Welcome to Department of

Dr. Dushyant Singh

Associate Professor (on lien)
Mechanical Engineering

Email: [email protected]

Welcome to Fluid Flow and Heat Transfer Research Home in

Department of Mechanical Engineering

Dr. Dushyant Singh is an Assistant Professor in Mechanical Engineering Department at National Institute of Technology Manipur, India since Oct. 2015. He received his Ph.D. from Indian Institute of Technology Delhi, (IIT Delhi) in 2014, Master in mechanical engineering (CFD and Heat Transfer) in 2009 and Bachelors in mechanical engineering in 2007. Prior to joining NIT Manipur, he was working as a postdoctoral researcher in joint industrial research work “Ultra-super critical power plant” with BHEL industry in IIT Delhi.

Dr. Singh works in a general area of fluid flow and heat transfer with a focus on understanding the flow physics and heat transfer characteristics of the complex problem in advanced industry problem, along with experimentally and numerically of interest. He has previously worked with both experimental and numerical investigation for jet impingement heat transfer on a circular cylinder. The outcome of this work is definitely helpful in the direction of heat transfer enhancement or several engineering application such as cooling of turbine components, surface cooling of pipes carrying hot air in the aircraft cooling system food processing industry.

His current research is collaborative and directly practical engineering applications in industries. Other future works of research interest agenda focus on the question of how to leverage the advance in our understanding the flow physics and heat transfer enhancement.

Area of Interest

  • Experimental and Numerical Analysis of Heat Transfer Enhancement
  • Use of New Experimental Techniques in Fluid Flow and Heat Transfer
  • Turbulent Flows
  • Computational Fluid Dynamics (CFD)
  • Electronic Cooling and Heat Sink

Capability of Students for Research in Fluid Flow and Heat Transfer Engineering problem 

We are looking for an enthusiastic and determined individual who can work both independently as well as in the context of a team. The successful candidate is capable of conceptual thinking, is looking forward to learning new techniques, has good communication skills and is well organized.

Core Background in the following subject is valuable: Fluid Mechanics, Heat Transfer, Experimental Measurement Techniques, CFD and fluid flow and heat transfer and related subjects.

Knowledge of computational languages such as C, Matlab, Labview and expertise in the commercial CFD package such as FLUENT/CFX / COMSOL or Open Source CFD Toolbox: OpenFoam and any CAD software may be beneficial.

For further information about the specific research work or any project , pleases contact:

Dr. Dushyant Singh 

Assistant Professor Grade-I 

Department of Mechanical Engineering

National Institute of Technology Manipur

Langol, Imphal-Manipur,795004

E-mail: [email protected] ; [email protected]

Contact No.: +91-7085680624

Paper Published

PUBLICATIONS IN REFEREED JOURNALS (SCI Index):

1. Hitesh Sharma, Dushyant Singh and Ashutosh Kumar “Large eddy simulation of film cooling over a flat plate in supersonic flow” ASME-Journal of Thermal Science and Engineering Applications  Vol.13 (3); 031027:1-16, 2021.

2. Jishnu Handique, Kuldeep Singh and Dushyant Singh “Effects of soot deposition and slot erosion on the mist film cooling of a flat plate in the presence of upstream ramp” Thermal Science and Engineering Progress – Vol 22, 2021:100784.

3. Kedumese u Mekrisuh, Shubham Giri, Udayraj, Dushyant Singh and Dibakar Rakshit “Optimal design of the phase change material based thermal energy storage systems: Efficacy of fins and/or nanoparticles for performance enhancement”  Journal of Energy Storage  – Vol-33, 2021:102126. 

4. Ashutosh Kumar Singh, Kuldeep Singh, Dushyant Singh and Niranjan Sahoo “Large Eddy Simulations for Film Cooling Assessment of Cylindrical and Laidback Fan-Shaped Holes with Reverse Injection” ASME-Journal of Thermal Science and Engineering Applications  Vol.13 (3); 031027:1-16, 2021. 

5. Gaurav Saxena, Dushyant Singh and Maitraye Raaj, “Thermal Analysis of a Microhotplate-An Experimental Study, IEEE- Journal of Microelectromechanical Systems- Vol.29; Issue:3; pp:408-417, 2020. 

6. Khangembam C,  Dushyant Singh, Jishnu Handique and Kuldeep Singh, Experimental and Numerical Study of Air-Water  Mist Jet Impingement Cooling on a Cylinder. International Journal of Heat and Mass Transfer - Vol: 150: 119368:1-19; 2020. 

7. Ketan A. Ganatra and Dushyant Singh “Numerical investigation of effect of semi-circular confinement bottom opening angle for slot jet impingement cooling on heated cylinder” International Journal of Thermal Science - Vol.149; 041006:1-10, 2020. 

8. Kedumese u Mekrisuh, Dushyant Singh and Udayraj “Performance analysis of a vertically oriented concentric-tube PCM based thermal energy storage system: Parametric study and correlation development”  Renewable Energy – Vol-149, pp. 902-916, 2020. 

9. Ketan A. Ganatra and Dushyant Singh “Comparison of Various RANS Models for Impinging Round Jet Cooling From a Cylinder” Journal of Heat Transfer 141(6), 064503:1-9, 2020. 

10. Ketan A. Ganatra and Dushyant Singh “Experimental study of air slot jet impingement cooling from cylinder placed on flat plate” ASME-Journal of Thermal Science and Engineering Applications  Vol.12(4); 041006:1-10, 2020. 

