Innovative Research Award

Prateek Kumar Singh
Affiliation National Laboratory of Civil Engineering, Lisbon
Country Portugal
Google Scholar ID IXDAukkAAAAJ
Documents 45
Citations 492
h-index 13
Subject Area Engineering
Event Computer Scientists Awards
ORCID 0000-0002-7439-4685

Prateek Kumar Singh

National Laboratory of Civil Engineering, Lisbon, Portugal

Prateek Kumar Singh is an engineering researcher whose scholarly activities emphasize hydraulic engineering, open-channel flow, environmental hydraulics, vegetation-fluid interaction, and computational modelling. His research portfolio demonstrates sustained contributions to understanding complex hydraulic processes through numerical simulations, analytical modelling, and experimental investigations. The documented publication record and citation profile indicate active engagement with internationally recognized engineering research while supporting advances in water resources and environmental flow analysis.[1]

Abstract

This article summarizes the academic profile of Prateek Kumar Singh with emphasis on engineering research related to hydraulic systems, open-channel hydrodynamics, numerical modelling, and environmental fluid mechanics. His publications investigate the interaction between vegetation, turbulence, sediment transport, and emerging environmental contaminants, providing computational and experimental insights that support sustainable water-resource engineering. The body of work reflects interdisciplinary integration of computational techniques with hydraulic engineering principles and contributes to improved understanding of riverine and floodplain processes.[2]

Keywords

Hydraulic Engineering, Open-Channel Flow, Numerical Simulation, Environmental Hydraulics, Vegetation Hydrodynamics, Computational Modelling, Floodplain Flow, Microplastic Transport.

Introduction

Research in hydraulic engineering increasingly relies on advanced computational models for analysing complex environmental systems. The research activities associated with Prateek Kumar Singh contribute to this field by combining theoretical development, laboratory observations, and numerical approaches to evaluate flow structures, vegetation effects, and transport mechanisms in natural and engineered waterways. Such investigations assist both scientific understanding and practical engineering applications.[3]

Research Profile

  • Research focus on computational hydraulics and environmental engineering.
  • Publication record of 45 indexed scholarly documents.
  • 492 scholarly citations with an h-index of 13.
  • Studies involving numerical modelling, turbulence, and vegetation-flow interaction.

Research Contributions

Recent investigations analyse microplastic transport around porous vegetation, velocity distributions in vegetated channels, compound-channel turbulence, and floodplain hydrodynamics. These studies improve predictive capability for environmental engineering applications while supporting ecological river management and hydraulic infrastructure design.[4]

Publications

  • Microplastic Transport Within and Downstream of Circular Porous Vegetation: A Numerical Study in Open-Channel Flow (Water, 2026).
  • An Experimental Study on Turbulent Flow in Asymmetric Compound Channels.
  • A Semi-Analytical Model for the Velocity Profile in an Open Channel with Suspended Rigid Vegetation.
  • Flow Interaction at Multistage Floodplains during High Flow.
  • Floodplain Transition Zone Hydrodynamics.

Research Impact

The publication profile demonstrates measurable scholarly visibility through citations and continued publication in peer-reviewed engineering journals. Research outcomes support hydraulic modelling, flood management, ecological restoration, and computational analysis of environmental flow systems, reinforcing interdisciplinary collaboration between engineering and environmental sciences.[5]

Award Suitability

Based on the available scholarly indicators, publication activity, engineering specialization, and sustained contributions to hydraulic research, the profile aligns with evaluation criteria commonly applied to academic recognition programs that acknowledge research productivity, technical innovation, and scientific impact. The documented record provides evidence of consistent engagement with internationally relevant engineering challenges.

Conclusion

Prateek Kumar Singh’s research portfolio reflects continuing contributions to hydraulic engineering through analytical, computational, and experimental investigations. The combination of publication productivity, citation performance, and practical relevance supports recognition within engineering research communities while encouraging future developments in sustainable water engineering and computational environmental analysis.

References

  1. Elsevier. (n.d.). Google Scholar author details: Prateek Kumar Singh, Author ID IXDAukkAAAAJ..
    https://scholar.google.com/citations?user=IXDAukkAAAAJ
  2. Water. (2026). Microplastic Transport Within and Downstream of Circular Porous Vegetation: A Numerical Study in Open-Channel Flow.
    https://doi.org/10.3390/w18131634
  3. Journal of Hydrology. (2025). A Semi-Analytical Model for the Velocity Profile in an Open Channel with Suspended Rigid Vegetation.
    https://doi.org/10.1016/j.jhydrol.2025.133856
  4. Journal of Hydraulic Engineering. (2025). Flow Interaction at Multistage Floodplains of Open Channel during High Flow.
    https://doi.org/10.1061/JHEND8.HYENG-14347
  5. Ecohydrology. (2025). Floodplain Transition Zone Hydrodynamics: The Role of Riparian and Floodplain Vegetation in Compound Channel Flows.
    https://doi.org/10.1002/eco.70123
Prateek Kumar Singh | Engineering | Innovative Research Award

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