Vrushali Kamalakar | Engineering | Women Researcher Award

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Mrs. Vrushali Kamalakar | Engineering | Women Researcher Award

Matrusri Engineering College, India

Mrs. Vrushali Kamalakar is an accomplished academic in Civil Engineering, specializing in Structural Engineering. She holds an MS by Research and a Bachelor’s degree with distinction. With extensive teaching and industry experience, she has delivered courses in structural analysis, sustainable construction, and green building technologies. Her research focuses on earthquake engineering, heritage structures, and AI applications in civil engineering. She has received NPTEL recognition, IGBC accreditation, and AICTE certification. Her contributions reflect a strong commitment to innovation, education, and sustainable engineering practices.

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Featured Publications

Deepak Mishra | Engineering | Research Excellence Award

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Dr. Deepak Mishra | Engineering | Research Excellence Award

Indian Maritime University Kolkata, India

Dr. Deepak Mishra is a dedicated academic and researcher in Electrical Engineering, specializing in high voltage engineering and power systems. He holds advanced degrees from premier institutions and serves as an Assistant Professor, contributing extensively to teaching and research. His work focuses on transformer insulation diagnostics, dielectric behavior, and condition monitoring using advanced analytical techniques. He has published widely in reputed journals and earned recognition through prestigious awards and professional memberships. His contributions significantly advance reliable power system operation and innovation.

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Featured Publications


Reduction of time domain insulation response measurement duration for fast and effective diagnosis of power transformer


IEEE Transactions on Dielectrics and Electrical Insulation (Cited by 30 · Year: 2018)

Namrata Bist | Engineering | Best Researcher Award

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Dr. Namrata Bist | Engineering | Best Researcher Award

Pandit Deendayal Energy University | India

Dr. Namrata Bist is an accomplished energy engineering researcher and Assistant Professor in the Department of Petroleum Engineering at Pandit Deendayal Energy University (PDEU), Gandhinagar. With a Ph.D. focused on sustainable energy systems, she has developed strong expertise in geothermal energy, CO₂–EOR, hydrogen blending, carbon storage, reservoir modeling, and machine learning applications in subsurface engineering. Dr. Bist has authored more than 40 high-impact publications in reputed international journals and conferences, reflecting her commitment to advancing clean and efficient energy technologies. She has played key roles as PI, Co-PI, and Project Coordinator in several prestigious research projects funded by the Government of Gujarat, MNRE, Shell Energy India, and U.S.-based Project Inner Space, bridging academic insights with industrial relevance. Her research interests include hybrid renewable energy systems, sustainable reservoir engineering, and AI-driven optimization in energy production. She actively mentors B.Tech and M.Tech scholars, fostering innovation and scientific thinking among young engineers. Recognized for her strong academic contributions, interdisciplinary collaborations, and forward-looking vision, Dr. Bist continues to contribute significantly to India’s clean energy transition and global engineering research community.

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View Google Scholar Profile

Featured Publications

Archana Mohan | Electronics Engineering | Research Excellence Award

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Mrs. Archana Mohan | Electronics Engineering | Research Excellence Award

Amrita Vishwa Vidyapeetham | India

Archana Mohan is a dedicated researcher and academician in Electrical and Electronics Engineering, currently pursuing her doctoral studies with a strong focus on power systems, e-mobility, and intelligent control applications. With a solid educational background spanning engineering, power systems, and management studies, she has built interdisciplinary expertise that strengthens her analytical and problem-solving capabilities. Her professional experience includes serving as a Teaching Assistant and Research Assistant in advanced laboratories related to power systems, robotics, embedded systems, autonomous systems, and electric vehicles, where she mentors students, develops experimental setups, and contributes to project execution. Her research contributions span transient stability modeling, hybrid electric vehicle architectures, V2X communication, state-of-charge estimation, air-quality integrated mobility systems, and optimization using AI-based techniques. She has authored multiple publications indexed in reputed databases with 19 citations, an h-index of 3, and i10-index of 0, reflecting the growing impact of her work. Her involvement in international conferences and journal publications highlights her active engagement with the global research community. She has also contributed to academic quality initiatives and technical events while earning recognition for her academic excellence and active participation. Her research interests continue to evolve toward sustainable mobility, intelligent power systems, and data-driven engineering solutions.

