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CFD, FEA, Control System design, ANSYS, MATLAB

Location:
LIC Colony, Odisha, India
Salary:
10000-20000
Posted:
January 19, 2021

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Resume:

Asutosh Beuria

E ***, Azad Hall of Residence IIT Kharagpur, West Bengal, 721302, India

Mob: +91-828*******

Email: adjjte@r.postjobfree.com adjjte@r.postjobfree.com

Research Interests:

Microfluidics; Transport Processes; Heat Transfer; CFD and Numerical Modelling, Control Theory

Education:

2018-Present: B.Tech-M.Tech (Dual-Degree) in Department of Mechanical Engineering, Indian Institute of Technology Kharagpur, India

CGPA: 8.94/10

2016-2018: Higher Secondary Education, CHSE, Ravenshaw Junior College, Cuttack, Odisha, India Aggregate- 91.67%, Rank-1 in College, Rank-05 in State

Technical Skills:

Programming and Simulation Tools: C, C++, Python, MATLAB, ANSYS FLUENT, EES, Solidworks, Autodesk Fusion 360

Skills: CFD, FEA, CAD, Numerical Analysis, Algorithms, Machine Learning,NLP basics

Relevant Courses:

Ongoing: Heat Transfer, Embedded Control System, Finite Element Methods, Mechanics Of Solid

Completed: Thermodynamics,Modelling and PID tuning of Tesla EV in Simulink, Kinematics of Machine*, Probability and Statistics, Basic Electronics*, Fluid Mechanics, Dynamics, Mechanics, Partial Differential Equations, Transform Calculus, Physics*, Engineering drawing and CAD(SOLIDWORKS)*, Mathematics (1 and II), Programming and Data structure*, Text Analytics and Algorithms with Python*,

NPTEL Robotics, Basic Electrical technology*

‘*’ -- includes Lab components

Research Experience and Projects:

Jan 2020-Oct 2020 The dynamics of swimming microorganisms in a chemoattractant field,

present Microfluidics and CFD Lab, IIT Kharagpur, India.

Advisor: Prof. Aditya Bandopadhyay

oStarted a comprehensive study on the biophysical and mechanical principles of locomotion at the small scales relevant to cell swimming, tens of micrometers and below. At this scale, inertia is unimportant and the Reynolds number is small and the Fluid Mechanics is determined accordingly.

oThis work proposes the study of the dynamics of the swimming microorganisms with propelling flagellum like sperm cells in a chemoattractant field. A specific case is considered where the slender swimmers which propel themselves by propagating a bending wave along their body. Resistive force theory is used for the evaluation of the viscous forces and torques exerted by the surrounding fluid. The sperm cell swimmer is discretized as a deformable chain of N-link and the kinematics and governing equation are derived accordingly. The numerical simulation for the position and relative angles were done using MATLAB.

June 2019- Computational study of Melting and Solidification behavior of Phase Changing Material(R-82) in TES,

August 2019 Advisor: Prof. Sudhansu S. Sahoo

oAnalyzed the melting and solidification behavior of PCM R-82 which is used in horizontal triplex tube heat exchanger thermal energy storage systems. This research analyzed how extended surfaces are responsible to enhance the heat transfer rate for smooth melting and solidification of PCM. This study compared between without fin and finned TTHX thermal storages by using heating method and Numerical simulations were done using CFD approach in FLUENT.

oProposed the design of five different geometries implemented to TTHX. Four different types of fins like internal 4 fin, external 4 fins, internal 6 fins, external 6 fins and without fin case have been considered for numerical model. It was found out that out of all geometries external 6 fin is the most efficient one as its melting time is reduced to 43% (5.58hour) in comparison of without fin (13 hour) TTHXS. These PCMs

have a promising future in storing and retaining energy for solar energy systems during Non-Light hour.

●Internships / Summer Trainings:

May 2020- Fault Detection and Diagnosis in a Digital Twin model of Cryogenic Energy Storage Systems

August 2020 Cryogenic Engineering Department, IIT Kharagpur

Advisor: Dr. Pavitra Sandilya

oThe work involved the developing a Digital Twin Model of Cryogenic TES. Analyzed heat transfer mechanisms in the Packed Bed system in the CES, derived the governing equation for the heat transfer between N2 and pebbles coupled system. Regression model of the relation between non-dimensional temp., time, position(Inverse Sigmoid Type) in the packed bed coupled system was found out using experimental data. Used FDM to develop Numerical scheme to solve for the Temperature profile and compared with experimental results.

oIdentified various faults in TES, especially pertaining to that of Packed bed system and developed Fault Detection model. Insulation Failure, Filter Failure (Moisture, Dust), Sensor Failure(RTDs, Pressure) were studied. For Insulation failure, simple fault detection model involving Radial conduction across wall insulation in packed bed was used. For RTDs, a wavelet transform-based method for the FDD scheme of the abrupt faults of the sensor was proposed(Basically it uses sensor input signal, no fault output signal and faulty output signal) . The model was simulated in the SIMULINK.

Dec 2019- Numerical study of an Electroosmotic flow in the Microchannel,

Jan 2020 CET, Bhubaneshwar, Odisha

Advisor: Dr. Ashok Ku. Barik

oExecuted a thorough literature survey on different aspects of Microfluidics especially Electrokinetics, Electroosmotic flows, Pressure driven flows, EDL, Lab-On-A-Chip devices, effects of Heat flux applied on walls in those systems.

oAnalyzed a combined pressure-driven and electroosmotic flow in microchannel and the effect of heat transfer. Numerical forms of equations were derived considering asymmetries in boundary conditions (heat flux, EDL potential). The Numerical solutions found were matched with the analytical solutions and it was concluded that velocity and temperature profiles are sensitive to the asymmetries in the BCs. FDM and EES software were used as Numerical Simulation tools for finding Velocity and Temperature profiles.

Academic Distinctions:

oSuccessfully received a department-change on academic performance basis out of ~1450 students from Manufacturing Engineering to Mechanical Engineering at the end of first year.

oQualified in IIT-JEE (Advanced)-2018 with All India Rank-3944 (out of 1.5 million aspirants).

oReceived an EX grade in the Text Analytics and Algorithms with Python, a Summer Course under CEP.

oRank-1 in college and rank-05 in Odisha state in Annual Higher Secondary Examination (10+2).

Received Pranakrushna Parija Memorial Award and Annual SAMBADA Excellence Award for Performance in Higher Secondary Examination (10+2).



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