Faculty

Dr. Shubhankar Chakraborty

Assistant Professor

E-mail: shubhankar@iiitdm.ac.in | Ph: 04427476370 | Room No: Laboratory Complex 308B

Home Page: http://web.iiitdm.ac.in/iiitdm_shubhankar/

Orcid: https://orcid.org/0000-0003-4795-1228

Google Scholar: https://scholar.google.co.in/citations?user=_sOzGy0AAAAJ&hl=en

Education

Indian Institute of Technology Kharagpur

Kharagpur

PhD (Multisensor Measurement and Data Fusion)

2010 - 2016

Indian Institute of Technology Kharagpur

Kharagpur

M.Tech (Thermal Engineering)

2008 - 2010

Jadavpur University

Kolkata

B.E. (Mechanical Engineering)

2004 - 2008

Specialization

  1. Thermal Engineering, Inverse Heat Transfer, Multiphase flow

Research Interests

  1. Heat Transfer, Multiphase flow, Multisensor measurement and data fusion, image processing

Honours + Awards + Recognitions

  1. 2012 - CSIR SRF

  2. 2017 - National Post-Doctoral Fellowship

Work Experience

Teaching

  1. Ad-hoc Faculty in the Department of Mechanical Engineering, at National Institute of Technology Jamshedpur, India (July, 2016 to July, 2017)

Research

  1. National Post Doctoral Fellow at Indian Institute of Science Bangalore (Oct, 2017 to May, 2018)

Professional Membership

  1. Indian Society for Heat and Mass Transfer - Life member

Professional Service

  1. Professor In-Charge for Institute SAE Collegiate Club

  2. Professor In-Charge for Institute Mars Rover Socity Students

Teaching

  1. IIITDM Kancheepuram

  2. 1) Concepts in Engineering Design (Semester 1, 100 Students)

  3. 2) Engineering Graphics (Semester 1, 2 batches - 60 students per batch )

  4. 3) Design Realization (Semester 2, 4 batches - 60 students per batch)

  5. 4) Industrial Sketching (Semester 2, 2 batches - 60 students per patch)

  6. 5) Automation in Manufacturing (Semester 5, 72 Students)

  7. 6) Design of Heat Exchangers (B.Tech (5th and 7th Semester), Dual Degree (5th and 7th Semester), M.Des, PhD )

  8. 7) Inverse Problem in Engineering (B.Tech (5th and 7th Semester), Dual Degree (5th and 7th Semester), M.Des, PhD )

  9. 8) Heat Transfer

  10. NIT Jamshedpur

  11. 1)Engineering Thermodynamics (PR 105),

  12. 2) Engineering Graphics (CE 103),

  13. 3) Engineering Graphics Lab (CE 108),

  14. 4) Engineering Thermodynamics Lab(PR 109),

  15. 5) Refrigeration and Air Conditioning (ME 605)

Journal Publications

  1. Estimation of the thermohydraulic performance of a microchannel heat sink with gradual and sudden variation of the flow passage, Rajalingam, A., and Shubhankar Chakraborty, International Journal of Heat and Mass Transfer 190 (2022): 122776.

  2. Effect of shape and arrangement of micro-structures in a microchannel heat sink on the thermo-hydraulic performance, Rajalingam, A., and Shubhankar Chakraborty, Applied Thermal Engineering, 190, 116755, 2021

  3. Effect of micro-structures in a microchannel heat sink–A comprehensive study, Rajalingam, A., and Shubhankar Chakraborty, International Journal of Heat and Mass Transfer 154 119617, 2020

  4. Characterisation and classification of gas-liquid two-phase flow using conductivity probe and multiple optical sensors, Shubhankar Chakraborty, P. K. Das, International Journal of Multiphase Flow, 124, 103193, (2020)

  5. Vapor mediated control of microscale flow in sessile droplets, Omkar Hegde, Shubhankar Chakraborty, Prasenjit Kabi, and Saptarshi Basu, Physics of Fluids, 30(12), p.122103 (2018).

  6. A unique methodology of objective regime classification for two phase flow based on the intensity of digital images, Shubhankar Chakraborty, P. K. Das, Experimental Thermal and Fluid Science, 99, 537-546, 2018

  7. Controlling Self Assembly and Topology at Micro-Nano Length-scales using Contact Free Mixed Nanocolloid Droplet Architecture , Raju, Lijun T., Shubhankar Chakraborty, Binita Pathak, and Saptarshi Basu. Langmuir, 34 (18), 5323–5333 (2018).

