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Explore intricate interactions in nuclear systems through analytical modeling of two-phase thermo-siphons, pressure prediction, steam explosion, and containment pressurization. Investigate phenomena like hydrogen burning, flow transitions, and fuel clad temperature distribution with cutting-edge simulations.
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STUDY PROJECTS Flow Stability Analysis Flow stability with void-neutronics interaction and Parallel Channel effect Analytical Modeling of two-phase Thermo-siphon Modeling of onset and establishment of two phase Thermo-siphon Prediction of pressure in calandria following PT & CT Break Transient analysis of PT & CT break scenario .A study on steam explosion due to Corium-water interaction Study of Corium-water interaction in case of core meltdown
Projects – contd. • Containment pressurization during Hydrogen burn/fire/explosion • Modeling of Hydrogen burning after LOCA without ECCS • Natural Convection Cooling of a heated charcoal filter bed with vertical venting line • 3-D CFD studies of charcoal bed • Assessment of Fuel Clad temperature in Horizontal Channel during Flow Stratification • Flow pattern Mapping for 37-element bundle of a PHWR during accidental conditions • Flow studies through regime-transitions
Projects-Contd • . • Intermittent Buoyancy Induced Flow • Modeling of IBIF in horizontal channels • Thermal Analysis to obtain the Temperature Distribution of Fuel Clad following Large Break LOCA and fuel slumping on Pressure tube • Void fraction measurement inside the SG • Flow Induced Vibration (FIV) studies for SG.
Projects-Contd. • Development work on the Pitot tube probes. • Development of an interactive, general purpose Navier-Stokes solver • CFD studies of one stage of the TG • Dynamic Matrix Control scheme for 700 MWe plant • Integrated multivariable process control with process simulation • CFD studies for 700 MWe calandria for various flow configurations