy | Engineering Award of Excellence

Assist. Prof. Dr. Moataz Abdel-Aziz | Solar Energy | Engineering Award of Excellence

Assistant Prof., Horus University – Faculty of Engineering, Egypt

Dr. Moataz Mostafa Abdel-Aziz is an Assistant Professor at the Mechanical Power Engineering Department of the Faculty of Engineering at Horus University, Egypt. He obtained his Ph.D. in 2019 from Tanta University, specializing in renewable energy and thermal systems. Dr. Abdel-Aziz has dedicated over a decade to academic work, focusing on educating the next generation of engineers while conducting cutting-edge research. His contributions in renewable energy technologies, particularly in solar desalination and thermal storage, have established him as a prominent figure in the field. With an extensive portfolio of research projects, academic publications, and collaborations, he actively shapes future innovations for sustainable energy solutions. In addition to his research, he also serves as the Manager of the Quality Assurance Unit, ensuring excellence within his institution. His leadership, teaching, and research align with global efforts to address energy and water scarcity challenges.

Profile

Education

Dr. Moataz Mostafa Abdel-Aziz holds a Ph.D. in Mechanical Power Engineering from Tanta University, Egypt, where his dissertation focused on renewable energy and thermal systems. He also completed his undergraduate and Master’s degrees in the same field at Tanta University, graduating with honors. His academic journey has been marked by a deep interest in sustainable energy systems, specifically those harnessing solar energy. Dr. Abdel-Aziz’s educational background is not just limited to formal degrees; he has also pursued numerous certifications, workshops, and training programs in advanced renewable energy systems, energy efficiency, and thermal technologies. His educational foundation has equipped him to teach and mentor students in complex engineering concepts like thermodynamics, heat transfer, and fluid mechanics. This well-rounded academic expertise provides him with the necessary skills to engage in both theoretical and applied research, significantly contributing to the advancement of sustainable energy technologies.

Experience

Dr. Moataz Mostafa Abdel-Aziz has more than 10 years of academic and research experience in the field of mechanical power engineering, specializing in renewable energy and thermal systems. As an Assistant Professor at Horus University, he teaches courses on thermodynamics, heat transfer, and fluid mechanics to undergraduate and graduate students. In addition to his teaching responsibilities, he has served in various administrative roles, including Manager of the Quality Assurance Unit, where he helps ensure the continuous improvement and accreditation of academic programs. Dr. Abdel-Aziz has also been involved in numerous research projects, focusing on enhancing solar still productivity, thermal energy storage, and hybrid nanofluid applications. His extensive experience includes collaborations with top universities like Tanta University and El-Oued University. He has acted as an advisor on renewable energy integration in desalination projects, blending academic knowledge with practical industry applications. His leadership and research have earned him recognition as a key figure in his field.

Research Focus

Dr. Moataz Mostafa Abdel-Aziz’s research primarily focuses on renewable energy technologies, with particular emphasis on solar energy and its applications in desalination and thermal storage systems. He is deeply involved in the development of advanced solar still technologies using natural and waste materials like walnut shells and sunflower husks, aiming to improve water productivity and energy efficiency. His work on hybrid nanofluids and optimized basin liners has significantly enhanced the performance of solar desalination systems, with a broader goal of making these systems more viable for large-scale use. Additionally, Dr. Abdel-Aziz investigates innovative thermal energy storage solutions that integrate renewable energy systems for continuous, efficient operation. His research also extends to hybrid photovoltaic-thermal (PVT) systems, where he works to improve system performance using cooling technologies. By focusing on sustainability and green energy solutions, Dr. Abdel-Aziz aims to contribute to solving the global challenges of water scarcity and renewable energy adoption.

Publication Top Notes 

  1. “A Numerical Investigation on Improving the Thermal Efficiency of PV Panels through Integration with Solar Water Collectors” 🌞📊
  2. “Optimizing Conical Solar Still Performance: The Impact of Broken Glass Color on Distillate Yield” 💧🌿
  3. “A Comprehensive Review of Nanoparticles Coating as a Technique to Improve the Performance of Solar Distiller Productivity” 📝🔬
  4. “Performance Enhancement of Double Slope Solar Still Using Cylindrical Fins: Experimental and Numerical Analysis” 🔥🌞
  5. “Effect of Absorber Shape on Energy, Exergy Efficiency, and Environmental-Economic Analysis of Solar Air Collector: An Experimental Study” 💡📉
  6. “Thermal and Electrical Analysis of the Performance of Skeleton-Shaped Tubes via Hybrid PVT Cooling System” 🌞🔧
  7. “Experimental and Economic Evaluation on the Performance Improvement of a Solar Photovoltaic Thermal System with Skeleton-Shaped Fins” 📚💰
  8. “Performance Enhancement of Hemispherical Solar Stills Using Different Shapes of Basin Liners” 🏖️🌞
  9. “Optimal Design and Orientation of Cooling Technology for Photovoltaic Plants: A Comparative Simulation Study” 🌞🏗️
  10. “Correction to: Black Glass Balls as Thermal Enhancers in Conical Solar Distillation” 🔄🔵

