Home > Academics > Academic Units > Faculty of Engineering and Architecture (FoE&A) > Ocean Engg and Naval Architecture > Hari V Warrior
Professor
Ocean Engg and Naval Architecture
Prof. Warrior has been working in the broad field of turbulence modeling as applied for Oceanography and Computational Fluid Dynamics. He has his fields of interest in Numerical Hydrodynamics both in the lab-scale as well as basin-scale flows. After joining the institute he has been active in research on ocean modeling and in CFD modeling using inudstry models and high-fidelity modeling. His recent work includes the hydrodynamics of Autonomous Underwater Vehicles and their drag reduction. The performance of the AUVs under different conditions of operation has been studied. Prof. Warrior has also been recently involved in the DRDO projects for detection of underwater submarines using Computational Fluid Dynamics. The development of surface wakes like Kelvin wake, Bernoulli Hump etc are being investigated. The CFD modelling is also being validated by experimental results.
Free surface features of submarines moving underwater: Study of Bernoulli Hump by G S., Ali A., Mitra A., Jaiswal A., Naresh P., Warrior H.V. Ocean Engineering 249 - (2022)
The effects of free stream turbulence on the hydrodynamic characteristics of an AUV hull form by Mitra A., Panda J. , Warrior H. V. Ocean Engineering 174 148-158 (2019)
Study of turbulent flow past a square cylinder using partially-averaged Navier Stokes method in OpenFOAM by Chakraborty A., Warrior H.V. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 234 2821-2832 (2020)
Wide area surveillance using ship wakes by Barman J., Kumar A., Warrior H.V., Maheswaran P.A., Kumar H. Current Science 114 1606-1607 (2018)
Experimental and numerical investigation of the hydrodynamic characteristics of Autonomous Underwater Vehicles over sea-beds with complex topography by Mitra A., Panda J. , Warrior H. V. Ocean Engineering 198 1069-1078 (2020)
Detection of ships moving in a straight line and turning with implications for wide area surveillance by Jaiswal A. K., G S. , Warrior H. V. International Journal of Naval Architecture and Ocean Engineering 100452- (Accepted/In-Press)
Coastal modelling incorporating artificial neural networks for improved velocity prediction by Sumangala D., Warrior H. ISH Journal of Hydraulic Engineering - (2020)
A review on the hydrodynamic characteristics of autonomous underwater vehicles by Panda J.P., Mitra A., Warrior H.V. Proceedings of the Institution of Mechanical Engineers Part M: Journal of Engineering for the Maritime Environment 235 15-29 (2021)
An Improved Model Including Length Scale Anisotropy for the Pressure Strain Correlation of Turbulence by Panda J. P., Warrior H. V. Journal of Fluids Engineering 139 139-143 (2017)
Comprehending the role of different mechanisms and drivers affecting the sea-surface pCO2 and the air-sea CO2 fluxes in the Bay of Bengal: A modeling study by Joshi A. P., Warrior H. V. Marine Chemistry 243 104120- (2022)
Study of the powering of a swarm of Autonomous Underwater Vehicles over variable topographies Ministry of Earth Sciences
Determination of marine ecosystem health in BoB using physical-biogeochemical models and ANN ISRO, IIT KHARAGPUR CELL
Determination of marine ecosystem health in BoB using physical biogeochemical models and ANN ISRO, INDIA
Numerical analysis to identify the ocean surface back scattering generated due to the movement of submarines. Naval Physical and Oceanographic Laboratory
Naval Architecture and CFD ASRANet Ltd
Computational Fluid Dynamics studies of an active fin stabilizer SEATECH INTEGRATED TECHNOLOGY PRIVATE LIMITED
Development of Bio-Mimetic Autonomous Underwater Vehicles (BAUV) for Maritime Surveillance (Phase I) Naval Research Board (NRB)
Vinay Kumar
Area of Research: ocean modelling
Sudharsun G
Area of Research: Computational Fluid Dynamics
Aswathy B Asok
Area of Research: Oceanography
Abdul Haseeb Khan
Area of Research: Computational Fluid Dynamics
Debashis Mohanty
Area of Research: Computational Fluid Dynamics
