Pannirselvam Narayanan | Civil Engineering | Best Researcher Award

Published-on by Indian Scientist

Dr. Pannirselvam Narayanan | Civil Engineering | Best Researcher Award

SRMIST | India

N. Pannirselvam is an accomplished academic and researcher in the field of Civil Engineering with a strong focus on structural and construction engineering. He holds advanced qualifications spanning civil engineering, construction technology, structural engineering, computer applications, and real estate valuation, reflecting a multidisciplinary academic foundation. His professional career includes extensive experience across reputed universities and engineering institutions, where he has served in academic leadership, teaching, and research-oriented roles, as well as earlier industry experience as a senior design engineer. His academic expertise encompasses advanced construction practices, structural analysis and design, project management, and real estate valuation, enabling a strong integration of theory with practical application. His research interests primarily include structural engineering, advanced construction technology, sustainable construction practices, infrastructure development, and valuation studies related to the built environment. He has contributed to academic growth through teaching, mentoring, curriculum development, and scholarly activities, including research publications and technical contributions. In recognition of his academic and professional contributions, he has received institutional appreciation and professional acknowledgements within the engineering education ecosystem. Overall, his career reflects a sustained commitment to excellence in civil engineering education, research advancement, and the development of industry-relevant engineering solutions that support sustainable infrastructure growth.

Citation Metrics (Scopus)

400
300
100
50
10
0

Citations
383

Documents
69

h-index
11

Citations

Documents

h-index

Featured Publications


Experimental and Predictive Modeling of GF and FA Modified Concrete for Enhanced Strength and Sustainability


Innovative Infrastructure Solutions · Article · Open Access · Cited by 0


Experimental and Finite Element Analyses of Monolithic 3D Cuffs Connected with Pultruded Box Sections


International Journal of Civil Engineering · Article · Cited by 0
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Prasoon Prasenan P | Civil Engineering | Best Academic Researcher Award

Published-on by Indian Scientist

Assist. Prof. Dr. Prasoon Prasenan P | Civil Engineering | Best Academic Researcher Award

College of Engineering Kidangoor | India

Dr. Prasoon Prasenan P is a distinguished civil engineer and academician with a strong portfolio in structural engineering, project management, and infrastructure consultancy. He holds advanced qualifications in civil engineering, structural engineering, and project management, supported by extensive teaching experience and long-standing professional practice. His research contributions encompass structural behavior, sustainable construction materials, and innovative engineering techniques, reflected through published papers, patents, and technical projects, with a citation count of 6, an h-index of 1, an i10-index of 0, and documented scholarly outputs indexed in leading scientific databases. He has authored and co-authored valuable academic resources, including a notable book on construction materials and techniques, and has delivered expert lectures to large academic and professional communities. His professional footprint includes consultancy services for multiple government departments, focusing on infrastructure development, water systems, land management, and public works. His achievements include several patents at national and international levels, demonstrating his commitment to innovation in engineering solutions. He is an active member of prestigious professional bodies that support advancements in technical education and engineering practice. His ongoing interests lie in structural design, construction technology, sustainable engineering, and applied research, continuing to contribute to academic excellence and engineering development.

Profile: Google Scholar

Featured Publications

Prasoon, P. P., & Kumar, M. R. (2022). Basalt fibre reinforced polymer for strengthening of self-compacting concrete compression member. Civil Engineering and Architecture, 10(3), 830–835.

Prasoon, P. P., & Kumar, M. R. (2020). Durability properties of self-compacting concrete incorporating recycled high-density polyethylene plastics. International Journal of Advanced Research in Engineering & Technology, 11(11).

Prasoon, P. P., Kumar, M. S. R., & Vaisakh, G. (2018). Experimental investigation on effect of partial replacement of coarse aggregate by plastic aggregate on M40 grade self-compacting concrete. International Journal of Civil Engineering and Technology, 9(6), 964–970.

Ananth, T., Prasoon, M. P. P., Vijayakumar, M. C., & Das, K. M. (n.d.). Partial replacement of cement with sugar cane bagasse ash and hybrid fibers.

Amar Deep Maurya | Civil Engineering | Research Excellence Award

Published-on by Indian Scientist

Mr. Amar Deep Maurya | Civil Engineering | Research Excellence Award

Rajkiya Engineering College Mainpuri | India

Amar Deep Maurya is a researcher in civil engineering with contributions in sustainable construction materials, structural optimization, and innovative testing methods. His academic background includes a bachelor’s degree in civil engineering with strong engagement in interdisciplinary learning across environmental sciences and digital design tools. He has gained practical experience through engineering internships focused on road estimation, planning, sustainability, and environmental assessment. His research centers on waste-derived construction materials, particularly the statistical modeling and optimization of waste-glass-based paver blocks using Response Surface Methodology, which demonstrated marked improvements in strength and durability while reducing environmental impact. He has also contributed to the development of advanced mortar testing methods and has completed multiple design-based projects in AutoCAD and 3D modeling. His scholarly output includes research and review articles with measurable impact metrics such as h-index, citation count, and document contributions as reflected through academic indexing platforms. His publications explore areas including sustainable paver blocks, RSM-based prediction models, and self-healing concrete. Recognized for academic excellence, he secured a technical poster award and additional certifications enhancing his professional competence. Overall, his work reflects a commitment to sustainable engineering innovations and practical solutions for future-ready civil infrastructure.

Profile: Scopus

Featured Publication

Statistical modeling and optimization of waste glass-based paver block properties. (2025). Next Materials.