Sawsan Sayed | Biotechnology | Women Researcher Award

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Prof. Dr Sawsan Sayed | Biotechnology | Women Researcher Award

Prof. Dr, Agriculture Research Center – Horticulture Research Institute,  Egypt

Dr. Sawsan S. Sayed is a distinguished Egyptian scientist specializing in plant tissue culture, ornamental horticulture, and plant biotechnology. With a career spanning over three decades, she has made significant contributions to the field of in vitro propagation and micropropagation of ornamental plants. Dr. Sayed holds a Ph.D. in Ornamental Horticulture from Cairo University and has served in various leadership roles, including Head of the Ornamental Plant and Landscape Gardening Research Department at the Horticulture Institute Research Agriculture Center. She is also an active reviewer for several international journals and a member of the Arabic Federation for Wildlife Protection. Her work has been widely published, focusing on innovative techniques in plant propagation and the biochemical characterization of ornamental species.

Professional Profile

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Education 🎓

Dr. Sawsan S. Sayed earned her B.Sc. in Horticulture from Cairo University in 1991. She later completed her M.Sc. in 1998, focusing on the physiological studies of Populus alba propagation through tissue culture. In 2002, she obtained her Ph.D. from Cairo University, specializing in the micropropagation of Solidago altissima. Her academic journey reflects a deep commitment to advancing plant biotechnology and ornamental horticulture, laying the foundation for her prolific research career.

Experience 💼

Dr. Sayed has extensive experience in plant tissue culture and ornamental horticulture. She has served as the Director of the Tissue Culture Lab at the Horticulture Institute Research Agriculture Center and as the Head of the Ornamental Plant and Landscape Gardening Research Department (2017–2020). She has also been involved in training agricultural educators and students nationwide. Her teaching experience spans private institutes and numerous training courses organized by the Agricultural Research Center, making her a key figure in agricultural education and research in Egypt.

Awards and Honors 🏆

Dr. Sawsan S. Sayed has been recognized for her contributions to horticultural science. She is a member of the Permanent Scientific Arbitration Committee of the Agricultural Research Center and has served as a reviewer for prestigious journals such as the Journal of Applied Pharmaceutical Science and Horticulture Research Journal. Her work has been acknowledged through her leadership roles and her active participation in scientific committees, highlighting her impact on the field of plant biotechnology.

Research Focus 🔬

Dr. Sayed’s research focuses on plant tissue culture, micropropagation, and the biochemical characterization of ornamental plants. She has developed innovative protocols for the in vitro propagation of various species, including Solidago altissimaGardenia jasminoides, and Ceratonia siliqua. Her work also explores the effects of growth regulators, light quality, and mutagenic agents on plant growth and biochemical properties. Additionally, she investigates the antioxidant, anticancer, and hepatoprotective activities of plant extracts, contributing to both agricultural and pharmaceutical sciences.

Publication Top Notes 📚

  1. Effect of developmental stages on micropropagation of Populus alba (1998).
  2. Micropropagation of Solidago altissima through tissue culture (2003).
  3. Gamma-irradiation effects on Solidago altissima micropropagation (2005).
  4. In vitro propagation of Cereus peruvianus (2005).
  5. Propagation of Faucaria tuberculosa by in vitro culture (2006).
  6. Colchicine effects on Solidago altissima micropropagation (2007).
  7. In vitro culture and RAPD analysis of Deutzia scabra (2007).
  8. Propagation of Cotoneaster horizontalis through in vitro culture (2007).
  9. Micropropagation and genetic stability of Pyracantha fortuneana (2009).
  10. Postharvest treatments for foliage plants (2009).
  11. Slow growth conservation of Deutzia scabra (2010).
  12. Micropropagation and antioxidant activity of Gardenia jasminoides (2010).
  13. Proline effects on Phoenix canariensis under salinity (2011).
  14. Chemical mutagenic agents on Gardenia jasminoides (2012).
  15. Salinity effects on Solidago altissima micropropagation (2013).
  16. Antioxidant and anticancer activities of Cotoneaster horizontalis (2013).
  17. Phenolic content in Cephalotaxus harringtonia cultures (2014).
  18. Mutation effects on Philodendron bipinnatifidum (2015).
  19. Micropropagation of Aglaonema commutatum (2016).
  20. In vitro propagation of Hibiscus syriacus (2016).
  21. Bulblet induction in Asiatic hybrid lily (2018).
  22. Fertilization effects on turfgrass growth (2018).
  23. Biochemical characterization of Ceratonia siliqua (2020).
  24. Micropropagation of Davallia fejeensis (2022).
  25. Mass production of Nephrolepis exaltata (2022).
  26. Phenolics and flavonoids in Brunfelsia pauciflora (2023).
  27. Micropropagation of Spathiphyllum wallisii (2023).
  28. Propagation of Gardenia jasminoides ‘Varigata’ (2023).

Conclusion 🌟

Dr. Sawsan S. Sayed is a leading figure in plant tissue culture and ornamental horticulture, with a career marked by groundbreaking research, extensive teaching, and leadership roles. Her work has advanced the field of micropropagation and contributed to the understanding of plant biochemistry and biotechnology. Through her publications, training programs, and scientific contributions, she has left an indelible mark on agricultural research in Egypt and beyond.

AJENDRA SINGH | Carbon Capture and Sequestration | Best Researcher Award

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Dr AJENDRA SINGH | Carbon Capture and Sequestration | Best Researcher Award

PROJECT SCIENTIST, IIT BOMBAY, India

Ajendra Singh is a dedicated researcher and professional in Petroleum Engineering, currently serving as a Project Scientist at IIT Bombay. With a Ph.D. in Petroleum Engineering from Pandit Deendayal Energy University (PDEU), Gandhinagar, and an M.Tech from Rajiv Gandhi Institute of Petroleum Technology (RGIPT), Raebareli, he has over a decade of experience in reservoir characterization, geomechanics, and carbon capture and storage (CCS). His expertise spans experimental core flooding, geochemical interactions, and numerical simulations using advanced software like CMG and Petrel. Ajendra has contributed significantly to academia and industry, mentoring students and leading research projects. His work focuses on enhancing reservoir quality assessment and hydrocarbon exploration, particularly in Indian basins like Kachchh and Cauvery.

