My name is Shagun Agarwal and I’m a Research Scholar specializing in Computational and Ocean Engineering

The personal portfolio website is under development currently.

Know more Contact me

Skills

FORTRAN

C / C++

Python

OpenACC

Linux

LaTeX

Arduino

Raspberry Pi

Robotics

MATLAB

Mathematica

ANSYS

StarCCM+

OpenFOAM

AutoCAD

Server Management

Education

 
 
 
 
 

PhD in Ocean Engineering

Dept. of Ocean Engineering, IIT Madras

Jul 2017 – Jul 2022 Chennai, India

Guided by Dr. V. Sriram and Prof. K. Murali with correspondence from Prof. Shiqiang Yan

Thesis: Wave-structure interaction by coupled Boussinesq (FEM) and Navier-Stokes (particlebased) models in 3D

 
 
 
 
 

Master of Technology in Applied Mechanics

Dept. of Applied Mechanics IIT Madras Madras

Jul 2015 – Jul 2017 Chennai, India

Guided by Prof. Arul Prakash and Prof. K. Murali

Thesis: Numerical Investigation of Fluid-Structure Interaction Using Immersed Boundary Method

 
 
 
 
 

Bachelor of Technology in Naval Architecture and Ocean Engineering

Dept. of Ocean Engineering, IIT Madras

Jul 2012 – Jul 2016 Chennai, India

Minor in Systems Engineering.

Worked on robotics projects under Prof. Prabhu Rajagopal.

Worked on numerical coastal engineering project under Dr. V. Sriram

Other Publications

All publication on Google Scholar / Scopus / ResearchGate

Presenting a FEM model for Madsen form of Boussinesq equations for modelling transformation of ocean waves over variable bathymetry. …

Recent & Upcoming Talks

Problem statement for PhD presented with literature review and research gap.

Projects

ALL THINGS ARE DIFFICULT BEFORE THEY ARE EASY

*

CBS method for viscous flow

Development of 2D finite element model for viscous flow around strucutres using the CBS scheme.

Water-impact using Star-CCM+ and ANSYS Fluent

Simulation of water-impact on freely-falling wedge simulated using overset and adaptive mesh techinques.

Underwater rover

A rover for inspection cracks in underwater surfaces using ultrasonic sensors.

Boussinesq-FEM for large-domains

A quick FEM model based on depth integrated form of Boussinesq equations for modelling wave-transformation.

Hybrid Boussinesq-MLPG model

Coupling between mesh-based 2DH potential flow and particle-based 3D viscous flow free-surface models

Navier-Stokes-MLPG for 3D free-surface flows

A Meshless Local Petrov Galerkin method (MLPG) for solving 3D Navier-Stokes equations for fluid flow with free-surface.

Storm-surge FEM model

Efficient GPU parallel FEM model for predicting storm-surge due to cylone.

Internal Project

An example of using the in-built project page.

Contact

Connect with me

  • shagun.1994@gmail.com
  • Department of Ocean Engineering, Alumni Ave, Indian Institute Of Technology Madras, Chennai, Tamil Nadu, India, 600036