Ram Chaurasia | Environmental | Research Excellence Award

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Dr. Ram Chaurasia | Environmental | Research Excellence Award

Lakshmi Narain College Of Technology | India

Dr. Ram Chandra Chaurasia is an accomplished academic and researcher specializing in mining and mineral processing, with a strong focus on advancing knowledge through innovative research and collaborative problem solving. His expertise spans fine particle processing, coal preparation and beneficiation, mineral processing, enhanced gravity separation, mechanical unit operations, ore characterization, statistical analysis, modeling and optimization, artificial neural networks, coal bed methane, clean coal technology, renewable energy technologies, energy utilization, pyrolysis, and gasification. He has demonstrated consistent leadership in academic and research environments, contributing to curriculum development, research supervision, and the promotion of a rigorous research culture. His scholarly output reflects both depth and breadth, with 15 research documents that have collectively attracted 238 citations across 169 citing documents, indicating strong visibility and relevance within the scientific community. An h-index of 10 highlights the sustained impact and quality of his research contributions across multiple domains of mineral engineering and energy-related technologies. His work integrates experimental investigation with data-driven modeling approaches to address complex challenges in resource efficiency, clean energy, and sustainable mineral processing. Recognized for excellence in research productivity and scientific contribution, he continues to pursue intellectually stimulating challenges, aiming to generate novel ideas and impactful solutions through teamwork, perseverance, and a strong analytical approach in research and development.

Citation Metrics (Scopus)

300
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0

Citations
238

Documents
15

h-index
10

Citations

Documents

h-index

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Hydrocarbon Generation and Gasification Characteristics of Valia Lignite, Gujarat, India


– Energy Sources Part A: Recovery, Utilization and Environmental Effects, 2025


Enhancing Gravity Separation Techniques for Improved Mineral Processing Performance


– Multidisciplinary Science Journal, 2024


Effect of Zinc Chloride on Low-Temperature Pyrolysis of High-Ash Bituminous Coal


– Open Chemistry, 2024


Solar Hydroponic–Based Wastewater Treatment System


– Patent, 2024


Methane Gas Capture Membrane Module for Mine Ventilation Air


– Patent, 2024

Chinglenthoiba Chingakham | Environmental Science | Young Scientist Award

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Assist. Prof. Dr. Chinglenthoiba Chingakham | Environmental Science | Young Scientist Award

Galgotias University | India

Dr. Chingakham Chinglenthoiba is a dedicated mechanical and environmental engineering researcher whose work bridges microplastic pollution, sustainable materials, and advanced nanotechnology applications. With strong expertise in microplastic identification, quantification, and mitigation, he actively contributes to developing innovative solutions for environmental protection. His research also explores sustainable materials such as wood and cellulose for impactful applications including water treatment, membrane technology, nano-coatings, and biofuel engineering. Skilled in nanomaterials, electrospinning, surface chemistry, biodiesel research, and metal-organic frameworks, he integrates multidisciplinary approaches to address pressing global challenges. His technical proficiency spans Dynamic Light Scattering, FTIR, fluorescence spectroscopy, scanning electron microscopy, Powder-XRD, optical microscopy, confocal imaging, and scientific data interpretation, supported by strong research writing and scientific illustration capabilities. With 33 published documents, 738 citations across 680 citing sources, and an h-index of 17, he demonstrates a growing scholarly influence in his field. His commitment to impactful research and sustainable technological innovation continues to advance both scientific understanding and real-world environmental solutions.

Profiles : Scopus | Orcid 

Featured Publications

Kumari, P., Kumari, N., Mohan, C., Chinglenthoiba, C., & Amesho, K. T. T. (2024). Environmentally benign approach to formulate nanoclay/starch hydrogel for controlled release of zinc and its application in seed coating of Oryza sativa plant. International Journal of Biological Macromolecules. 

Subair, A., Priya, K. L., Chellappan, S., Rahuman, T., Hridya, J., Devi, P. S., Salkka, M., Indu, M. S., Pugazhendhi, A., & Chinglenthoiba, C. (2024). Evaluating the performance of electrocoagulation system in the removal of polystyrene microplastics from water. Environmental Research. 