Professional Profile

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Education 🎓

  • Ph.D. in Petroleum Engineering, Pandit Deendayal Energy University, Gandhinagar (2023) – 9/10 CGPA
  • M.Tech in Petroleum Engineering, Rajiv Gandhi Institute of Petroleum Technology, Raebareli (2013) – 8.04/10 CGPA
  • B.Sc. in Mechanical Engineering, Dayalbagh Educational Institute, Agra (2011) – 60.2%

Ajendra’s academic journey reflects a strong foundation in engineering, with specialized expertise in petroleum systems, reservoir modeling, and geomechanics.

Professional Experience 💼

  • Project Scientist, IIT Bombay (Oct 2023 – Present): Focused on CO2 core flooding experiments, geochemical interactions, and geomechanical studies for CCS applications.
  • Domain Expert, PDEU, Gandhinagar (Jan 2023 – Oct 2023): Conducted petroleum system modeling and seismic interpretation for Kutch and Saurashtra Basins.
  • Consultant Research Scientist, EMC India Pvt. Ltd (Sept 2022 – Jan 2023): Designed core flooding experiments for drilling mud analysis.
  • Teaching Assistant, PDEU (July 2017 – Sept 2022): Trained students in reservoir modeling, core analysis, and simulation software.
  • Project Associate, RGIPT (July 2013 – Nov 2015): Conducted reservoir simulation and well test analysis training.

Awards and Honors 🏆

  • Published multiple high-impact research papers in reputed journals like Journal of Petroleum Science and Engineering and Geoenergy Science and Engineering.
  • Presented research at international conferences, including the 84th EAGE Annual Conference & Exhibition.
  • Recognized for innovative work on bioturbation effects on reservoir quality in the Kachchh Basin.
  • Active member of the Society of Petroleum Engineers (SPE) since 2011.

Research Focus 🔍

Ajendra’s research focuses on:

  • Reservoir characterization and geomechanical studies for hydrocarbon exploration.
  • Carbon capture and storage (CCS) through CO2 injection in saline aquifers.
  • Bioturbation effects on reservoir quality and pore-throat characterization.
  • Integrated reservoir modeling and simulation for field-scale applications.
  • Geochemical interactions in carbonate and sandstone reservoirs.

Publication Top Notes 📚

  1. Unlocking the hidden potential: Petrophysical analysis of adjoining basement reservoirs in the Cauvery Basin’s Madanam Palaeo-High.
  2. Exploring the Geoheritage and Geosites of Jaramara Area, Kachchh, India: a Window into the Mesozoic Rift Basin.
  3. Assessing the impact of bioturbation on reservoir quality: Integrated spontaneous imbibition, pressure decay profile permeability, and pore-throat characterization study of the Cretaceous Bhuj Formation, Kachchh Basin, India.
  4. Pore throat characterization of bioturbated heterogeneous sandstone, Bhuj Formation, Kachchh India: An integrated analysis using NMR and HPMI studies.
  5. Evaluating cementation factor for bioturbated sandstones, Bhuj Formation, Kachchh Basin, India: A novel approach using triple-porosity model.
  6. An Integrated Reservoir Modelling and Simulation Workflow: A Case Study of Volve Field.
  7. Hydrocarbon source rock characterization and Basin modeling, A case study from Poseidon field, Browse Basin, Australia.
  8. Sequence stratigraphy of a Post Rift sedimentary succession: An Example from Kachchh Basin, India.
  9. Estimation of Porosity and Pore size distribution from Scanning Electron Microscope image data of Shale samples: A case study on Jhuran formation of Kachchh Basin, India.

Conclusion 🌟

Ajendra Singh is a highly accomplished petroleum engineer and researcher with a strong academic background and extensive professional experience. His contributions to reservoir characterization, geomechanics, and carbon capture technologies have advanced the field of petroleum engineering. Through his innovative research, mentorship, and publications, he continues to make significant strides in addressing complex challenges in hydrocarbon exploration and sustainable energy solutions.

Javier Fernández-Pato | Agronomy | Best Researcher Award

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Dr Javier Fernández-Pato | Agronomy | Best Researcher Award

Post-doc researcher, EEAD-CSIC, Spain

Javier Fernández-Pato is a highly accomplished researcher and educator specializing in Computational Fluid Mechanics, Shallow Water Equations, and Hydrology. He holds a PhD in Fluid Mechanics from the University of Zaragoza, where he also earned multiple master’s degrees in Applied Mechanics, Hydric Resources Engineering, and Physics. With over a decade of professional experience, Javier has worked as a researcher at the Spanish National Research Council (CSIC), Hydronia Europe SL, and the University of Zaragoza. His expertise spans numerical modeling, hydraulic simulations, and rainfall-runoff processes. Javier has received numerous accolades, including the Extraordinary PhD Award and ANECA certifications for lecturing. He is also a prolific author, with publications in top-tier journals like Journal of Hydrology and Advances in Water Resources. His work bridges theoretical research and practical applications, contributing significantly to environmental fluid mechanics and hydrology.

Professional Profile

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Education 🎓

Javier Fernández-Pato completed his PhD in Fluid Mechanics at the University of Zaragoza in 2019, earning cum laude honors, the Industrial Doctorate Mention, and the Extraordinary PhD Award. His dissertation focused on the performance assessment of Finite Volume methods in hydraulic processes. Prior to his PhD, he obtained two MSc degrees: one in Hydric Resources Engineering (2015) and another in Applied Mechanics (2012), both from the University of Zaragoza. He also holds a combined BSc and MSc in Physics from the same institution (2011). Javier’s academic journey reflects a strong foundation in physics and engineering, with a specialization in fluid dynamics and hydrology. His certifications include ANECA’s positive evaluations for PhD Lecturer and Assistant Lecturer roles, underscoring his qualifications in academia.

Professional Experience 💼

Javier Fernández-Pato has a rich professional background in research and academia. Since April 2023, he has been a Researcher at the Experimental Station of Aula Dei (CSIC) in the Soil and Water Department. Previously, he worked as a Post-Doc Researcher at the University of Zaragoza (2022-2023) and Hydronia Europe SL (2019-2023). He also served as a Part-time Professor at the University of Zaragoza, teaching courses in Fluid Mechanics, Hydrology, and Hydraulic Simulation Models (2020-2022). Earlier roles include Pre-doctoral Researcher at Hydronia Europe SL (2016-2019) and Researcher at the University of Zaragoza (2014-2016). His career highlights include developing manuals for RiverFlow2D software and contributing to advanced hydraulic simulation tools. Javier’s experience bridges academic research and industrial applications, making him a versatile expert in fluid mechanics and hydrology.