Profile: Google Scholar

Featured Publications

Mohan, A., & Manitha, P. V. (n.d.). Hybrid Electric Vehicles with V2X Topology and Smart Energy Management: An Overview of Their Potential and Limitations. In 2nd International Conference on Futuristic Technologies (INCOFT).

Mohan, A., & Vidya, M. S. (n.d.). Artificial Neural Network Model of an IEEE 5 Bus System under Transient Conditions. In Third International Conference on Smart Systems and Inventive Technology.

Mohan, A., Avinash, R., Manitha, P. V., & Deepa, K. (n.d.). The Impact of PID Controllers on the Performance of Electric Vehicle Speed Control and SoC. In IEEE North Karnataka Subsection Flagship International Conference (NKCon).

Mohan, A., Manitha, P. V., & Subramaniam, U. (n.d.). A comprehensive review on the integration of air quality monitoring systems with hybrid electric vehicles for emission control in smart cities. Science of the Total Environment, 994, 180022.

Mohan, A., Manitha, P. V., & Subramaniam, U. (n.d.). Comparative analysis of state of charge estimation methods for Li-ion batteries using Kalman filter variants and machine learning techniques for electric vehicle applications. IEEE Access.

Sadananda Behera | Engineering | Best Researcher Award

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Assist. Prof. Dr. Sadananda Behera | Engineering | Best Researcher Award

NIT Rourkela | India

Dr. Sadananda Behera is a distinguished researcher in optical communication and intelligent network systems, widely recognized for his impactful scientific contributions. With strong academic foundations spanning electronics and communication engineering, advanced communication technologies, and optical systems, he has developed expertise that bridges theory, experimentation, and real-world network challenges. His research experience includes significant roles in premier institutions where he contributed to coherent modulation testbeds, advanced resource-allocation strategies, and machine-learning-driven solutions for elastic and space-division multiplexing networks. He has also conducted notable postdoctoral work focusing on AI-enabled optical networks, traffic prediction, and soft-failure detection frameworks. His scholarly output includes journal articles, conference presentations, and collaborative works addressing impairment-aware routing, bit loading, anomaly detection, and federated learning architectures for communication infrastructures. His research influence is demonstrated through 195 citations, an h-index of 7, and an i10-index of 6, reflecting the depth and applicability of his contributions across the photonics and network-optimization community. He continues to advance high-impact projects related to next-generation 6G hybrid transceivers and secure deep-learning-based channel estimation frameworks. His work focuses on optical communication, machine-learning applications for networks, and quantum key distribution, contributing to the evolution of resilient, high-capacity, and secure communication ecosystems.

Profile: Google Scholar

Featured Publications

Behera, S., Deb, A., Das, G., & Mukherjee, B. (2019). Impairment aware routing, bit loading, and spectrum allocation in elastic optical networks. Journal of Lightwave Technology, 37(13), 3009–3020.

Behera, S., George, J., & Das, G. (2018). Effect of transmission impairments in CO-OFDM based elastic optical network design. Computer Networks, 144, 242–253.

Behera, S., & Das, G. (2020). Dynamic routing and spectrum allocation in elastic optical networks with minimal disruption. In Proceedings of the National Conference on Communications (NCC) (pp. 1–5). IEEE.

Behera, S., Panayiotou, T., & Ellinas, G. (2023). Machine learning framework for timely soft-failure detection and localization in elastic optical networks. Journal of Optical Communications and Networking, 15(10), E74–E85.

Behera, S., Savva, G., Manousakis, K., & Ellinas, G. (2023). Impairment-aware routing, modulation, spectrum, and core allocation with bit loading in spectrally–spatially flexible optical networks. Journal of Optical Communications and Networking, 15(6), 318–332.

