Mechanical Engineer Inplant Training
Resume:
HARISH.R
https://skill-lync.com/profiles/Harish-Bapoom-975
Neyveli, Cuddalore 996-***-****, 989-***-**** ******.******@*****.*** OBJECTIVE
Having experienced in mechanical engineer looking opportunities with interest in Design, Analysis and Aerodynamic Developments.
EDUCATION
Master's Certification Program in Hybrid Electric Vehicle Design and Analysis, Skill Lync (currently learning) B.E- Mechanical Engineering, Panimalar Engineering College (year of passing: 2018) (Marks Scored: 75%) Higher Secondary, Jawahar HR.SEC school (year of passing: 2014) (Marks Scored: 87.5 %) SSLC, Jawahar HR.SEC school (year of passing: 2012) (Marks Scored: 85.5 %) EXPERIENCE
CAPARO ENGINEERING INDIA LIMITED (Forging division) - 2 Months
It is joint venture with India’s largest car manufacturer- Maruti Suzuki India Limited and Manufacture of automotive systems, assemblies, modules and components for Automotive OEMs and Engineering majors.
Worked under production unit in forging division for automobile parts. CRP INDIA PRIVATE LIMITED (Quality division) - 1 month
Manufacturer Precise die cast parts for diverse manufacturing needs
Worked under quality control to check the quality of finished products of automobile parts. PEARL PATCH (line supervisor) – 6 months
Manufacturer of Twin Tyre Connector, Tyre Patch, Tyre Valve, Pressure Gauge and many more
Supervised the Patch production line.
INPLANT TRAINING
Completed Inplant Training in Neyveli lignite Corporation India limited PROJECTS
Working model of radial engine
Project role : Team member
Software used : AutoCAD 2014 (Drafting), CREO 2.0 (3D Modelling) Ansys 15.0 (Analysis)
Effect of nanoparticle of performance, emission and combustion characteristics of diesel engine using neem oil. Project role : Team member
Abstract : The current study investigates the suitability for using neem oil as an Alternative fuel For compression ignition (CI) engine
Simulations on Gear Box with sloshing effect
Performed the four simulations in the Gearbox and compared the results among all the four cases. Case 1:20% Immersion, Fluid - Engine oil.
Case 2:30% Immersion, Fluid- Engine oil.
Case 3:20% Immersion, Fluid-n-heptane (c7h16).
Case 4:30% Immersion, Fluid-n-heptane (c7h16).
Conjugate Heat Transfer (CHT) on model of Exhaust Port
Performed a CHT analysis on a model of an exhaust manifold and to compare the solutions for 2 sizes of meshes.
Showed the velocity, temperature and heat transfer coefficient plots and explained if refining the mesh produced any changes to the results.
Rayleigh Taylor Instability simulation
Some practical CFD models that have been based on the mathematical analysis of Rayleigh Taylor waves
Explained how these mathematical models have been adapted for CFD calculations.
Performed the Rayleigh Taylor instability simulation for 2 different mesh sizes with the base mesh being 0.5 mm. Compared the results by showing the animations Analysis of Cyclone Separator
Performed an analysis on a given cyclone separator model by varying the particle diameter from 1 μm to 5 μm and calculated the separation efficiency in each case.
Performed an analysis on a given cyclone separator model by varying the particle velocity from 1 m/sec to 5 m/sec and calculated the separation efficiency and pressure drop in each case. Combustion simulation on combustor Model
Performed a combustion simulation on the combustor model.
Plotted the variation of the mass fraction of the different species’ in the simulation using line probes at different locations of the combustor.
Plotted for CO2, H2O, CH4, N2, O2, NOx emissions & Soot formation. Conjugate Heat Transfer Analysis on a graphics card
Run the simulation by varying the velocity from 1m/sec to 5m/sec for at least 3 velocities and discuss the results.
Find out the maximum temperature and heat transfer coefficient attained by the processor.
Proved that the simulation has achieved convergence with appropriate images and plots.
Identified potential hotspots on the model.
Test on the Ahmed body
Described Ahmed\'s body and its importance.
Explained the reason for the negative pressure in the wake region.
Explained the significance of the point of separation. Steady-state simulations on the mixing tee geometry
Set up steady-state simulations to compare the mixing effectiveness when hot inlet temperature is 360C & the Cold inlet is at 190C.
Simulation of Flow through a pipe in Open Foam
The purpose of this project is to simulate the laminar incompressible flow through pipe. With the Reynolds number and pipe diameter calculation of inner velocity and entrance of the pipe has to be done. Simulation of a 1D Super-sonic nozzle flow simulation using Macormack Method
Written separate functions for conservative and non-conservative forms
Figured out the minimum number of cycles for which the simulation should be run in order for convergence
Compared the normalized mass flow rate between the conservative forms and non-conservative forms - made suitable conclusions
Solving the steady and unsteady 2D heat conduction problem
Solved the 2D heat conduction equation by using the point iterative techniques for Steady state analysis & Transient State Analysis
Implemented the following methods
Jacobi
Gauss-seidel
Successive over-relaxation
written code for both implicit and explicit schemes (This is for the Transient Analysis only) NASA Thermodynamic parsing by MAT LAB
Written a code in MATLAB to parse the NASA Thermodynamic data file and to calculate thermodynamic properties of various gas species.
Calculated the enthalpy, entropy and specific heat for all species in data file.
Calculated the molecular weight of each species and display it in command window. ANIMATING SIMPLE PENDULUM by MATLAB
Written a program that solves the ODE. This ODE represents the equation of motion of a simple pendulum with damping
AREA OF INTEREST
Design
Aerodynamic analysis
Automobile
Software’s known
Modelling: AutoCAD, catiaV5
Computational Analysis: ANSYS, MATLAB
Statistical Data Analysis: MS-Excel
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