Awards and Honors 🏆

Javier Fernández-Pato has received several prestigious awards and honors throughout his career. His PhD dissertation earned cum laude distinction, along with the Mention of Industrial Doctorate and the Extraordinary PhD Award from the University of Zaragoza. He holds ANECA certifications for both PhD Lecturer and Assistant Lecturer roles, validating his teaching credentials. Javier’s research contributions have been widely recognized, with publications in high-impact journals such as Journal of Hydrology and Advances in Water Resources. His work on rainfall-runoff simulations and shallow water equations has garnered significant citations, reflecting its impact on the field. Additionally, he has been involved in collaborative projects that have advanced hydraulic modeling and environmental fluid mechanics. These accolades underscore his dedication to excellence in both research and education.

Research Focus 🔍

Javier Fernández-Pato’s research focuses on Computational Fluid Mechanics, particularly the application of Shallow Water Equations to hydrological and hydraulic processes. His work emphasizes numerical modeling, including Finite Volume methods, for simulating transient hydraulic phenomena such as rainfall-runoff processes, overland flow, and pipe network dynamics. He has developed advanced simulation tools for 2D shallow water flows, integrating infiltration models and pollutant transport. Javier’s research also explores GPU-based computational techniques to enhance the efficiency of hydraulic models. His contributions extend to erosion simulation, flood modeling, and the coupling of overland flow with drainage networks. By bridging theoretical and applied research, Javier’s work addresses critical challenges in environmental fluid mechanics, hydrology, and water resources management. His innovative approaches have been published in leading journals, making significant strides in the field.

Publication Top Notes 📚

  1. 🌧️ “Rainfall/runoff simulation with 2D full shallow water equations: Sensitivity analysis and calibration of infiltration parameters” (2016)
  2. 🌊 “The shallow water equations and their application to realistic cases” (2019)
  3. 💧 “Performance assessment of 2D Zero-Inertia and Shallow Water models for simulating rainfall-runoff processes” (2020)
  4. 🌀 “2D zero-inertia model for solution of overland flow problems in flexible meshes” (2016)
  5. � “Cellular automata and finite volume solvers converge for 2D shallow flow modelling for hydrological modelling” (2018)
  6. 🖥️ “Implicit finite volume simulation of 2D shallow water flows in flexible meshes” (2018)
  7. 🌍 “Towards transient experimental water surfaces: A new benchmark dataset for 2D shallow water solvers” (2018)
  8. 🏙️ “An efficient GPU implementation of a coupled overland-sewer hydraulic model with pollutant transport” (2021)
  9. 🛠️ “Development of a new simulation tool coupling a 2D finite volume overland flow model and a drainage network model” (2018)
  10. 🏔️ “A 2D finite volume simulation tool to enable the assessment of combined hydrological and morphodynamical processes in mountain catchments” (2020)
  11. 🌱 “A fractional-order infiltration model to improve the simulation of rainfall/runoff in combination with a 2D shallow water model” (2018)
  12. 🏞️ “Application of a distributed 2D overland flow model for rainfall/runoff and erosion simulation in a Mediterranean watershed” (2018)
  13. 🚰 “A pipe network simulation model with dynamic transition between free surface and pressurized flow” (2014)
  14. 🌡️ “A GPU-based 2D shallow water quality model” (2020)
  15. 💦 “Finite volume simulation of unsteady water pipe flow” (2014)
  16. 📘 “Finite volume models and efficient simulation tools (EST) for shallow flows” (2022)
  17. 🔥 “A GPU-based 2D viscous flow model with variable density and heat exchange” (2023)
  18. 🏞️ “Non-equilibrium bedload transport model applied to erosive overtopping dambreach” (2023)
  19. 🌊 “2d numerical simulation of floods in ebro river and analysis of boundary conditions to model the mequinenza reservoir dam” (2023)
  20. 🏙️ “Simulación de avenidas mediante un modelo hidráulico/hidrológico distribuido en un tramo urbano del río Ginel (Fuentes de Ebro)” (2019)

Conclusion 🎯

Javier Fernández-Pato is a distinguished researcher and educator with a strong focus on Computational Fluid Mechanics and Hydrology. His academic achievements, professional experience, and numerous awards highlight his expertise in numerical modeling and hydraulic simulations. Through his innovative research and publications, Javier has made significant contributions to understanding and solving complex hydrological challenges. His work bridges theory and practice, advancing the field of environmental fluid mechanics and water resources management.

Zhenlin Chen | Environmental Modeling | Best Researcher Award

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Mr. Zhenlin Chen | Environmental Modeling | Best Researcher Award

Zhenlin (Richard) Chen is a Ph.D. candidate in Energy Science Engineering at Stanford University, where his research focuses on energy systems, environmental sustainability, and advanced methane detection technologies. With a background in Environmental Science and Information Science, Zhenlin’s work bridges energy, technology, and policy. He has contributed to numerous publications and collaborations, often focusing on leveraging data-driven models and advanced monitoring technologies to address environmental challenges. Passionate about climate action, Zhenlin combines his technical expertise with a commitment to advancing sustainability practices in the energy sector.

Profile

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Education

Zhenlin (Richard) Chen is pursuing a Ph.D. in Energy Science Engineering at Stanford University, having previously completed an M.S. in Civil and Environmental Engineering. He also holds a Master of Professional Studies (M.P.S.) in Information Science and a Bachelor of Science (B.S.) in Environment and Sustainability from Cornell University. Zhenlin’s academic journey includes a series of honors and a strong GPA (3.74/4.0). Relevant coursework includes life cycle assessment, applied mathematics, and energy systems fundamentals, laying the foundation for his interdisciplinary research in energy science and sustainability.

Experience

Zhenlin’s experience spans academia, research, and industry. As a research associate at Stanford’s Environmental Assessment and Optimization Group, he contributed to methane monitoring technologies and collaborated with various stakeholders, including industry leaders. His work involved experimental design, data collection, and the use of machine learning for data analysis. Additionally, Zhenlin’s internship at MioTech focused on ESG data analysis, and he co-founded Young Sustainable Impact in Greater China, where he led a team to tackle sustainability challenges and foster innovation.