Aritra Acharyya | Engineering | Best Researcher Award

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Dr. Aritra Acharyya | Engineering | Best Researcher Award

Kalyani Government Engineering College | India

Dr. Aritra Acharyya is a distinguished researcher in Electronics and Communication Engineering, recognized for impactful contributions to millimeter-wave and terahertz solid-state devices. He holds advanced degrees in Radio Physics and Electronics, with top academic rankings, followed by extensive experience as an Assistant Professor in government engineering institutions where he has led academic, research, and national-level satellite-based learning initiatives. His research specializes in IMPATT diodes, optical control of high-frequency semiconductor devices, graphene nanoribbon transport phenomena, RF and microwave engineering, UV sensor modeling, and applied signal and image processing. He has authored numerous research documents, accumulating an h-index of 9, over 350 citations, and more than 45 indexed publications, reflecting his steady contribution to high-impact scientific literature. Dr. Acharyya has coordinated multiple national programmes in collaboration with space and remote sensing agencies and completed a wide range of advanced faculty development programmes in microelectronics, antenna systems, GNSS, VLSI, AI, and quantum technologies. His achievements include prestigious academic and professional awards from leading scientific bodies, along with recognition for excellence in scholarly publications and technical education. His work continues to strengthen innovation in high-frequency semiconductor device engineering and inspire emerging researchers in advanced communication technologies.

Profile: Google Scholar | Orcid

Featured Publications

Acharyya, A., & Banerjee, J. P. (n.d.). Prospects of IMPATT devices based on wide bandgap semiconductors as potential terahertz sources. Applied Nanoscience, 4(1), 1–14.

Acharyya, A., & Banerjee, J. P. (n.d.). Potentiality of IMPATT devices as terahertz source: An avalanche response time-based approach to determine the upper cut-off frequency limits. IETE Journal of Research, 59(2), 118–127.

Biswas, A., Sinha, S., Acharyya, A., Banerjee, A., Pal, S., Satoh, H., & Inokawa, H. (n.d.). 1.0 THz GaN IMPATT source: Effect of parasitic series resistance. Journal of Infrared, Millimeter, and Terahertz Waves, 39(10), 954–974.

Acharyya, A., Banerjee, S., & Banerjee, J. P. (n.d.). Effect of junction temperature on the large-signal properties of a 94 GHz silicon based double-drift region impact avalanche transit time device. Journal of Semiconductors, 34(2), 024001.

Acharyya, A., Banerjee, S., & Banerjee, J. P. (n.d.). Influence of skin effect on the series resistance of millimeter-wave IMPATT devices. Journal of Computational Electronics, 12(3), 511–525.

Prasanth Kumar Enaganti | Engineering | Young Researcher Award

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Assist. Prof. Dr. Prasanth Kumar Enaganti | Engineering | Young Researcher Award

Manipal Institute of Technology | India

Dr. Enaganti Prasanth Kumar is an accomplished researcher and academician in the fields of solar photovoltaics, renewable energy, nanoelectronics, and materials science engineering. He is currently serving as an Assistant Professor in the Department of Electrical and Electronics Engineering at Manipal Institute of Technology (MIT), MAHE, Manipal. His research focuses on the characterization of solar cells, underwater photovoltaics, printed electronics, and nanomaterial-based supercapacitors. With significant contributions to projects funded by DRDO, the U.S. Department of Energy, and KAUST, Dr. Kumar has demonstrated exceptional expertise in advanced solar energy technologies, photonic curing processes, and laser-assisted material fabrication. He has published numerous high-impact research papers in leading journals such as Progress in Photovoltaics, Energy, Solar Energy, and IEEE Sensors Journal. His Google Scholar profile reports over 540 citations, an h-index of 14, and an i10-index of 18, reflecting his growing research influence. He holds a Ph.D. in Electrical and Electronics Engineering from BITS Pilani, along with M.Tech and B.E. degrees in renewable and electrical engineering, respectively. Dr. Kumar has received recognition for excellence in research and continues to contribute to interdisciplinary advancements in sustainable and smart energy systems.

Profiles: Google Scholar | Scopus

Featured Publications

Enaganti, P. K., Bhattacharjee, A., Ghosh, A., Chanchangi, Y. N., Chakraborty, C., & Goel, S. (2022). Experimental investigations for dust build-up on low-iron glass exterior and its effects on the performance of solar PV systems. Energy, 239, 122213.

Kulkarni, M. B., Enaganti, P. K., Amreen, K., & Goel, S. (2020). Internet of Things enabled portable thermal management system with microfluidic platform to synthesize MnO₂ nanoparticles for electrochemical sensing. Nanotechnology, 31(42), 425504.

