Teaching

“Teaching is a very noble profession that shapes the character, caliber, and future of an individual. If people remember me as a good teacher, that will be the biggest honour for me.”

– Dr. A. P. J. Abdul Kalam

Teaching at School of Infrastructure, IIT Bhubaneswar

Under-graduate Level

CE2L005 Hydraulics (Spring 2019-2023)
CE3L003 Water Resources Engineering (Autumn 2018-2023)
CE3P003 Water Resources Engineering Laboratory (Autumn 2017)
CE4P001 CAD Laboratory (Autumn 2016)
CE3P004 Civil Engineering Drawing & Estimation (Spring 2017)
CE2L011 Building Materials and Construction (Spring 2016, 2017, 2018)
CE1P001 Engineering Drawing & Computer Graphics (Spring 2016, 2017; Autumn 2016, Spring 2019, Spring 2021, Spring 2022)
CE2L003 Introduction to Civil Engineering and Construction Materials (Spring 2018)

Graduate-Level

CE6L502 Surface Hydrology (Autumn 2017-2023)
CE6L003 Groundwater Hydrology (Spring 2023)
CE6L503 Hydraulics of Sediment Transport (Spring 2018)
CE6P503 Advanced Water Resources Engineering Laboratory (Spring 2018-2022)
CE6L518 Integrated Watershed Management (Autumn 2016, 2017)

Course Description

CE3L003 Water Resources Engineering

Concepts of hydrologic cycle; Measurement and analysis of precipitation and runoff; Hydrograph analysis; Irrigation requirement of crops; Design of canals; Design and drawing of weirs and barrages; cross drainage works; Classification; analysis; design and drawing of Gravity and Earth dams; Design and drawing of spillways and energy dissipators.

CE2L005 Hydraulics

Basic properties of water; Determination of hydrostatic forces; Kinematics of flow; Potential flow; Continuity, Energy and Momentum principles; Open channel flow; Uniform and gradually varied flows; Dimensional analysis; Hydraulic similitude and Modelling; Flow in pipes and Pipe networks; Hydraulics machines; Pumps and Turbines.

CE6L502 Surface Hydrology

Hydrologic cycle; Systems concept; Reynolds transport theorem; Hydrologic processes; Atmospheric water; Precipitation; Evapotranspiration; Abstractions; Surface water; Streamflow hydrographs; Baseflow separation; Unit hydrograph; Hydrograph analyses; Flow routing; Streamflow; Subsurface water; Richards equation; Green-Ampt infiltration model; Frequency analysis; Hydrologic modeling; Hydrologic design; MATLAB/R/Python exercises for hydrologic analysis; HEC-HMS based hydrologic modeling.

CE6L003 Groundwater Hydrology

Groundwater in hydrologic cycle; Occurrence and movement; Aquifers and their characteristics/ classification, Darcys law, Dupuits assumptions; Flow nets; Groundwater tracers; Well hydraulics: steady/unsteady, uniform/radial flow to a well in a confined/unconfined/leaky aquifer, Well flow near aquifer boundaries/for special conditions; Groundwater levels and environmental influences; Global climate change and groundwater; Quality of groundwater; Contaminant transport processes; Advection-dispersion equation; Treatment of contaminated groundwater; Groundwater flow modeling techniques; Governing equations; Finite difference modelling; Introduction to MODFLOW; Management of groundwater resources; Surface and sub-surface investigations; Artificial recharge; Saline water intrusion in aquifers: Ghyben-Herzberg relation; Remote sensing-based groundwater studies.

CE6L518 Integrated Watershed Management

Introduction to integrated approach for the management of watersheds; Watershed hydrology: runoff and sediment load estimation; Instrumentation, and monitoring of hydro-meteorological variables at watershed-scale; Discharge measurement, sediment (suspended and bed load) measurement; Control of soil erosion; GIS for integration of different aspects of watersheds; Rainwater management: rainwater harvesting, artificial recharge, types and design of water harvesting and recharge structures; Irrigation management: use of conserved water; Land degradation, soil quality and water quality aspects, soil conservation strategies, water conveyance structures-spillways, culverts, etc.; Droughts: causes, types, drought indices, control and adaptation strategies; Drainage: estimation of drainage coefficient, design of surface and subsurface drainage systems, control of soil salinity; Climate change: general circulation models (GCMs), IPCC climate change scenarios, impacts of climate change and land use change on watersheds; Case studies.

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