 

 

Osser Brigitte | Recovery syndrome tech-neck | Best Researcher Award

Published on by Popular EngineerLeave a Comment on Osser Brigitte | Recovery syndrome tech-neck | Best Researcher Award

Ms. Osser Brigitte | Recovery syndrome tech-neck | Best Researcher Award

Osser Brigitte, Aurel Vlaicu Univerisity of Arad, Romania

Brigitte Osser is a promising Romanian researcher and university assistant at the University “Aurel Vlaicu” of Arad, Romania. Born on May 8, 1998, she is a multidisciplinary scholar with a background in physics and veterinary medicine. Brigitte holds a Bachelor’s degree in Physics (West University of Timișoara) and a Master’s in Physics from the same institution. Additionally, she is pursuing her Bachelor’s degree in Veterinary Medicine at the “King Michael I” University of Life Sciences in Timișoara and is a doctoral student at the University of Oradea in Biomedical Sciences. Brigitte has published numerous articles on health-related topics, including physical health, nutrition, depression, and heart disease. Her work is recognized for its interdisciplinary approach and dedication to improving public health. With an emphasis on collaboration, Brigitte is shaping her future as an influential researcher in the biomedical and health sciences field.

Profile

Orcid

Education

Brigitte Osser’s academic journey began at the Arad Economic High School, where she completed her Baccalaureate in 2017. She then pursued a Bachelor’s degree in Physics at the West University of Timișoara (2017-2020), followed by a Master’s degree in Physics at the same institution (2020-2022). Alongside her academic achievements in physics, Brigitte is also studying Veterinary Medicine at the “King Michael I” University of Life Sciences in Timișoara, where she is expected to graduate in 2024. She is currently pursuing a Doctoral degree in Biomedical Sciences at the University of Oradea (2023-present). Brigitte’s education reflects her multidisciplinary approach, combining physics, veterinary medicine, and biomedical sciences, which allows her to explore complex health-related issues from multiple perspectives. She is also an assistant professor at the University “Aurel Vlaicu” of Arad, contributing to the academic community while furthering her research goals.

Experience

Brigitte Osser has gained considerable experience in academia and research. Since 2024, she has held the position of Assistant Professor at the University “Aurel Vlaicu” of Arad, where she is involved in teaching and research in the Department of Sports. Her responsibilities include supporting students and engaging in scientific projects. In addition to her teaching role, Brigitte’s research experience is extensive, with several publications in prominent journals focusing on health and biomedical sciences. Her research interests include the nutritional health of athletes, the effects of tech neck on posture and health, and the relationship between depression and heart disease. Brigitte is a co-author in studies published in journals such as Multidisciplinary Digital Publishing Institute. Her involvement in projects exploring the link between physical health, mental health, and medical conditions showcases her versatility as a researcher. Brigitte is poised to make significant contributions to her fields of expertise.

Research Focus

Brigitte Osser’s research focus lies primarily in the intersection of biomedical sciences, health, and physics, with a particular interest in the study of physical health, mental well-being, and medical conditions. Her recent work involves understanding the impact of lifestyle factors on the physical health of athletes, particularly football players. She has also explored emerging health issues, such as tech neck, by developing self-designed questionnaires to evaluate posture, symptoms, and preventive measures in children and young adults. Another significant area of Brigitte’s research is the relationship between depression and ischemic heart disease, with a focus on gender-specific differences in treatment and outcomes. By combining insights from physics, veterinary medicine, and biomedical sciences, Brigitte is able to take a multidisciplinary approach to her research. She aims to identify factors influencing both physical and mental health, thereby contributing to a holistic approach to disease prevention and health promotion.

Publications:

  1. Assessing Nutritional Knowledge and Physical Health Among Football Players: A Pilot Study from Three Sports Clubs in Western Romania 🏋️‍♂️⚽
  2. Evaluating Tech Neck: A Pilot Study Using a Self-Developed Questionnaire on Symptoms, Posture, and Preventive Measures 🖥️🧑‍⚕️
  3. Exploring the Relationship Between Ejection Fraction, Arterial Stiffness, NT-proBNP, and Hospitalization Risk in Heart Failure Patients ❤️🩺
  4. Gender-Specific Insights into Depression in Patients with Ischemic Heart Disease: Findings from a Pilot Study Using a Self-Developed Questionnaire 😔💔
  5. The Connection Between Depression and Ischemic Heart Disease: Analyzing Demographic Characteristics, Risk Factors, Symptoms, and Treatment Approaches 🧠🏥

 