Research Focus

Zhenlin’s research focuses on advancing technologies for environmental monitoring, specifically methane emissions, and energy sector optimization. At Stanford, he develops frameworks using large language models (LLMs) for key data extraction, aiming to improve environmental data accessibility for climate modeling. He also works on optimizing methane detection technologies and analyzing energy systems. Zhenlin’s interdisciplinary approach blends environmental science, machine learning, and policy to drive innovations in energy sustainability and greenhouse gas mitigation.

Publication Top Notes

  • Comparing Continuous Methane Monitoring Technologies for High-Volume Emissions 📄
  • Technological Maturity of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation 🌍
  • Evaluating the Sustainable Development Goals within Spatial Planning for Decision-Making 🏙️
  • Single-Blind Test of Nine Methane-Sensing Satellite Systems 🛰️
  • Comprehensive Evaluation of Aircraft-Based Methane Sensing for Greenhouse Gas Mitigation 🌎
  • AI-Driven Environmental Data Extraction for Energy Sector Assessment 🤖

 

Shahid Mumtaz | Wireless Communication | Best Researcher Award

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Prof. Dr Shahid Mumtaz | Wireless Communication | Best Researcher Award

Professor, Nottingham Trent Univeristy, Portugal

Shahid Mumtaz is a renowned innovator and strategist with over 15 years of experience in wireless communication, academia, and industry. He holds a PhD in Electrical & Electronic Engineering from the University of Aveiro, Portugal, and a Master’s from Blekinge Institute of Technology, Sweden. A Full Professor at Nottingham Trent University (NTU), UK, he is also a Board Member of the SWFIT Center, a €15M innovation hub. Dr. Mumtaz is an IET Fellow, IEEE ComSoc Distinguished Speaker, and recipient of the IEEE ComSoC Young Researcher Award. He has authored 4 books, 12 book chapters, and 300+ technical papers, with over 12,000 citations and an h-index of 60. His expertise spans 5G/6G, AI/ML, Quantum Communication, and IoT. He has secured €10M in funding, contributed to IEEE and 3GPP standards, and holds 4 patents. Dr. Mumtaz is a global leader in transitioning cutting-edge research into practical solutions for the wireless industry.

Professional Profile

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Scopus

Education 🎓

  • 2011: PhD in Electrical & Electronic Engineering, University of Aveiro, Portugal.
  • 2006: Master’s in Electrical Engineering, Blekinge Institute of Technology, Sweden.
  • 2002-2003: System Engineer training at Pak Telecom.
  • 2005-2006: Research Intern at Ericsson and Huawei Research Labs, Sweden.

Dr. Mumtaz’s academic journey reflects a strong foundation in wireless communication and engineering, complemented by hands-on industry experience. His PhD and Master’s research laid the groundwork for his contributions to 5G/6G technologies, AI/ML applications, and quantum communication. His education and early career roles at Ericsson and Huawei equipped him with the skills to bridge academic research and industrial innovation, making him a leading figure in the wireless communication domain.

Experience 💼

  • 2022-Present: Full Professor, Nottingham Trent University (NTU), UK.
  • 2020-2023: Principal Researcher, Instituto de Telecomunicações, Aveiro, Portugal.
  • 2021-2022: Patent Analyst, Sisvel Group, Italy.
  • 2020-2021: Senior 5G/6G Consultant, InterDigital, USA.
  • 2019-2020: Senior 5G/6G Consultant, Huawei, Sweden.
  • 2005-2006: Research Intern, Ericsson, Sweden.

Dr. Mumtaz has held key roles in academia and industry, driving innovation in wireless communication. As a Full Professor at NTU, he leads research in 5G/6G, AI/ML, and IoT. His consultancy roles at Huawei and InterDigital involved contributing to RAN1/RAN2 standards. He has also worked as a Patent Analyst, evaluating cutting-edge technologies. His multidisciplinary experience spans research, standardization, and technology transfer, making him a pivotal figure in the evolution of wireless networks.

Awards and Honors 🏅

  • IEEE ComSoC Young Researcher Award: Recognized for outstanding contributions to wireless communication.
  • IET Fellow: Elected for exceptional achievements in engineering and technology.
  • IEEE ComSoc/VTS Distinguished Speaker: Acknowledged for thought leadership in wireless technologies.
  • Alain Bensoussan Fellowship (2012): Awarded for excellence in research and innovation.
  • NSFC Visiting Researcher Fund (2017): Granted by China for contributions to young scientists.
  • 2 IEEE Best Paper Awards: For groundbreaking research in mobile communications.
  • 4 Patents: For innovative wireless communication technologies.
  • Board Member, SWFIT Center: Leading a €15M innovation hub at NTU.

Dr. Mumtaz’s accolades reflect his global impact on wireless communication, standardization, and innovation. His work has influenced IEEE and 3GPP standards, earning him recognition as a leader in the field.

Research Focus 🔍

Dr. Mumtaz’s research focuses on 5G/6G wireless technologies, leveraging AI/ML and Digital Twin tools to drive innovation. His work spans:

  • Quantum Communication: Founding EiC of IET Journal of Quantum Communication.
  • AI/ML in Wireless Networks: Developing intelligent communication systems.
  • IoT and Smart Connectivity: Addressing industrial IoT challenges.
  • Terahertz Communication: Enabling ultra-fast networks for beyond-5G.
  • Green Communication: Vice-Chair of IEEE ComSoc Green Communications.
  • Standardization: Contributing to IEEE P1932.1 and 3GPP standards.

His research integrates theoretical models with practical applications, transitioning ideas from academia to industry. He has secured €10M in funding, published 300+ papers, and supervised numerous PhD and Master’s students. Dr. Mumtaz’s work is shaping the future of wireless communication, with a focus on sustainability, efficiency, and innovation.

Publication Top Notes📚

  1. Millimeter wave communications for future mobile networks.
  2. A survey on hybrid beamforming techniques in 5G.
  3. Millimeter-wave massive MIMO communication for future wireless systems.
  4. 5G D2D networks: Techniques, challenges, and future prospects.
  5. Survey on the internet of vehicles: Network architectures and applications.
  6. Massive Internet of Things for industrial applications.
  7. Computation resource allocation in vehicular fog computing.
  8. When Internet of Things meets blockchain.
  9. MmWave massive MIMO: a paradigm for 5G.
  10. A survey of 5G technologies: regulatory and industrial perspectives.
  11. When mobile crowd sensing meets UAV.
  12. Robust mobile crowd sensing: Deep learning meets edge computing.
  13. Learning-based context-aware resource allocation for IoT.
  14. Terahertz communication for vehicular networks.
  15. Emerging technologies for 5G-IoV networks.
  16. On indoor millimeter wave massive MIMO channels.
  17. Securing critical infrastructures: Deep-learning-based threat detection.
  18. Hardware impaired ambient backscatter NOMA systems.
  19. Attribute-based encryption for edge intelligent IoV.
  20. Terahertz-enabled wireless system for beyond-5G networks.

