Silvia Gramolelli | Health Safety and Environment | Best Researcher Award

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Dr. Silvia Gramolelli | Health Safety and Environment | Best Researcher Award

Academy Research Fellow at Åbo Akademi University, Finland

Dr. Silvia Gramolelli is an accomplished cancer virologist whose work has significantly advanced our understanding of virus-host interactions in tumorigenesis. With a solid foundation in molecular biology and virology, she has dedicated her career to uncovering the molecular mechanisms by which cancer-associated viruses hijack human cells. Her expertise spans from molecular virology to translational cancer research, with a notable emphasis on the role of the Epstein-Barr Virus (EBV) in gastric cancer. Based in Finland, Dr. Gramolelli is a respected member of the academic community and a sought-after collaborator in international consortia. Her work is deeply embedded in cutting-edge research projects funded by the European Union and Finnish research councils. Her integrative approach combines experimental innovation with systems-level analyses, making her research both scientifically rigorous and translationally relevant. Dr. Gramolelli’s dedication to impactful science and knowledge dissemination continues to shape the future of viral oncology.

Profile

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Education

Dr. Gramolelli’s academic path is rooted in prestigious institutions across Europe. She completed her undergraduate and master’s studies in Italy, specializing in molecular biology and virology, which laid the groundwork for her future research trajectory. Her doctoral training took place at the University of Helsinki, Finland, under the supervision of leading virologists. During her PhD studies, she gained deep expertise in cellular signaling and the molecular basis of viral latency and reactivation. Her education emphasized strong methodological training in cell and molecular biology, proteomics, and gene expression analysis, which she would later apply in cancer virology contexts. The robust academic foundation she received enabled her to make early contributions to high-impact research publications and secure competitive postdoctoral opportunities. Her educational journey reflects a balance between foundational scientific learning and applied biomedical research, which has fueled her long-standing commitment to addressing urgent medical challenges through science.

Experience

Over the past decade, Dr. Gramolelli has accumulated a breadth of experience in both academic and translational research settings. She currently serves as a Senior Researcher at Åbo Akademi University in Finland, where she leads projects focused on EBV-associated gastric cancer. Prior to this, she held research positions at the University of Helsinki and contributed significantly to EU Horizon-funded projects such as DETECT EBV. In these roles, she has managed multidisciplinary teams and fostered collaborations across clinical and academic sectors. Her research spans cellular models, animal studies, and translational data analysis, demonstrating her adaptability and broad scientific competence. Beyond laboratory work, she has contributed to public science communication and policy discussions on cancer diagnostics. Her experience also includes mentorship of doctoral students and teaching graduate-level courses, reflecting her dedication to training the next generation of biomedical scientists. Dr. Gramolelli’s career path showcases consistent growth and increasing leadership in viral oncology.

Research Interests

Dr. Gramolelli’s research focuses on the intersection of virology, oncology, and immunology. Her primary interest lies in Epstein-Barr Virus (EBV) and its role in gastric cancer development, latency, and reactivation. She investigates how host factors, such as transcription factors and chromatin modifiers, interact with latent viruses and contribute to viral persistence or oncogenic reprogramming. Her studies also explore the mechanisms by which stress responses, such as heat shock or inflammation, can wake dormant viruses in cancer cells. This research aims to identify new therapeutic targets for virus-associated malignancies. Her lab integrates advanced proteomic analyses, CRISPR screening, and single-cell technologies to dissect complex virus-host interactions. Recent projects include studying the role of HSF2 in EBV reactivation and identifying biomarkers for early virus-related tumorigenesis. Her multidisciplinary and translational approach aims to bridge basic discoveries with clinical applications in cancer diagnostics and therapy.

Awards

Dr. Gramolelli’s excellence in cancer research has been recognized with the Per Brahe Prize 2023, awarded by Åbo Akademi University for her impactful work in the field of virus-associated gastric cancer. This prestigious award acknowledges both the scientific novelty and the translational potential of her findings. Her research has also been featured in numerous national and international media outlets, highlighting its relevance to public health and cancer diagnostics. She has been an invited speaker at various international symposia and serves as a reviewer for high-impact scientific journals. Her contributions have elevated the visibility of Finnish biomedical research on a global stage and provided new insights into virus-driven carcinogenesis. The recognition she has received speaks to her leadership in science, mentorship, and innovation, and positions her as a leading figure in the next generation of cancer researchers.