Italo Cesidio Fantozzi | Operations Management | Best Researcher Award

Published on by Popular EngineerLeave a Comment on Italo Cesidio Fantozzi | Operations Management | Best Researcher Award

Dr. Italo Cesidio Fantozzi | Operations Management | Best Researcher Award

Researcher, University of Rome Tor Vergata, Italy

Italo Cesidio Fantozzi is a doctoral candidate and research fellow at the Department of Business Engineering at the University of Rome Tor Vergata. With a background in Industrial Engineering, he specializes in Operations and Supply Chain Management, focusing on Human and Operational Excellence. He has worked internationally, including in humanitarian projects, and contributed to academic research through journal publications and book chapters. His academic career is enriched by his roles as a teaching assistant for courses in Industrial Plants and Production Management, and his involvement in various university and industry projects. Fantozzi has also been an integral part of organizing and contributing to events like #TorVergata40, marking significant milestones for the University.

Profile

Orcid

Education

Italo Fantozzi completed his Master’s Degree in Management Engineering at the University of Rome Tor Vergata, graduating with honors and a GPA of 29.62/30 in July 2020. His thesis focused on developing a maturity model for Human Excellence to support Operational Excellence. He is currently a doctoral candidate in the same university’s Department of Business Engineering, pursuing research on topics related to Operations and Supply Chain Management. In 2021, he passed the state exam for Engineering, becoming a licensed engineer in Italy. His academic journey also includes specialized research and teaching assistantships in courses related to Industrial Management and Operations Excellence, enhancing both his practical and theoretical understanding of management engineering.

Experience

Italo Fantozzi’s professional journey spans both academia and industry. He worked as a Project Manager at the NGO Golfini Rossi, where he led feasibility studies for a soap production line in Tanzania. In 2021, he began his academic career as a doctoral student and research fellow at the University of Rome Tor Vergata. He is also actively involved in teaching, serving as a teaching assistant for courses on Industrial Plants and Production Management. His professional experience extends to his role as a Program Co-Chair for the Coperman 2023 conference on Performance Management and as support staff for the Think Tank in Operations Excellence. His work in industry and academia also involves collaborative projects with global companies such as ABB, Amazon, and Ferrero, where he applies his expertise in Operational Excellence and Human Excellence.

Awards and Honors

Italo Fantozzi has received several prestigious recognitions throughout his academic and professional career. In 2020, he won the “Change the World” scholarship from the United Nations, which took him to New York to discuss the Sustainable Development Goals (SDGs). In 2022, he was named one of Italy’s Top 100 Talents by Adecco Group, after evaluating over 11,600 candidates. Furthermore, Fantozzi was selected by the Collège Des Ingénieurs Italia as one of the top young graduates with high potential in 2020. This recognition highlighted his skills and potential within the STEM field. These honors reflect his commitment to both personal and professional growth and his drive to contribute meaningfully to both academia and global development.

Research Focus

Italo Fantozzi’s research interests are centered around Operations and Supply Chain Management, with a particular emphasis on Human Excellence (HumEx) and Operational Excellence (OpEx). His work includes the reengineering and optimization of industrial processes, the development of performance measurement tools, and the study of experiential teaching methods to foster excellence in both the industrial and academic sectors. He is particularly interested in the integration of digital technologies such as Digital Twins in Industry 4.0 environments to enhance operational efficiency. Fantozzi’s research also addresses the role of soft skills and human factors in operations management, proposing frameworks for improving human and operational performance. His studies contribute to the development of practical tools and methodologies that can be implemented in industries worldwide to achieve sustainable performance improvements.

Publication Top Notes

  1. “Combining conventional and smartphone technologies to evaluate the psychomotor status in chronic malnutrition: A cross-sectional pilot study in sub-Saharan Africa” 🧑‍🔬
  2. “Objective Key Results and Their Role in Modern Performance Management: A Critical Analysis of Benefits, Challenges, and Integration with Traditional Tools” 📈
  3. “On tasks and soft skills in operations and supply chain management: analysis and evidence from the O*NET database” 🔍
  4. “The Impact of University Challenges on Students’ Attitudes and Career Paths in Industrial Engineering: A Comparative Study” 🏫
  5. “Soft Skills, Attitudes, and Personality Traits: How Does the Human Factor Matter? A Systematic Review and Taxonomy Proposal through ProKnow-C Methodology” 🌟
  6. “Industrial Performance Measurement Systems Coherence: A Comparative Analysis of Current Methodologies, Validation and Introduction to Key Activity Indicators” ⚙️
  7. “On the effectiveness of experiential teaching methods: the impact of University Challenges on students’ attitudinal development” 🎓
  8. “The Impact of University Challenges on Academic Value Added Perception and Job Opportunities” 🧑‍🎓
  9. “Soft Skills, Attitudes and Personality Traits in Operations and Supply Chain Management: systematic review and taxonomy proposal through ProKnow-C methodology” 📚