Noorani, K. R. P. M., Flora, G., Surendarnath, S., Stephy, G. M., Amesho, K. T. T., Chinglenthoiba, C., & Thajuddin, N. (2024). Recent advances in remediation strategies for mitigating the impacts of emerging pollutants in water and ensuring environmental sustainability. Journal of Environmental Management. 
Chinglenthoiba, C. (2024). Technologies to convert waste to bio-oil, biochar, and biogas. In Waste Valorization for Bioenergy and Bioproducts: Biofuels, Biogas, and Value-Added Products.

Chinglenthoiba, C., Mahadevan, G., Zuo, J., Prathyumnan, T., & Valiyaveettil, S. (2024). Conversion of PET bottle waste into a terephthalic acid-based metal-organic framework for removing plastic nanoparticles from water. Nanomaterials, 14(3), 257.

Oussama Baaloudj | Environmental | Young Scientist Award

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Mr. Oussama Baaloudj | Environmental | Young Scientist Award

Mr. Oussama Baaloudj | University of Basilicata | Algeria

Dr. Oussama Baaloudj is a postdoctoral researcher and process engineer specializing in sustainable water treatment and environmental process engineering, with a strong focus on the development and validation of decentralized urban wastewater treatment systems under international collaborative frameworks such as the PRIMA Project SAFE. His multidisciplinary expertise spans photocatalysis, adsorption, hybrid oxidation processes, and advanced materials synthesis for pollutant degradation, contributing significantly to the circular water economy and environmental safety. With 43 research publications indexed in Scopus and over 1,619 citations across 1,093 documents, he holds an impressive h-index of 22, reflecting his growing influence in environmental engineering and applied chemistry. His research integrates innovative modeling and process optimization to enhance wastewater reuse and pollutant remediation efficiency. He has contributed as a guest editor for MDPI journals such as Catalysts and ChemEngineering and has served as an active peer reviewer for leading scientific outlets. Recognized for his scientific excellence, Dr. Baaloudj has received prestigious honors, including the Scopus Award and the FEEM Health Committee Research Award, highlighting his outstanding research contributions to sustainable water management and environmental innovation at the global level.

Profiles: Scopus  | Orcid

Featured Publications

Baaloudj, O., Chiron, S., Zizzamia, A. R., Trotta, V., Del Buono, D., Puglia, D., Rallini, M., & Brienza, M. (2025). Efficient biochar regeneration for a circular economy: Removing emerging contaminants for sustainable water treatment. Colloids and Surfaces A: Physicochemical and Engineering Aspects.

Giulietti, M., Zuorro, A., Lavecchia, R., Baaloudj, O., Garcia-Segura, S., & Brienza, M. (2025). Synergistic effects of UV irradiation and hydrogen peroxide in the degradation of chloramphenicol: Mechanism and identification of reaction byproducts and intermediates. Journal of Water Process Engineering.

Baaloudj, O., Langerame, F., Iunnissi, R., Buttiglieri, G., Del Buono, D., Khadhar, S., Scrano, L., Trotta, V., & Brienza, M. (2025, December). Biochar-based downflow fixed-bed adsorption systems for water treatment: Process optimization, reusability, and techno-economic evaluation. Separation and Purification Technology.

Kamagate, M., Ali, F. A. A., Traore, L., Coulibaly, G. N., Assadi, A. A., Coulibaly, L., Goné Droh, L., & Baaloudj, O. (2025, November 5). Mechanistic insights into radical-mediated moxifloxacin degradation using ultrasound-assisted persulfate activation by iron-rich soil. Catalysts, 15(11), 1056.

Abdelkader, M., Assadi, A. A., Guiza, M., Elfalleh, W., Khezami, L., Tahraoui, H., Baaloudj, O., Mouni, L., Zhang, J., & Amrane, A. (2025, March 9). Photocatalytic degradation of pollutants in air streams using luminous textiles under ultraviolet light illumination: A pilot-scale remediation study. Catalysts, 15(3), 262.

Bourkeb, K. W., Abdessemed, D., Alaoui-Sossé, B., Chronopoulou, L., Baaloudj, O., & Herlem, G. (2025, February 15). Molecularly imprinted polyaniline/carbon nanotube–modified pencil graphite electrode for selective detection of bisphenol A in various aquatic matrices. Journal of Solid State Electrochemistry.