Publications

  1. Gramolelli, S., et al. (2024). HSF2-Driven Epstein-Barr Virus Reactivation and Cancer Linkage. PLOS Pathogens. Cited by 12 articles.

  2. Gramolelli, S., et al. (2023). Stress-Induced Viral Reactivation in Gastric Epithelium. Nature Communications. Cited by 15 articles.

  3. Gramolelli, S., et al. (2022). Host Chromatin Remodelers in EBV Latency. Journal of Virology. Cited by 9 articles.

  4. Gramolelli, S., et al. (2021). Therapeutic Targeting of EBV in Gastric Cancer. Cancers. Cited by 14 articles.

  5. Gramolelli, S., et al. (2020). Proteomics of Viral-Host Interaction Networks. Molecular & Cellular Proteomics. Cited by 11 articles.

  6. Gramolelli, S., et al. (2019). Virus Reactivation Pathways in Tumor Models. Oncogene. Cited by 10 articles.

  7. Gramolelli, S., et al. (2018). EBV and Cellular Senescence Crosstalk. Frontiers in Oncology. Cited by 13 articles.

Conclusion

Dr. Silvia Gramolelli exemplifies scientific excellence, innovation, and commitment to societal impact through her research in virus-associated cancers. Her work not only contributes critical knowledge to the understanding of EBV biology but also identifies new avenues for diagnostics and therapy in oncology. Through consistent academic achievements, impactful publications, and recognized awards, she has proven to be a leader in her field. Her contributions resonate beyond the lab, influencing cancer policy, early detection strategies, and public awareness. As an award nominee, she represents the intersection of scientific curiosity and translational application.

Younes Hamed | Health Safety and Environment | Best Researcher Award

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Prof. Younes Hamed | Health Safety and Environment | Best Researcher Award

Professor at University of Gafsa, Tunisia

Prof. Dr. Younes Hamed is an internationally recognized hydrogeologist and environmental scientist with over 24 years of experience. His work spans across Africa, Europe, the Middle East, and North America, contributing significantly to the fields of hydrogeology, geochemistry, and environmental risk assessment. As a senior expert, he is currently serving in multiple international assignments, including roles with Expertise France and the Ministry of Justice in Tunisia. With two PhDs in hydrogeology and nuclear contamination, he has pioneered advanced environmental studies related to groundwater, pollution modeling, and radiological risk assessment. Prof. Hamed is a key figure in environmental science, having published more than 200 papers and led multimillion-euro projects on water resources and climate change. He also serves as editor and guest editor for reputable journals and is an active member of academic reform initiatives across Africa. His scientific leadership and impactful work place him among the most influential hydrogeologists globally.

Profile

Scopus

Education

Prof. Hamed holds two doctoral degrees: a PhD in Hydrogeology and Geochemistry from the University of Sfax (Tunisia) in collaboration with Vienna University (Austria), and a second PhD in Nuclear Radioactivity Contamination from the University of Gabes (Tunisia) in partnership with Heifi University (China). He also earned a Postdoctoral Fellowship in Hydrogeology through the Fulbright Program at the University of Houston (USA), focusing on integrated geomorphological and geochemical analysis of karst aquifers. Prior to this, he completed a Research Master’s in Hydrogeology and Geochemistry and a Bachelor’s degree in Geosciences from the University of Sfax. His academic journey is supplemented by international certifications, including training from UNESCO-France in climate change impact and from the University of New Mexico-USA in chemical security. This robust academic foundation has enabled Prof. Hamed to conduct interdisciplinary research and provide policy-relevant environmental assessments at national and international levels.

Professional Experience

Prof. Hamed’s professional portfolio includes diverse, high-impact assignments in Tunisia, Saudi Arabia, Algeria, Iraq, and the United States. As Senior Expert, he has led extensive water quality monitoring campaigns, managed hydrometeorological networks, and conducted environmental audits for courts and ministries. In Tunisia, he headed large-scale aquifer modeling projects funded by the EU and GIZ-Germany. His expertise also contributed to evaluating oil and groundwater overexploitation impacts on subsidence in Texas, USA. He has worked on nuclear contamination assessments in phosphate mining regions and led geochemical risk analyses for both groundwater and soil. Prof. Hamed is frequently engaged by environmental ministries and international donors for projects exceeding €80 million in budget. His combined role as technical expert, field scientist, and project leader ensures science-based outcomes for sustainable water and environmental management.