  8. Visualization and flow regime identification of downward air-water flow through a 12 mm diameter vertical tube using image analysis, Akhilesh Peddu, Shubhankar Chakraborty, P. K. Das., International Journal of Multiphase Flow, 100, 1-15(2018)

  9. Reconstruction of elongated bubbles fusing the information from multiple optical probes through a Bayesian Inference Technique, Shubhankar Chakraborty, P. Roy Chaudhuri, P. K. Das, Review of Scientific Instruments, 87 (7), 075109 (2016)

  10. Flow boiling in a heat sink embedded with hexagonally linked minichannels, Shubhankar Chakraborty, OP Sahu, P. K. Das, ASME J. of Heat Transfer, 138 (8), 081504-081504-8 (2016)

  11. Model based reconstruction of an axisymmetric moving void using multiple conductivity probes, Shubhankar Chakraborty, P. K. Das, Chemical Engineering Science, 146, 64-75 (2016)

  12. Steady State Performance of a Rectangular Natural Circulation Loop with Differentially Heated Parallel Channels, Shubhankar Chakraborty, P. K. Das, ASME J. of Thermal Science and Engineering Applications, 8(1), 011022 (2015)

  13. Application of Bayesian Inference Technique for the reconstruction of an isothermal hot spot inside a circular disc from peripheral temperature measurement - a critical assessment, Shubhankar Chakraborty, P.K.Das, International Journal of Heat and Mass Transfer, 88, 456-469, (2015)

  14. Critical Heat Flux During Flow Boiling in Mini And Microchannel-A State of the Art Revie, P. K. Das, Shubhankar Chakraborty, S. Bhaduri Frontiers in Heat and Mass Transfer 3, 013008(1-17 ) (2012)

  15. A unique methodology of objective regime classification for two phase flow based on the intensity of digital images, Shubhankar Chakraborty, P. K. Das. (under revision Experimental Thermal and Fluid Science)

Conference Publications

  1. Computational investigation of the thermohydraulic performance of a flexible heat pipe for various bending angle, filling ratios and materials, Udaybhanu, Gadi, A. Rajalingam, and Shubhankar Chakraborty, 26th National and 4th International ISHMT-ASTEF Heat and Mass Transfer Conference, December 17-20, 2019, IIT Madras, India

  2. Optimization of Hydrodynamic Performance of a Venturi Scrubber through Numerical Analysis, Modi, Satwik, and Shubhankar Chakraborty, 26th National and 4th International ISHMT-ASTEF Heat and Mass Transfer Conference, December 17-20, 2019, IIT Madras, India

  3. Estimation of hydrodynamic performance of microchannel heat sink with microstructures of various size and shapes− A comprehensive study, Rajalingam, A., and Shubhankar Chakraborty, 26th National and 4th International ISHMT-ASTEF Heat and Mass Transfer Conference, December 17-20, 2019, IIT Madras, India

  4. Effect of Various Heights of Micro-Structures in the Microchannel Heat Sink – A Comprehensive Study, Rajalingam A and Shubhankar Chakraborty, 15th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, July 26-28, 2021, Virtual, 159

  5. Influence Of Geometric, Flow And Fluid Properties On Bubble Formation Through Submerged Orifice - computational Investigation, Nagendra Kumar Chaurasia and Shubhankar Chakraborty, 15th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, July 26-28, 2021, Virtual, 334

  6. A Numerical and Experimental Analysis of Pool Boiling Over a Surface With Rectangular Micro-Pillars, Suswanth Lingareddy, Shubhankar Chakraborty, Bhavin Rathod, Abhishek Tyagi and Saptarshi Basu, 15th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, July 26-28, 2021, Virtual, 408

  7. Performance Optimization of a Thermo-Electric Generator through Parametric Optimization of the Heat Sink, KVS Ramakanth, Kola Balaji Shritheja and Shubhankar Chakraborty, 25th National and 3rd International ISHMT-ASTEF Heat and Mass Transfer Conference, December 28-31, 2019, IIT Roorkee, India, IHMTC-HTQ-895

  8. Identification of transient internal heat source using modified levenberg–marquardt algorithm, Shubhankar Chakraborty, P. K. Das, 24th National and 2nd International ISHMTASTEF Heat and Mass Transfer Conference, December 27-30, 2017, BITS Pilani Hyderabad Campus, India, IHMTC2017-19-1363

  9. Characterization of bubbly flow through the fusion of multiple features extracted from high speed images, Shubhankar Chakraborty, P. K. Das, Proceeding of IEEE 1st International Conference on Control, Measurement and Instrumentation, January 8-10, 2016, Kolkata, India, 366-370

  10. Reconstruction of an internal heat source using heat flux sensor and Bayesian inference technique, Shubhankar Chakraborty, Monika Pani, P. K. Das, Proceeding of 23rd National and 1st International ISHMTASTEF Heat and Mass Transfer Conference, December 17-20, 2015, Thiruvananthapuram, India, IHMTC2015-254

  11. Steady State Performance of a Rectangular Natural Circulation Loop with Differentially Heated Parallel Channels, Shubhankar Chakraborty, P. K. Das, Proceedings of the 22nd National and 11th International ISHMT-ASME Heat and Mass Transfer Conference December 28-31, 2013, IIT Kharagpur, India HMTC1300115 (2013).

  12. Prediction of Curved Interface for Stratified Gas-Liquid Flow Fusing Data from Multiple Conductivity Probe, Shubhankar Chakraborty, P. K. Das, S. Mukhopadhyay 8th International Conference on Multiphase Flow, ICMF 2013, Jeju, Korea ICMF-2013-161 (2013).

Patents

  1. Method And System For Reconstruction Of Moving Voids, by Shubhankar Chakraborty, Partha Roy Chaudhuri, P. K. Das, Indian Patent, Application No.: 201631003910 dated February 03, 2016 (Granted) - Patent No. 393589

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