Conclusion 🌟

Dr. Shahid Mumtaz is a visionary leader in wireless communication, blending academic excellence with industrial innovation. His contributions to 5G/6G, AI/ML, and IoT have set new benchmarks in the field. With over 300 publications, 12,000 citations, and €10M in funding, his work has influenced global standards and inspired the next generation of researchers. Dr. Mumtaz’s dedication to bridging theory and practice ensures his continued impact on the future of wireless technologies. 🚀

Scott Bruce | Athletic Training | Best Researcher Award

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Prof. Dr. Scott Bruce | Athletic Training | Best Researcher Award

EdD, ATC, Arkansas State University, United States

Scott L. Bruce, Ed.D., ATC, is a dedicated academic and clinical educator in the field of athletic training. He currently serves as an Associate Professor and Clinical Education Coordinator at Arkansas State University. With over three decades of experience, Dr. Bruce has held multiple leadership positions, contributing significantly to athletic training education, research, and community service. He co-founded the Delta Concussion Project and has been actively involved in the Veterans’ Suicide Prevention Project. Throughout his career, Dr. Bruce has been a vocal advocate for the advancement of athletic training programs, leveraging his expertise to train and mentor the next generation of professionals in the field. He is also highly involved in continuing education, attending conferences, and presenting at various national events to share his knowledge and expertise.

Profile

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Education

Dr. Scott L. Bruce earned his Doctor of Education degree from the University of Tennessee at Chattanooga, specializing in Learning and Leadership. His dissertation, titled Prediction Modeling for Graduate Athletic Training Education Programs, underscores his deep interest in predictive analytics within the field. He also holds a Master of Science in Physical Education from Eastern Illinois University, where he concentrated on Sports Medicine, and a Bachelor of Science in Health and Physical Education from East Stroudsburg University, with an emphasis in Athletic Training. His extensive educational background and expertise in athletic training education have propelled him to significant leadership roles in various academic institutions. Dr. Bruce’s educational journey emphasizes the importance of evidence-based practice and research in developing effective athletic training programs.

Experience

Dr. Scott L. Bruce has a rich and diverse background in athletic training education and clinical practice. He has served in numerous academic roles, including Assistant Dean of Research and Associate Professor at Arkansas State University, where he currently directs the Master of Athletic Training Program. Previously, Dr. Bruce was an Assistant Professor at Wright State University and University of Tennessee at Chattanooga, where he contributed to developing athletic training programs and led research initiatives. He has also worked as an athletic trainer in various settings, from high schools to universities, and co-founded the Chattanooga Concussion Prevention Initiative and the Delta Concussion Project. His experience spans administrative, teaching, research, and community service roles, solidifying his expertise in both academic and clinical settings. He has mentored students in research and clinical practice while simultaneously advancing the field through his active involvement in professional organizations and continuing education.

Awards and Honors

Dr. Scott L. Bruce has received numerous prestigious awards throughout his career, reflecting his outstanding contributions to the field of athletic training. He was recognized with the “You Make a Difference” award in 2019 for his exceptional commitment to mentoring faculty and students. In 2014, he received the NATA Athletic Training Service Award for his voluntary contributions to the profession at the local and state levels. Dr. Bruce was honored with the Lindsey McLean Doctoral Scholarship in 2013, which recognized his leadership and research within athletic training. Furthermore, he was awarded the Jerry Robertson Educator of the Year Award by the Tennessee Athletic Trainers’ Society in 2013. In recognition of his dedication to the profession, Dr. Bruce also received a 25-Year Member Award from the National Athletic Trainers’ Association in 2007, and recognition from the Pennsylvania Athletic Trainers’ Society in 2006 for his outstanding contributions to the profession.

Research Focus

Dr. Scott L. Bruce’s research focuses on predictive modeling in athletic training education, concussion management, and the development of evidence-based practices for athletic training programs. His dissertation on predicting success in graduate athletic training programs provides insights into optimizing educational approaches. Dr. Bruce has published influential articles on concussion management, including the National Athletic Trainers’ Association (NATA) position statements. His research also explores innovative methods in injury prevention, including the use of wearable technology for injury prediction. Dr. Bruce has a strong interest in improving athletic training practices through evidence-based interventions, with a particular focus on neurocognitive assessments and therapeutic rehabilitation. His research aims to bridge gaps between clinical practice and academic training, ensuring that athletic trainers are equipped with the most effective tools for diagnosing, treating, and preventing sports-related injuries. Dr. Bruce remains committed to advancing both the scientific and practical aspects of athletic training.

Publication Top Notes

  • National Athletic Trainers’ Association position statement: management of sport-related concussion ⚽🏀
  • Predicting Sports Injuries with Wearable Technology and Data Analysis 📱🤕
  • Research-based recommendations on management of sport-related concussion: summary of the NATA position statement 🧠🏃
  • Recommendations on management of sport-related concussion: summary of the NATA position statement 🏅🎓
  • Prediction modeling for academic success in professional master’s athletic training programs 📊🎓
  • Cubital tunnel syndrome in a collegiate wrestler: a case report 💪🤼
  • Clinical prediction rules, part 1: Conceptual overview 📚🔍
  • Test-retest and interrater reliability of core muscular endurance tests used for injury risk screening 🏋️‍♂️✅
  • Improving proprioception and neuromuscular control following lower extremity injury 🦵🦵
  • Prediction modeling for Board of Certification exam success for a professional master’s athletic training program 📈🎓
  • Effect of therapeutic tape on upper extremity reaction time 🏃‍♂️⏱
  • Posturing Responses in Concussions in Elite Football Players 🏈⚡
  • Survey Return Rates for Athletic Trainers 📊📝
  • Whole-Body Reactive Agility Metrics to Identify Football Players with a Core and Lower Extremity Injury Risk 🏃‍♂️⚡
  • Taking Concussion Vital Signs Neurocognitive Test under Varied Conditions 🧠📋

 

 

Ahmed Mostafa Shaaban | Acoustics | Best Researcher Award

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Dr Ahmed Mostafa Shaaban | Acoustics | Best Researcher Award

Scientific Staff, Technical University of Munich, Germany

Ahmed Mostafa Shaaban is a distinguished researcher and structural engineer specializing in computational mechanics, boundary element methods, and isogeometric analysis. He holds a Ph.D. from Bauhaus-Universität Weimar, Germany, and has extensive experience in structural analysis, optimization, and acoustic modeling. Currently, he is a postdoctoral researcher at the Technical University of Munich, supported by the German Research Foundation (DFG). His work bridges academia and industry, with contributions to high-impact journals and international conferences. Ahmed is also an educator, mentoring bachelor, master, and Ph.D. students while advancing research in vibroacoustics and structural optimization.

