faculty-profile

Dr. Ketan Kumar Nandi

info

Assistant Professor

School of Civil Engineering

Indian Institute of Technology Guwahati

5 Year

Sports, Travel, Exploring

River Hydrodynamics and Morphodynamics Fluvial Geomorphology and River Corridor Management Open Channel Hydraulics and Sediment Transport Experimental and Numerical Modeling of River Systems Flood Modeling and Risk Management Nature-Based Solutions for River Restoration Application of Remote Sensing and GIS in Water Resources

Mail: n.ketankumar@sru.edu.in

Educational
Qualifications
(From Highest)

2023

Ph.D. in Water Resources Engineering from Indian Institute of Technology Guwahati

2015

M.Tech in Water Resources Engineering from Veer Surendra Sai University of Technology Burla

2012

B.Tech in Civil Engineering from Biju Patnaik University of Technology Rourkela

Professional
Experience

2023

Post-Doctoral Fellow at TIH-TIDF, IIT Guwahati, from 2023-07-20 to 2025-06-30.

Student
Supervision

11

PG

10

UG

Key Publications

Nandi, K. K., Pradhan, C., Dutta, S., & Khatua, K. K. (2023). Identifying the stability trajectory of a large braided Brahmaputra river using reach-scale process-based approach. Journal of Hydrology, 626, 130329.

Pradhan, C., Nandi, K. K., Bharti, R., & Dutta, S. (2023). Developing process-based geomorphic indicators for understanding river dynamics of a highly braided system: Implications for designing resilience based management strategies. Catena, 232, 107411.

Nandi, K. K., Pradhan, C., Dutta, S., & Khatua, K. K. (2023). Identifying the stability trajectory of a large braided Brahmaputra river using reach-scale process-based approach. Journal of Hydrology, 626, 130329.

Nandi, K. K., Pradhan, C., Padhee, S. K., Dutta, S., & Khatua, K. K. (2022). Understanding the entropy-based morphological variability and energy expenditure mechanism of a large braided river system. Journal of Hydrology, 615, 128662.

Nandi, K. K., Pradhan, C., Dutta, S., & Khatua, K. K. (2022). How dynamic is the Brahmaputra? Understanding the process–form–vegetation interactions for hierarchies of energy dissipation. Ecohydrology, 15(3), e2416.

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