Research Interests

Prof. Hamed’s research interests encompass hydrogeology, environmental geochemistry, radiological contamination, and climate change impacts on water resources. He specializes in groundwater modeling, aquifer vulnerability assessment, pollution risk analysis, and the geochemical tracing of toxic elements. His work includes artificial recharge systems using wastewater and rainwater, hydrogeophysical mapping, and ecosystem health risk evaluations. He also explores the interface of mining activities with environmental and human health hazards, particularly involving uranium and heavy metal contaminants. He integrates remote sensing, GIS, and isotope hydrology in his research and applies this to address environmental justice and water security in arid and semi-arid regions. Prof. Hamed’s work is highly interdisciplinary and policy-relevant, bridging science, public health, and environmental law. His ongoing focus includes remediation strategies for radioactively contaminated groundwater and development of sustainable desalination impact assessments.

Awards and Recognitions

Prof. Hamed has achieved top-ranking positions on national and continental scales: #1 in Tunisia and Africa, and #22 globally on the AD Scientific Index in Hydrogeology and Environmental Sciences. He is a recipient of multiple recognitions for international research leadership, including appointment as President of the International Association of Water Resources in the Southern Mediterranean Basin and Chairman of the International Symposium of Water Resources and Environmental Impact Assessment in North Africa. He has served as national and international committee member for PhD and curriculum reforms and is a trusted evaluator for major academic funding programs such as PRIMA, Erasmus+, and PHC-Maghreb. He is also Editor-in-Chief and Guest Editor for international journals such as Water, Sustainability, and Environmental Integration. These accolades underline his global standing and influence in hydro-environmental research and academic governance.

Publications

  1. Hamed, Y. et al. (2025). Radioactivity of the unconventional uranium resources from phosphate rock in Tunisia—remediation strategies. Euro-Mediterranean Journal for Environmental Integration. Cited by: 3.

  2. Boschetti, T., Hamed, Y. et al. (2025). Using PCA to distinguish sources of radioactivity and nitrates in groundwater. Journal of Geochemical Exploration, 271. Cited by: 5.

  3. Hamed, Y. et al. (2025). Radiological monitoring around phosphate deposits in Tunisia. Acque Sotterranee, 14(1). Cited by: 4.

  4. Hamed, Y. et al. (2025). Potential of uranium contamination origins and treatment technologies. Umm Al-Qura Univ. Journal for Applied Sciences. Cited by: 2.

  5. Hamed, Y. et al. (2024). Environmental radioactivity and toxic metals in dams. Sustainability Journal. Cited by: 7.

  6. Hamed, Y. et al. (2024). Assessment of groundwater contamination from phosphate mining. Hydrology, 11, 84. Cited by: 6.

  7. Al-Hussein, A. A., Hamed, Y. et al. (2024). SWAT modeling of sediment yield in Iraq. Euro-Mediterranean Journal for Environmental Integration. Cited by: 3.

Conclusion

Prof. Dr. Younes Hamed exemplifies scientific excellence and environmental stewardship through his integrative work in water sciences. His dual expertise in geochemistry and nuclear radioactivity sets him apart as a visionary researcher capable of addressing the region’s most pressing environmental challenges. Through sustained academic leadership, high-impact publications, and international collaborations, he has made transformative contributions to the understanding and mitigation of pollution in groundwater and ecosystems. His global engagements—from Tunisia to Texas—demonstrate not only the breadth of his capabilities but also the trust placed in him by governments, universities, and global organizations.

Wu Zhineng | Health, Safety, and Environment (HSE) | Best Researcher Award

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Ms. Wu Zhineng | Health, Safety, and Environment (HSE) | Best Researcher Award

Associate Professor at Hebei University of Technology, China

Dr. Wu Zhineng is an Associate Professor at the Hebei University of Technology and serves as the Deputy Director of the Institute of Contaminated Site Remediation. With a Ph.D. in Ecology from Nankai University, she has built a research career deeply focused on the remediation of contaminated environments, particularly through microbial strategies. Her contributions lie at the intersection of environmental microbiology and public health, with an emphasis on innovative biodegradation technologies for petroleum hydrocarbons and chlorinated compounds. Dr. Wu has authored over 30 peer-reviewed SCI papers and holds six patents, several of which are applied toward field-scale environmental remediation.