Professional Profile

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Education 🎓

Ahmed earned his Ph.D. in Structural Mechanics from Bauhaus-Universität Weimar, Germany (2017–2022), focusing on isogeometric boundary element analysis for Helmholtz acoustic problems. He completed pre-Ph.D. courses at Cairo University, Egypt (2014–2017), with a GPA of 3.7/4. He holds an M.Sc. in Civil Engineering from Cairo University (2007–2012), specializing in boundary element analysis, and a B.Sc. in Civil Engineering (2002–2007) with a “Very Good” grade. His academic journey reflects a strong foundation in computational mechanics and structural engineering.

Experience 💼

Ahmed has held multiple roles, including postdoctoral positions at Bauhaus-Universität Weimar (2022–2023) and TU Munich (2024–present). He worked as a structural engineer at Edelstahl Weimar GmbH (2018–2023), specializing in stainless-steel structures. As a research assistant at Bauhaus-Universität Weimar (2017–2022) and TU Freiberg (2021–2022), he contributed to noise control and acoustic projects. Earlier, he gained practical experience as a civil engineer in Egypt, working on construction supervision and master planning.

Awards and Honors 🏆

Ahmed’s academic excellence is highlighted by his Ph.D. grade, Magna cum Laude (Very Good). He is currently supported by the prestigious Walter Benjamin Fellowship from the German Research Foundation (DFG). His research has been published in high-impact journals, and he has presented at international conferences, earning recognition for his contributions to computational mechanics and acoustic optimization.

Research Focus 🔍

Ahmed’s research focuses on computational mechanics, boundary element methods, and isogeometric analysis. He specializes in structural shape optimization for Helmholtz acoustic problems, vibroacoustics, and noise control. His work integrates numerical modeling, optimization algorithms, and advanced computational tools like Python, MATLAB, and ANSYS to solve complex engineering challenges in acoustics and structural mechanics.

Publication Top Notes 📚

  1. 3D isogeometric boundary element analysis and structural shape optimization for Helmholtz acoustic scattering problems
  2. Shape optimization by conventional and extended isogeometric boundary element method with PSO for 2D Helmholtz acoustic problems
  3. Isogeometric boundary element analysis and shape optimization by PSO for 3D axi-symmetric high-frequency Helmholtz acoustic problems
  4. An isogeometric Burton-Miller method for transmission loss optimization with application to mufflers with internal extended tubes
  5. A coupled BEM-stiffness matrix approach for analysis of shear deformable plates on elastic half space
  6. Isogeometric indirect BEM solution based on virtual continuous sources for 2D Helmholtz acoustic problems
  7. Numerical investigations with eXtended isogeometric boundary element analysis (XIBEM) for direct and inverse Helmholtz acoustic problems
  8. Adaptive shape optimization with NURBS designs and PHT-splines for solution approximation in time-harmonic acoustics
  9. A review article: isogeometric boundary element analysis in engineering applications
  10. 3D isogeometric indirect BEM solution based on virtual surface sources for Helmholtz acoustic problems
  11. Shape optimization with adaptive Geometry Independent Field approximaTion (GIFT) in 3D time-harmonic acoustics
  12. Isogeometric boundary element analysis for thermoviscous acoustics
  13. Shape optimization analysis for 3D acoustic problems using isogeometric boundary element methods
  14. Shape Optimization for Acoustic Problems using Boundary Element Method and Isogeometric Analysis
  15. Two Applications of Isogeometric Boundary Element Method for Axisymmetric Singular Helmholtz Acoustic Problems
  16. Isogeometric boundary element analysis and structural shape optimization for Helmholtz acoustic problems

Conclusion 🌟

Ahmed Mostafa Shaaban is a highly accomplished researcher and engineer with expertise in computational mechanics, boundary element methods, and acoustic optimization. His academic achievements, industry experience, and contributions to high-impact research make him a valuable asset to the field of structural and acoustic engineering. His ongoing work at TU Munich continues to push the boundaries of vibroacoustics and structural optimization, supported by prestigious funding and international collaborations.

Saad Khan | Transportation Engineering | Best Researcher Award

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Mr. Saad Khan | Transportation Engineering | Best Researcher Award

Ph.D Scholar at Tongji University, china

Saad Khan is a dedicated transportation engineer with a strong academic background and professional experience in road design, construction supervision, and environmental impact assessments. His research primarily focuses on enhancing pavement performance through innovative materials like rubberized asphalt and polymer-modified bitumen. With expertise in drone surveying, pavement evaluation, and transportation planning, he contributes to infrastructure development projects in Pakistan and abroad. His commitment to research and practical applications makes him a valuable asset in the field of transportation engineering.

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Education

Saad Khan is currently pursuing a Ph.D. in Transportation Engineering at Tongji University, Shanghai, China. His doctoral research focuses on improving the compatibility and performance of rubberized asphalt through crumb rubber pretreatment. Previously, he completed his Master of Science in Transportation Engineering (2019-2022) from the National University of Sciences and Technology, Islamabad, Pakistan, where his thesis investigated the effects of low-density polyethylene (LDPE) bags on asphalt mix properties. His undergraduate degree, a Bachelor of Civil Engineering (2015-2019), was obtained from the University of Engineering and Technology, Peshawar, Pakistan. His academic journey began with a pre-engineering qualification (FSc.) from Degree College No. 2, Bannu, Pakistan.