Enaganti, P. K., Dwivedi, P. K., Srivastava, A. K., & Goel, S. (2020). Study of solar irradiance and performance analysis of submerged monocrystalline and polycrystalline solar cells. Progress in Photovoltaics: Research and Applications, 28(7), 725–735.

Rewatkar, P., Enaganti, P. K., Rishi, M., Mukhopadhyay, S. C., & Goel, S. (2021). Single-step inkjet-printed paper-origami arrayed air-breathing microfluidic microbial fuel cell and its validation. International Journal of Hydrogen Energy, 46(71), 35408–35419.

Enaganti, P. K., Dwivedi, P. K., Sudha, R., Srivastava, A. K., & Goel, S. (2019). Underwater characterization and monitoring of amorphous and monocrystalline solar cells in diverse water settings. IEEE Sensors Journal, 20(5), 2730–2737. https://doi.org/10.1109/JSEN.2019.2952428.

Ms. Ritu Ranjan | Engineering | Best Research Award

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Ms. Ritu Ranjan | Engineering | Best Research Award

IIT ISM DHANBAD | India

Ms Ritu Ranjan is a dedicated electrical engineering researcher whose academic journey spans advanced degrees from premier Indian institutions, culminating in a PhD in control systems and sensor interfacing at IIT(ISM) Dhanbad. Her work centers on control techniques for bipedal robotic systems, specifically modeling and robust controller design, and extends into efficient analog and direct-digital interfacing schemes for magneto-resistance-based angle sensors. With several journal articles including contributions to Integration: the VLSI Journal, Measurement and Optical and Quantum Electronics, and multiple IEEE-indexed conference publications, she has developed expertise in sensor linearization, systematic error quantification, and optical biosensor modeling. Her research interest spans control theory, sensor hardware design, direct-digital interfacing, and FDTD-based photonic modeling. Though early in her career, she has begun accumulating citations and publications; her current h-index is modest, reflecting her growing scholarly impact. Awards and recognitions include funding and acceptance of her thesis work and top conference presentations. She brings strong experience in MATLAB, LTSpice, LaTeX, LabVIEW, embedded C, and hardware prototyping using Arduino/ESP32. Motivated by innovation in robotics and sensor systems, she seeks to contribute reliably to impactful research and engineering. Ritu’s trajectory indicates a promising future in sensor-control integration and robotic instrumentation.

Profiles: Scopus | Google Scholar | Orcid

Featured Publication

Shekhar, A., Ranjan, R., & Mandal, S. (2024). Model of double optical ring resonator configuration as a biosensor using FDTD numerical method. Optical and Quantum Electronics, 57(1), 35.

Ranjan, R., & Meena, G. D. (2022). PID and backstepping controller on a 2-link biped robot. In 2022 2nd International Conference on Emerging Frontiers in Electrical and Electronic Technologies (ICEFEET) (pp. xx–xx). IEEE.

Ranjan, R., & Meena, G. D. (2022). Trajectory tracking of 3-link biped leg robot using PD controller and robust variable structure controller. In 2022 IEEE 19th India Council International Conference (INDICON) (pp. 1–6). IEEE.

Ranjan, R., & Mandal, S. (2025). Quantification methodologies of three systematic errors of sinusoidal encoders employing two magnitude-to-time-to-digital converter in static and dynamic conditions. Measurement, 253, 117361. Elsevier.

Ranjan, R., Shekhar, A., & Mandal, S. (2025). Development of a tunneling magneto-resistance sensor based orientation detection system for robotic manipulator. In 2025 6th International Conference on Recent Advances in Information Technology (RAIT) (pp. xx–xx). IEEE.

Ganesh Chouhan | Engineering | Best Researcher Award

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Assist. Prof. Dr. Ganesh Chouhan | Engineering | Best Researcher Award

Medicaps University, Indore | India

Dr. Ganesh Chouhan is an accomplished researcher and educator in mechanical engineering, with a strong focus on advanced manufacturing and materials. With extensive academic and industrial exposure, he bridges the gap between research and practical application. His expertise spans additive manufacturing, design of bio-inspired lattice structures, and the development of advanced manufacturing systems. As a dedicated mentor and innovator, he actively collaborates with academic and industrial institutions on cutting-edge projects. His contributions include research publications, technical leadership, and curriculum development. Dr. Chouhan is known for his commitment to quality education, innovation, and impactful research in mechanical and manufacturing engineering.