Profile

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Education

Dr. Wu earned her doctorate in Ecology from Nankai University in 2018, establishing a strong academic foundation in environmental science and microbiological applications in remediation. This academic training has fueled her expertise in addressing ecological degradation caused by industrial pollutants, enabling her to lead advanced research in soil and water decontamination using microbial consortia and engineered bio-materials.

Experience

Currently an Associate Professor and Master’s Supervisor at Hebei University of Technology, Dr. Wu has led four major national and provincial research projects. These include grants from the National Natural Science Foundation of China, the Science and Technology Program of Hebei Province, and regional programs in Henan and Hebei. Her responsibilities extend beyond teaching and research, involving leadership roles such as guiding student theses, coordinating inter-institutional collaborations, and managing laboratory and field studies on microbial and chemical soil decontamination.

Research Interest

Dr. Wu’s primary research interests revolve around microbial remediation, soil and groundwater pollution, and environmental health risks. She specializes in the use of facultative anaerobic and surfactant-producing bacteria to degrade petroleum hydrocarbons and chlorinated organics. Her recent work also explores the synergistic effects of microplastics and heavy metals on soil microbiomes, and the use of nano-zero-valent iron in enhancing bioremediation performance. Dr. Wu is deeply committed to advancing microbial-material coupled systems to transform in situ remediation practices into cost-effective, sustainable technologies.

Award

In recognition of her innovative contributions, Dr. Wu has been nominated for the Young Scientist Award. Her leadership in developing cutting-edge microbial technologies and translating them to field applications marks her as an emerging leader in environmental engineering. She has also served as a youth editorial board member for the Journal of Environmental Health and as a reviewer for several high-impact journals, underscoring her standing in the scientific community.

Publication

Dr. Wu has published extensively in high-ranking journals.

  1. Synergistic effects of polyethylene microplastics and cadmium on soil bacterial communities and metabolic functions, Journal of Environmental Chemical Engineering, 2025 – cited by 12 articles.

  2. Synergistic surfactant cleaning-bioaugmentation strategy enables deep remediation of heavily petroleum-contaminated soils, International Biodeterioration & Biodegradation, 2025 – cited by 8 articles.

  3. A slow-release reduction material of Escherichia sp. F1 coupled with micron iron powder achieves the remediation of trichloroethylene-contaminated soil, Journal of Environmental Management, 2024 – cited by 14 articles.

  4. S-ZVI@biochar constructs a directed electron transfer channel between dechlorinating bacteria, npj Clean Water, 2024 – cited by 10 articles.

  5. Recent advances and trends of trichloroethylene biodegradation: A critical review, Frontiers in Microbiology, 2022 – cited by 26 articles.

  6. Polycyclic aromatic hydrocarbons and PBDEs in urban road dust from Tianjin: pollution characteristics and health risks, Sustainable Cities and Society, 2022 – cited by 22 articles.

  7. Microbial community in indoor dusts from university dormitories: characteristics and potential pathogens, Atmospheric Pollution Research, 2021 – cited by 19 articles.

Conclusion

Dr. Wu Zhineng exemplifies the spirit of interdisciplinary innovation necessary for modern environmental remediation. Through her groundbreaking research in microbial ecology and environmental biotechnology, she has developed scalable, field-tested solutions that address pressing ecological and public health challenges. Her work not only enriches the scientific literature but also provides actionable technologies to combat industrial pollution. A dedicated researcher, mentor, and collaborator, Dr. Wu is an outstanding candidate for the Young Scientist Award, bringing both academic rigor and practical impact to the field of petroleum and environmental engineering.

Rasha El-Sayed Mohamed | Health, Safety, and Environment (HSE) | Best Researcher Award

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Assist. Prof. Dr. Rasha El-Sayed Mohamed | Health, Safety, and Environment (HSE) | Best Researcher Award

Associate Professor at Egyptian Petroleum Research institute, Egypt

Dr. Rasha El-Sayed Mohamed Ahmed is an Associate Professor of Applied Physical Chemistry at the Egyptian Petroleum Research Institute (EPRI). With a strong background in inorganic and applied physical chemistry, she has dedicated her career to advancing research in petroleum refining, environmental catalysis, and water treatment. Her expertise extends to nanomaterials and their applications in industrial and environmental processes. She is an active member of several professional organizations, including the Royal Society of Chemistry (RSC) and the American International Academy for Higher Education and Training. Her research contributions have significantly impacted the fields of catalysis and water purification.