Experience

Saad Khan has amassed significant professional experience in both engineering and academia. He is currently working as a Trainee Design Engineer at the National Highway Authority, where he contributes to the feasibility study, design, and construction supervision of major road infrastructure projects in Pakistan. His expertise includes tunnel alignment, avalanche protection structures, and digital surface modeling through drone surveys. Previously, he worked as an Operation and Maintenance Engineer at Water and Sanitation Services Company, Bannu, where he oversaw city water supply operations, tube well maintenance, and pipeline rehabilitation. Additionally, he spent two years teaching English at Islamabad Grammar School, enhancing his communication and analytical skills.

Research Interests

Saad Khan’s research is centered on sustainable and high-performance pavement materials. His interests include rubberized asphalt technology, polymer-modified asphalt, pavement rehabilitation strategies, and transportation infrastructure resilience. His work contributes to improving road durability, environmental sustainability, and cost-effective solutions for highway construction and maintenance.

Awards

While his resume does not explicitly mention awards, his contributions to transportation engineering through research and practical applications highlight his expertise and commitment to excellence in the field.

Publication Top Notes

Khan, S. (2023). Effect of Adding LDPE Bags on Rutting and Stripping Behavior of Asphalt Mix. Jordan Journal of Civil Engineering, Volume 17, No.2. (Cited by multiple studies in asphalt pavement research).

Khan, S., & Co-authors. (2022). Performance Evaluation of Modified Bitumen for Sustainable Pavement Design. International Journal of Transportation Science and Technology.

Khan, S. (2021). Feasibility of Crumb Rubber in Hot Mix Asphalt. Journal of Transportation and Pavement Engineering.

Khan, S. (2020). Investigation of Subgrade Soil Properties in Khyber Pakhtunkhwa for Road Construction. Pakistan Journal of Civil Engineering Research.

Khan, S. (2019). Role of Recycled Plastics in Pavement Durability. International Journal of Road Materials and Pavement Design.

Conclusion

Saad Khan’s academic excellence, impactful research, extensive practical experience, and leadership in the field of transportation engineering make him an ideal candidate for the Research for Best Researcher Award. His contributions to sustainable road construction and pavement material innovation reflect a commitment to advancing engineering knowledge and benefiting society.

 

Zhang Xihua | Environmental Engineering | Best Researcher Award

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Assoc. Prof. Dr Zhang Xihua | Environmental Engineering | Best Researcher Award

Associate Professor at Shanghai Polytechnic University, china

Dr. Xihua Zhang is a distinguished researcher affiliated with Shanghai Polytechnic University. With an extensive background in materials science and environmental engineering, Dr. Zhang has significantly contributed to the field of lithium-ion battery recycling and sustainable resource management. His research has been instrumental in advancing mechanochemical methods for metal recovery, selective lithium extraction, and sustainable recycling practices. Over the years, he has published numerous high-impact journal articles, demonstrating his expertise and commitment to addressing critical challenges in resource sustainability.

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Education

Dr. Zhang has a strong academic foundation in materials science and environmental technology. His educational background has equipped him with advanced knowledge in chemical engineering, sustainable material processing, and waste management, which have been pivotal in shaping his research career. Throughout his academic journey, he has developed expertise in mechanochemical and hydrometallurgical processes, focusing on enhancing the efficiency of metal extraction from spent lithium-ion batteries.

Experience

With years of experience in academia and research, Dr. Zhang has collaborated with several leading institutions and experts in the field. His work spans interdisciplinary domains, including energy storage materials, circular economy practices, and green chemistry. He has served as a reviewer for multiple high-impact journals and has contributed to the development of innovative recycling technologies. His research findings have been widely cited, reflecting his influence in advancing environmentally friendly metal recovery processes.

Research Interests

Dr. Zhang’s research interests primarily focus on sustainable materials processing and recycling technologies. His work includes mechanochemical methods for extracting valuable metals from spent lithium-ion batteries, selective recovery of lithium, and environmentally friendly leaching processes. He is also interested in exploring the role of nickel recycling in new energy vehicle industries and the optimization of closed-loop battery recycling methods. His contributions aim to enhance the efficiency and sustainability of battery recycling to support the growing demand for energy storage materials.

Awards

Dr. Zhang has been recognized for his contributions to battery recycling and sustainable resource management. His research has received accolades from academic and industrial communities, reflecting the significance of his work in advancing environmental sustainability. His awards and honors highlight his dedication to pioneering innovative and efficient recycling techniques that align with global efforts to minimize electronic waste and promote a circular economy.

Publication Top Notes

“Mechanism and technological method of leaching metals from waste lithium-ion batteries by synergistic action of natural organic reductants and mechanochemical method” – Published in Separation and Purification Technology, Jan 2025. (Cited: 1)

“Material flow analysis on the critical resources from spent power lithium-ion batteries under the framework of China’s recycling policies” – Published in Waste Management, Nov 2023. (Cited: 6)

“A mechanochemical method for one-step leaching of metals from spent LIBs” – Published in Waste Management, Apr 2023. (Cited: 12)

“Recovery of Li and Co from Spent Li-Ion Batteries by Mechanochemical Integration with NH4Cl” – Published in ACS Sustainable Chemistry & Engineering, May 2022. (Cited: 11)

“Selective Recovery of Lithium from Spent Lithium-ion Batteries Synergized by Carbon and Sulfur Elements” – Published in Acta Chimica Sinica, Aug 2021. (Cited: 5)

“The role of nickel recycling from nickel-bearing batteries on alleviating demand-supply gap in China’s industry of new energy vehicles” – Published in Resources, Conservation and Recycling, Jul 2021. (Cited: 36)

“Recycling of LiNi1/3Co1/3Mn1/3O2 cathode materials from spent lithium-ion batteries using mechanochemical activation and solid-state sintering” – Published in Waste Management, Feb 2019. (Cited: 144)

Conclusion

With a strong publication record, high citation impact, and groundbreaking research in sustainable battery recycling, Dr. Xihua Zhang is a highly deserving candidate for the Best Researcher Award. His work not only advances scientific knowledge but also plays a pivotal role in promoting sustainable and environmentally responsible practices in energy storage and recycling industries

Iwona ewa Zawieja | Waste management | Best Researcher Award

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Assoc. Prof. Dr. Iwona ewa Zawieja | Waste management | Best Researcher Award

Associate professor at Czestochowa University of Technology, Poland

Iwona Zawieja is a distinguished professor at the Częstochowa University of Technology, Poland, specializing in environmental engineering. She earned her postdoctoral degree in 2016 with a thesis titled “Conventional and Hybrid Methods of Disintegration of Excess Sludge.” With over two decades of experience, she has made significant contributions to the fields of sewage treatment, sludge disposal, and biogas production. Her research focuses on innovative methods for sludge disintegration, biodegradation, and the removal of micropollutants from wastewater. She is an active member of the Faculty of Infrastructure and Environment, where she continues to advance sustainable environmental practices.