Professional Profile

Google Scholar

Education

Dr. Ganesh Chouhan holds a PhD in Mechanical Engineering with specialization in additive manufacturing, focusing on the design and development of advanced lattice structures for industrial applications. He completed his Master of Technology in Industrial Process Equipment Design from a prestigious national institute, where he also collaborated on industry-based projects. His foundational studies include a Bachelor’s degree in Mechanical Engineering from a leading university. Throughout his academic journey, he has pursued interdisciplinary learning and research, combining theory with real-world engineering challenges. His education has prepared him to contribute effectively in both academic and applied research environments.

Professional Experience

Dr. Chouhan has served in academic institutions as an assistant professor and research mentor, guiding undergraduate, postgraduate, and doctoral students in mechanical and manufacturing engineering. His experience includes working on advanced manufacturing technologies, curriculum design, and organizing technical workshops. In industry, he has held the role of Chief Technology Officer, focusing on additive manufacturing processes and the development of special-purpose machines. His contributions extend to managing engineering labs, collaborating on research projects, and mentoring students in final-year engineering projects. He also has experience as a reviewer for reputed journals and has contributed to academic program development at the university level.

Awards and Recognition

Dr. Chouhan has been recognized with multiple awards for his contributions to scientific research, including acknowledgments for publishing in reputed SCI journals. He has delivered technical training sessions to engineering professionals and served as an organizer and committee member in national-level academic events and training programs. He has been honored with a postgraduate scholarship by the Ministry of Human Resource Development and has successfully collaborated with various institutions and industries in India and abroad. His leadership roles include organizing tech fests, training workshops, and supporting student placement activities, highlighting his dedication to both academic and professional development.

Research Skills

Dr. Chouhan possesses strong research capabilities in advanced manufacturing, particularly in additive manufacturing technologies. He is skilled in the design and development of bio-inspired and TPMS lattice structures for use in heat exchangers and biomedical applications. His work includes experimental and computational analysis using advanced CAD and CAE tools, with hands-on experience in 3D printing technologies like SLA, FDM, and LPBF. He collaborates with global academic partners on funded research and has contributed to knowledge development through high-quality journal publications. His research integrates theory with practical engineering solutions, reflecting innovation, interdisciplinary thinking, and industry relevance.

Notable Publications

Designs, advancements, and applications of three-dimensional printed gyroid structures: A review
Author: G Chouhan, G Bala Murali
Journal: Proceedings of the Institution of Mechanical Engineers, Part E: Journal of …
Year: 2024

Experimental and numerical investigation of 3D printed bio-inspired lattice structures for mechanical behaviour under quasi static loading conditions
Author: G Chouhan, BM Gunji, P Bidare, D Ramakrishna, R Kumar
Journal: Materials Today Communications 35, 105658
Year: 2023

Additive manufacturing TPMS lattice structures: Experimental study on airflow resistivity
Author: GCGB Murali
Journal: Results in Materials 20, 100478
Year: 2023

Triply periodic minimal surface based lattices for acoustic performance
Author: G Chouhan, P Bidare, G Bala Murali
Journal: Noise & Vibration Worldwide 55 (8), 454-468
Year: 2024

Uniform and graded bio-inspired gyroid lattice: Effects of post-curing and print orientation on mechanical property
Author: G Chouhan, G Bala Murali
Journal: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of …
Year: 2024

Conclusion

Dr. Ganesh Chouhan exemplifies the role of a modern engineering educator and researcher who integrates technical depth with practical impact. With a firm foundation in mechanical engineering, his contributions span teaching, research, industrial collaboration, and academic leadership. His work in additive manufacturing and structural design continues to contribute to cutting-edge developments in engineering. He remains committed to fostering innovation, mentoring the next generation of engineers, and expanding the scope of applied mechanical research. His career reflects a deep passion for continuous learning, knowledge sharing, and advancing engineering practices through collaboration and technological advancement.

