8/10/2019 Resume Saurabh Mangal

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Saurabh Mangal Email: saurabhmangal12@gmail.com CFD, System Engineer Mobile: +91-9730796805Tata Research Development & Design Center, D-505, HAL Township, Kanpur, India TCS Innovation Labs, Pune, India. Date of Birth: 07-Mar-1989

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Career Objective:

Work in a challenging and intellectually stimulating environment and make unparalleled contribution to the organization through myhard work and innovation.

Current Qualification:

System Engineer, TATA Research Development and Design Centre, TCS Innovation Labs, Pune. (March 2013 to Present)

Academic Qualification:

Examination/ Degree Year of Passing University/Board Percentage/CGPA/Rank

5-Year IDD (B.Tech + M.Tech)Mechanical Engineering

2012Indian Institute of Technology, Banaras

Hindu University- (IIT -BHU)C.G.P.A. – 8.26 on a scale of 10

Topper of the batch, Gold medallist

Higher SecondaryExamination(12 th)

2006 Indian School Certificate 90.4%

High School Examination(10 th) 2004Indian Certificate of Secondary

Education84.8%

Job Projects:

1. Optimal design of tundish for maximum inclusion removal and minimum dead zones in molten steel flow: To obtain a highquality steel, the molten steel should have minimum inclusion and homogenized temperature. The design of secondary processingvessel, tundish, was optimized for a range of caster speed using calculation of flow simulations, population balance method (PBM)and residence time distribution (RTD) analysis.

2. Inclusion Removal modeling of molten steel in argon stirred ladle : The process of inclusion removal through argon purging inladle is modeled using one way coupled CFD models. The 2 phase steady turbulent flow is solved for argon purging in molten steeland then scalar transport equation of inclusion characteristic number density and characteristic concentration is solved.

3. Fluid flow and interfacial behavior of three-phase argon stirred ladle: A free surface 3-phase model was developed to study the behavior of interfacial area of slag-molten due to argon purging from bottom.

4. Continuous casting solidification: The model was developed to study solidification behavior of molten steel in caster and macrosegregation of carbon and other species in the solidified casted slab. The general enthalpy-porosity technique is used to solve the

problem.5. Indoor- Air Environment of Buildings: The existing building energy models provide solutions using data analytics and lumped

models which are not much accurate because of inconsideration of flow and temperature variation or gradient in a system. To

approach for a better prediction of energy consumption a coupled CFD and Building energy simulations (BES) model is proposed.

Academic Projects:

Analysis of Plate Type Heat Exchanger using Nanofluids

Guidance: Dr. Pradyumna Ghosh, Department of Mechanical Engineering, IIT-BHU. Duration: 6months (2011-2012)

Along with extended surface area of corrugated plates, nanofluids were used as a coolant to enhance the heat transfer in plate heat

exchanger. A high computational CFD analysis was performed using a commercial package Fluent 14.0 for predicting enhancement in

effectiveness of heat exchanger when nanofluid is used as coolant. The properties of nanofluid were implemented using user defined

function and results were validated with experiments.

Energy Transport Characteristics of Nanofluids

Guidance: Dr. Pradyumna Ghosh, Department of Mechanical Engineering, IIT-BHU. Duration: 6months (2010-2011)

The project was to study different characteristics models of thermal conductivity, viscosity, density and specific heat of nanofluids and

then predict a generalized model using the experimental results for the nanofluids present in the laboratory.

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