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Education 🎓

Iwona Zawieja completed her Master of Science in Engineering and Environmental Protection at the Częstochowa University of Technology in 2000. She earned her doctorate in 2006 and her postdoctoral degree in 2016, both from the same institution. Her academic journey has been marked by a deep commitment to advancing environmental engineering, particularly in the areas of sewage treatment and sludge management.

Experience 💼

Since October 2000, Iwona Zawieja has been a professor at the Częstochowa University of Technology. She has held various roles within the Faculty of Infrastructure and Environment, focusing on research and teaching in environmental engineering. Her expertise spans conventional and hybrid sludge disintegration methods, biogas production, and the removal of micropollutants from wastewater. She has also been involved in numerous research projects and collaborations, contributing to the advancement of sustainable environmental practices.

Awards and Honors 🏆

Iwona Zawieja has received recognition for her contributions to environmental engineering, including awards for her research on sludge disintegration and biogas production. Her work has been published in numerous high-impact journals, and she has been invited to speak at international conferences. Her dedication to advancing sustainable environmental practices has earned her a respected position in the academic community.

Research Focus 🔬

Iwona Zawieja’s research focuses on the treatment and disposal of sewage sludge, with an emphasis on disintegration and biodegradation processes. She explores the use of conventional and hybrid methods to enhance sludge treatment efficiency and biogas production. Her work also addresses the removal of micropollutants from wastewater and the potential of biomass as a source of energy and raw materials. Her research aims to develop sustainable solutions for environmental challenges.

Publication Top Notes 📚

  1. Influence of Ultrasonic Field Parameters on the Biochemical Activity of Leachates from the Composting Process
  2. Methane Fermentation of the Excess Sludge Sonicated and Oxidized with Fenton’s Reagent
  3. Biogas Production from Excess Sludge Oxidized with Peracetic Acid (PAA)
  4. Comparison of microbial activity of selected biopreparations and leachates for composting
  5. Effect of physical and chemical disintegration of excess sludge on the susceptibility to biodegradation
  6. The Use of Chemical Methods and Magnetic Field in Conditioning and Dewatering of Digested Sewage Sludge
  7. Biogas production in the methane fermentation of excess sludge oxidized with Fenton’s reagent
  8. Disintegrating Influence of Sonication on the Excess Sludge Liquification and their Microbiological Indicator
  9. Effect of thermal and alkaline disintegration of excess sludge on biodegradation
  10. Enhanced sludge degradation process using a microbial electrolysis cell
  11. The course of the methane fermentation process of dry ice modified excess sludge
  12. Biogas Generation from Sonicated Excess Sludge
  13. Effect of Dry Ice Modification of Excess Sludge on the Methane Fermentation Process
  14. Effect of hydrogen peroxide on nitrogen forms in sewage sludge subjected to the anaerobic stabilization
  15. Energy potential of the modified excess sludge
  16. Impact of the excess sludge modification with selected chemical reagents on the increase of dissolved organic substances concentration compounds transformations in activated sludge
  17. Characteristics of Excess Sludge Subjected to Disintegration
  18. Determination of Ketoprofen and Diclofenac Ultrasonic Removal from Aqueous Solutions
  19. Efektywność generowania lotnych kwasów tłuszczowych podczas mezofilowej i termofilowej fermentacji metanowej osadów nadmiernych
  20. Nowoczesne technologie doczyszczania ścieków i wód pitnych
  21. The Impact of Excess Sludge Disintegration on the Changes of Total Organic Carbon Value
  22. Wpływ dezintegracji osadów nadmiernych na zmiany wartości całkowitego węgla organicznego (OWO)
  23. Influence of Ultrasonic Pretreatment on Anaerobic Digestion of Excess Sludge from the Food Industry
  24. Konwencjonalne oraz hybrydowe metody dezintegracji osadów nadmiernych
  25. Susceptibility of conditioned excess sewage sludge to biodegradation and dewatering
  26. Ultrasonic Processors and Drainage of Sewage Sludge
  27. Effect of peracetic acid disintegration on the acceleration of hydrolysis process
  28. Generowanie biogazu z osadów ściekowych poddanych dezintegracji metodą hybrydową
  29. Hybrid conditioning before anaerobic digestion for the improvement of sewage sludge dewatering
  30. Ultrasonic aiding of selected pharmaceuticals removal from wastewater
  31. Wpływ stopnia dezintegracji osadów ściekowych poddanych alkalicznej modyfikacji na wartość jednostkowej produkcji biogazu
  32. Analiza parametrów reologicznych wstępnie kondycjonowanych osadów ściekowych poddanych fermentacji
  33. Effect of Chemical-thermal Modification of Excess Sludge on the Volatile Fatty Acids Generation During Methane Fermentation Process
  34. Effect of hybrid method of excess sludge disintegration on the increase of their biodegradability
  35. Od osadu do biogazu
  36. Potencjalne możliwości przeróbki osadów nadmiernych powstających w ciągu technologicznym komunalnej oczyszczalni ścieków
  37. Ultrasonic Disintegration of Sewage Sludge to Increase Biogas Generation
  38. Wpływ chemiczno-termicznej modyfikacji osadów nadmiernych na generowanie lotnych kwasów tłuszczowych w procesie fermentacji metanowej
  39. Effect of thermal disintegration of excess sludge on the effectiveness of hydrolysis process in anaerobic stabilization
  40. Effect of ultrasound field on dewatering of sewage sludge
  41. Effect of sonicator power on the biodegradability of sewage sludge
  42. Effect of the joule heat-based WG-12 active carbon modification process on the sorption of Cr(III)

Conclusion 🌟

Iwona Zawieja is a leading figure in environmental engineering, with a career dedicated to advancing sustainable practices in sewage treatment and sludge management. Her extensive research, numerous publications, and commitment to education have made significant contributions to the field. Her work continues to inspire and drive innovation in environmental engineering, paving the way for a more sustainable future.