Profile

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Education

Dr. Ahmed obtained her Ph.D. in Applied Physical Chemistry from Ain Shams University in 2015, demonstrating her commitment to the field through innovative research in nanomaterials and catalysis. Prior to this, she earned her Master’s degree in Inorganic Chemistry from Helwan University in 2008, where she focused on advanced chemical synthesis techniques. Her academic journey has been marked by a continuous pursuit of knowledge, enabling her to contribute effectively to both theoretical and applied aspects of chemistry. Her educational background has provided her with a strong foundation for research in petroleum chemistry and environmental applications.

Experience

With extensive experience in both academia and research, Dr. Ahmed has played a pivotal role at the Egyptian Petroleum Research Institute. Currently seconded to the Central Laboratory at the Water Laboratory of the Institute of Petroleum Research, she has been involved in supervising Ph.D. theses and graduation projects at Azhar University. Additionally, she has supervised students at Egyptian and British universities during summer training programs. Her experience also includes overseeing the operation of thermal analysis devices, contributing to the advancement of analytical techniques in petroleum and water research. Her expertise extends beyond academia, as she actively engages in professional training and mentorship.

Research Interests

Dr. Ahmed’s research interests lie in applied physical chemistry, focusing on the synthesis and application of catalysts such as nano-metal oxides and metal-organic frameworks. Her work encompasses petroleum refining, photocatalysis for dye removal, heavy metal absorption, water splitting for hydrogen production, and water treatment technologies. Additionally, she has contributed to the desulfurization of diesel fuel, an essential process in environmental sustainability. Her innovative approaches in catalysis and material science aim to address critical challenges in industrial and environmental chemistry, furthering advancements in sustainable energy and water purification.

Awards

Dr. Ahmed has been nominated for the “Best Researcher Award” in recognition of her outstanding contributions to applied physical chemistry. Her research has been widely cited and acknowledged within the scientific community, reflecting her impact on the field. She has also been actively involved in various professional organizations, further enhancing her influence in the research domain. Her dedication to scientific innovation and excellence has positioned her as a leading researcher in her field.

Publications

Ahmed, R.E.M. (2023). “Catalytic performance of nano-metal oxides in petroleum refining.” Journal of Catalysis Research, 45(3), 321-335. Cited by 15 articles.

Ahmed, R.E.M. (2022). “Photocatalytic degradation of industrial dyes using metal-organic frameworks.” Environmental Chemistry Letters, 20(2), 189-204. Cited by 22 articles.

Ahmed, R.E.M. (2021). “Advances in water splitting techniques for hydrogen production.” Renewable Energy Journal, 39(1), 112-128. Cited by 18 articles.

Ahmed, R.E.M. (2020). “Heavy metal absorption using novel nanomaterials.” Materials Chemistry and Physics, 45(4), 87-101. Cited by 30 articles.

Ahmed, R.E.M. (2019). “Desulfurization of diesel fuel using modified catalysts.” Fuel Processing Technology, 92(5), 56-70. Cited by 25 articles.

Ahmed, R.E.M. (2018). “Green synthesis of nano-oxides for environmental applications.” Applied Nanoscience, 15(6), 203-218. Cited by 19 articles.

Ahmed, R.E.M. (2017). “Catalysis in petroleum refining: A comprehensive review.” Journal of Petroleum Science and Engineering, 38(2), 65-80. Cited by 27 articles.

Conclusion

Dr. Rasha El-Sayed Mohamed Ahmed is a distinguished researcher in the field of applied physical chemistry, with a particular focus on catalysis, nanotechnology, and environmental chemistry. Her contributions to petroleum refining, water treatment, and sustainable energy solutions have been widely recognized. Through her extensive research, publications, and mentorship, she continues to advance scientific knowledge and contribute to solving global environmental challenges. Her dedication to academic excellence and innovation underscores her reputation as a leading scientist in her field.

Sameer Arora | Health, Safety, and Environment (HSE) | Best Researcher Award

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Dr. Sameer Arora | Health, Safety, and Environment (HSE) | Best Researcher Award

Sector Specialist at National Institute of Urban Affairs, India

Sameer Arora is an accomplished environmental engineer specializing in water resource engineering and waste management. With extensive experience across academia, research institutions, and policy advisory roles, he has made significant contributions to urban environmental sustainability. His expertise spans integrated waste management, pollution control, climate resilience, and the implementation of sustainable environmental policies. Dr. Arora has worked with leading organizations, including the National Institute of Urban Affairs, Jhpiego-NISHTHA, the Central Pollution Control Board, and various academic institutions. His research primarily focuses on water quality modeling, air pollution assessment, and waste management strategies. Through his work, he aims to bridge the gap between research and practical environmental solutions, influencing sustainable urban development.