Abhijeet Das | Engineering | Research Discovery Award

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Dr. Abhijeet Das | Toxicology | Research Discovery Award

C.V. Raman Global University (CGU), Bhubaneswar, Odisha | India

Dr. Abhijeet Das is a dedicated researcher and professional in the field of civil engineering with specialization in water resources engineering. He has gained extensive expertise in watershed hydrology, water quality management, and hydrological modeling through research, teaching, consultancy, and collaborative international projects. His work integrates advanced engineering techniques with geoinformatics, machine learning, and simulation-optimization modeling for sustainable resource management. With multiple patents, international collaborations, and numerous best paper awards, he has established himself as a promising contributor to innovative solutions in water resource engineering, climate change impact studies, and sustainable development practices.

Professional Profiles

Scopus | Orcid

Education

Dr. Abhijeet Das pursued his academic journey with a strong foundation in civil engineering and advanced specialization in water resources engineering. He earned his doctoral degree in water resource engineering from C.V. Raman Global University, Bhubaneswar. Before that, he completed his master’s degree in water resource engineering from Biju Patnaik University of Technology, Rourkela, after attaining a bachelor’s degree in civil engineering from the same university. His academic path was complemented by schooling at reputed institutions, where he developed a keen interest in engineering sciences. This strong educational background laid the groundwork for his research on hydrology, geoinformatics, and sustainable water management.

Professional Experience

Dr. Abhijeet Das has a decade of professional experience spanning teaching, consultancy, and research. He served as a faculty member at leading engineering institutions, guiding students and contributing to academic growth. His consultancy work involved projects with design and engineering firms, focusing on water resource planning and GIS-based solutions. He has also worked internationally as a project assistant, GIS consultant, and researcher in collaborative projects with institutions across Tunisia, the USA, Oman, the UK, South Africa, Syria, and Lebanon. His professional journey reflects a balance of academic leadership, technical expertise, and practical application in civil and environmental engineering.

Awards and Recognition

Dr. Abhijeet Das has received several prestigious awards for his contributions to civil and water resource engineering. His research papers have consistently been recognized with best paper awards at international and national conferences across diverse engineering and sustainability themes. These accolades highlight his innovative approaches in surface water quality assessment, hydrological modeling, geospatial applications, and decision-making techniques for water management. He has also been honored for poster presentations at academic seminars, reflecting his ability to present complex research in impactful ways. His recognition underscores his growing influence as a researcher committed to advancing sustainable engineering solutions.

Research Skills

Dr. Abhijeet Das possesses extensive research skills that bridge engineering principles with modern computational and geospatial techniques. His expertise includes watershed hydrology, hydrological modeling, and the application of machine learning for environmental studies. He is proficient in using remote sensing and GIS for water quality assessment, numerical modeling, and simulation-optimization approaches. His work also extends to climate change impact assessment, water quality control, environmental impact studies, and application of artificial neural networks and fuzzy logic in water resource management. These skills enable him to develop innovative, data-driven solutions to global challenges in water sustainability and resource management.

Notable Publications

An optimization based framework for water quality assessment and pollution source apportionment employing GIS and machine learning techniques for smart surface water governance
Author: Dr. Abhijeet Das
Journal: Discover Environment
Year: 2025

Reimagining biofiltration for sustainable industrial wastewater treatment
Author: Dr. Abhijeet Das
Journal: [Not specified]
Year: 2025

A data-driven approach utilizing machine learning (ML) and geographical information system (GIS)-based time series analysis with data augmentation for water quality assessment in Mahanadi River Basin, Odisha, India
Author: Dr. Abhijeet Das
Journal: Discover Sustainability
Year: 2025

Conclusion

Dr. Abhijeet Das’s academic achievements, professional experiences, and research expertise collectively position him as a dedicated contributor to civil and water resource engineering. Through his collaborative projects, patents, and scholarly publications, he has demonstrated a commitment to addressing critical issues such as water quality, sustainability, and climate change impacts. His career reflects a blend of academic excellence, technical innovation, and global engagement. With a strong foundation in civil engineering and an expansive vision for sustainable water resource management, he continues to contribute meaningfully to the field and inspire future researchers and engineers.