Engineering Engineer

ANUJ BHARDWAJ **************@****.**.**

934*******

Academic Details

Year Degree Institute CGPA/Marks 2021 M.Tech Mechanical Thermo-Fluid Engineering(TA) Indian Institute of Technology Hyderabad 8.3 2016 Bachelor Of Engineering O.P Jindal Institute Of Technology 69.95% 2012 XII (CBSE) Carmel Convent English Medium School 69.66% 2010 X (ICSE) O.P Jindal School 70.85%

Scholastic Achievements

GATE Exam (Mechanical) : AIR Rank : 1014, Marks : 75.94, Score : 786. Within top 1 percentile candidates. 2018 CGPET (C.G Entrance exam for Engineering) : Rank : 1650 . Within top 5 percentile candidates. 2012 Fellowship in post-graduate studies from MHRD. 2019-2021 Skills and Abilities

Ansys Fluent, Solid Edge, Auto CAD : 2-D and 3 - D modelling, with mesh generations and simulations. Matlab, C, C++ : Solving Computational Fluid Dynamics and obtaining solutions of ODEs and PDEs. Python, Java For Android : Data Structures, Tuple, Dictionaries, Java Programming, Android Studio. Course Activity and Projects

Advanced CFD C++ solver

Solving 2- Dimensional lid driven cavity using stream function and vorticity formulation, adopting the semi- implicit Finite Volume Method using schemes such as: a) Upwind, b) Second Upwind, c) Quick Scheme. Solving the 2- D lid-driven and buoyancy-driven cavity problem using the Navier-Stokes formulation, adopting the semi-explicit and the semi-implicit method.

JAN -

MAY 2020

Computational Fluid Dynamics MATLAB solver

Solving 1-D problem using Tridiagonal Function with BTCS and FTCS schemes under Finite Difference Method.

Solving 2- D Unsteady Heat Conduction problem using GSOR(Gauss-Seidel Method) subroutines. AUG- DEC

2019

Advanced Heat Transfer

Blasius Equation solution for laminar flow over flat plate AUG - DEC 2019

M - Tech Thesis

Project : Effect of inlet air swirl velocity on Methane - Air combustion characteristics. AUG 2020 - Present Problem : Natural gas combustion emits harmful Nitrogen Oxide pollutants which needs to be reduced. Solution : Providing tangential velocity to inlet air, thereby creating the swirl in the combustion chamber. Methodology : K- Epsilon turbulence modelling, along with eddy dissipation method for modelling combustion. Statement : Swirling in the flow have considerable effect on fuel air mixing rate and flame propagation. Bachelor of Engineering Project

Project : Indirect Type Evaporating Cooling Systems. 2016 Problem : Direct contact cooling systems increases the humidity of air and are less efficient . Solution : Indirect contact heat exchanger,cools the air without direct contact of air and cooling material. Simulations : Anlysis is done on copper and Aluminium tubes. Training and Experience

Worked as Teaching Assistant at CAE Lab in Mechanical And Aerospace Engineering. AUG 2019 TO MARCH 2020 Industrial training at Plate Mill unit of JSPL - Plant, Raigarh, Extracurricular Activity

SPORTS : Swimming competition in District stadium. DRAMA: Performed and written comic plays in college. DEBATE: Second prize in debate competition -' Yuva-Sabha',Technical Fest -OPJIT. General Skills

Creativity Communication Problem Solving Leadership Team Work Attention To Details.

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