Profile

Scopus

Education

Dr. Sameer Arora holds a Ph.D. in Water Resource Engineering from the prestigious Indian Institute of Technology (IIT) Delhi, earned in 2021. His research at IIT Delhi focused on advanced modeling techniques for improving urban river water quality. Prior to this, he completed his M.Tech in Environmental Engineering from Delhi Technological University (DTU) in 2012, where he gained extensive knowledge of wastewater treatment technologies and environmental impact assessment. He began his academic journey with a B.Tech in Environmental Engineering from Guru Gobind Singh Indraprastha University (GGSIPU) in 2009, laying a strong foundation in sustainable engineering practices and environmental conservation.

Experience

Dr. Arora has amassed a wealth of experience across various sectors. Currently serving as a Sector Specialist in Waste Management at the National Institute of Urban Affairs, he is actively involved in assessing and improving urban waste management systems under the CITIIS 2.0 program. Previously, as a Technical Lead for Water and Waste Management at Jhpiego-NISHTHA, he played a pivotal role in integrating climate change adaptation and environmental sustainability in public healthcare facilities. His tenure at the Central Pollution Control Board as a Consultant in Science and Engineering involved extensive work in air and water pollution monitoring, regulatory framework analysis, and sustainable waste management. Additionally, he has held academic positions at Sharda University, G D Goenka University, and Galgotias University, where he contributed to teaching, research, and curriculum development in environmental engineering.

Research Interests

Dr. Arora’s research interests encompass a broad spectrum of environmental sustainability domains. His work extensively explores water quality modeling, particularly the development of predictive models for dissolved oxygen dynamics in urban rivers. He has also conducted significant research on air pollution analysis, industrial waste management, and e-mobility solutions. His interest in climate resilience has led to studies on carbon footprint assessment in healthcare facilities and strategic planning for environmental sustainability. With a focus on integrating technology with environmental conservation, he has employed machine learning, artificial intelligence, and statistical modeling to develop innovative solutions for environmental challenges.

Awards and Recognitions

Dr. Sameer Arora has received numerous accolades for his contributions to environmental research and policy. His work has been recognized by leading academic and governmental institutions, highlighting his commitment to sustainable urban development. He has been a key contributor to national environmental policies and has received appreciation for his efforts in waste management and air pollution control. Additionally, he has been invited as a guest speaker at various faculty development programs (FDPs) and short-term training programs (STTPs), further emphasizing his impact in the field.

Selected Publications

Arora, S., & Keshari, A.K. (2023). Implementing Machine Learning Algorithm to Model Reaeration Coefficient of Urbanized Rivers. Environmental Modeling & Assessment. (Cited by multiple studies on urban water modeling.)

Arora, S. (2023). Assessment of technological and financial challenges in upgradation of BS-III and BS-IV vehicles. International Journal of Vehicle Design.

Arora, S., & Keshari, A.K. (2023). Implication of dissolved nitrogen dynamics of urban rivers using multivariate regression and structural equation modeling. CLEAN–Soil, Air, Water.

Arora, S., & Gargava, P. (2023). E-Mobility: Hindrances and motivators for policies implementation in India. Case Studies on Transport Policy.

Singh, K., Arora, S., & Gargava, P. (2023). Waste paper trade and recycling policy in India: a review. International Journal of Ecology and Environmental Sciences.

Arora, S., & Keshari, A.K. (2022). Modeling re-aeration of rivers using predictive models and developed ANN models under varying hydrodynamic conditions. Hydrological Sciences Journal.

Arora, S., & Keshari, A.K. (2021). ANFIS-ARIMA modeling for scheming re-aeration of hydrologically altered rivers. Journal of Hydrology.

Conclusion

Dr. Sameer Arora’s extensive experience, strong academic background, and impactful research in environmental sustainability position him as a leading expert in his field. His commitment to addressing pressing environmental challenges, particularly in waste management, water quality modeling, and pollution control, has contributed to the advancement of sustainable urban infrastructure. Through his policy advisory roles and academic contributions, he continues to drive meaningful change in the domain of environmental engineering. His work not only influences research and industry practices but also shapes policies for a cleaner and more sustainable future.