11. Khangembam C and Dushyant Singh “Experimental investigation of air-water mist jet impingement cooling over a heated cylinder” Journal of Heat Transfer - 141(8), 082201:1-12, 2019. 

12. Joseph Issac, Dushyant Singh and Saurabh Kango “Experimental and Numerical Investigation of Heat Transfer Characteristics of Jet Impingement on a Flat Plate” Heat and Mass Transfer – 55(373): 531-546, 2020. 

13. Vikash Kumar Singh Chauhan and Dushyant Singh “Experimental Study of Mist Jet Impingement Cooling” Journal of Enhanced Heat Transfer – 26(05), pp. 451 -470, 2019.

14.Vikash Kumar Singh Chauhan and Dushyant Singh “Numerical study on air-atomized water mist cooling of a heated flat plate” Heat Transfer Research – 50(12), pp. 1205 -1229, 2019.

15. Dushyant Singh, B. Premachandran, Sangeeta Kohli “Double circular air jet impingement cooling of a heated circular cylinder” International Journal of Heat and Mass Transfer: 109, 619-646, 2017.

16. Dushyant Singh, B. Premachandran, Sangeeta Kohli “Circular Air Jet Impingent Cooling of a Circular Cylinder with Flow Confinement” International Journal of Heat and Mass Transfer: 91, 969-989, 2015.

17. Dushyant Singh, B. Premachandran, Sangeeta Kohli “Effect of Nozzle Shape on Jet Impingement Heat Transfer from a Circular Cylinder” International Journal of Thermal Science: 96, 45-69, 2015.

18. Dushyant Singh, B. Premachandran, Sangeeta Kohli “Numerical Simulation of the Jet Impingement Cooling of a Circular Cylinder” Numerical Heat Transfer, Part A-Applications: 63, 1-33, 2013.

19. Dushyant Singh, B. Premachandran, Sangeeta Kohli “Experimental and Numerical Investigation of Jet Impingement Cooling of a Circular Cylinder” International Journal of Heat and Mass Transfer: 60, 672-688, 2013. 

20. Saurabh Kango, Dushyant Singh, Rajesh Kumar Sharma “Numerical Investigation on the Influence of Surface Texture on the Performance of Hydrodynamic Journal Bearing” Journal Meccanica: 47, 469-482, 2012.

 

INTERNATIONAL CONFERENCE PROCEEDINGS/BOOK CHAPTER:

1. Ashutosh Kumar Singh, Dushyant Singh and Niranjan Sahoo, Effect of various deposition configurations on film cooling characteristics of laidback fan shape hole, 8th International Symposium on Advances in Computational Heat Transfer- CHT-21, August 15-19, Rio de Janeiro-Brazil, 2021.

2. Ashutosh Narayan Singh and Dushyant Singh, Large Eddy Simulation of Jet Impingement on Flat Plate Using Sub-Grid Scale Models, 8th International Symposium on Advances in Computational Heat Transfer- CHT-21, August 15-19, Rio de Janeiro-Brazil, 2021.

 3. Ayush Kumar Rao, Dushyant Singh and Udayraj, Effect of taper and Perforation on Heat Tarnsfer Coefficient of a Passive Horizontal Heat sink, 3rd International Conference on Recent Advances in Mechanical Infrastructure-ICRAM-2021: 6-8 August, 2021.

 4. Ayush Kumar Rao and Dushyant Singh, Effect on heat transfer coefficient in perforated trapezoidal cross section fin, 2nd International Conference on Recent Advancement in Fluid and Thermal sciences 2020- 19-21 March, Dubai, 2021.

 5. Ashutosh Narayan Singh and Dushyant Singh “Flow and Thermal Characteristics of Jet Impingement on a Dimple plate using Large Eddy Simulation”, Recent Advances in Mechanical Infrastructure. Lecture Notes in Intelligent Transportation and Infrastructure. Springer, Singapore, Chapter No.-02, PP. 17-30; 2022. (doi.org/10.1007/978-981-16-7660-4_2).

 6. Hitesh Sharma, Dushyant Singh and Ashutosh Kumar Singh, Numerical Solution of Foreign-Gas Film Cooling in Supersonic Flow, Recent Advances in Mechanical Engineering. Lecture Notes in Mechanical Engineering. Springer, Singapore, Chapter No.-77, PP. 807-814; 2021.  (doi.org/10.1007/978-981-15-7711-6_79).

  7.Ghulam Rabbani and Dushyant Singh, Large Eddy Simulation of Turbulent Slot Jet Impingement on Heated Flat Plate, Recent Advances in Mechanical Engineering. Lecture Notes in Mechanical Engineering. Springer, Singapore, Chapter No.-76, PP. 795-806; 2021.  (doi.org/10.1007/978-981-15-7711-6_78).

 8. Dushyant Singh and Saurabh Kango, Numerical study of slot jet impingement on a cylinder by using two equation Turbulence Models, Recent Advances in Mechanical Infrastructure, Lecture Notes in Intelligent Transportation and Infrastructure. Springer –Singapore, Chapter No.-21, PP. 257-263; 2021. (doi.org/10.1007/978-981-33-4176-0_21).

 9. Kedumese u Mekrisuh, Udayraj and  Dushyant Singh, Design improvement of a vertically oriented thermal energy storage system considering melting front propagation, Recent Advances in Mechanical Infrastructure, Lecture Notes in Intelligent Transportation and Infrastructure. Springer –Singapore, Chapter No.-20, PP. 245-256; 2021. (doi.org/10.1007/978-981-33-4176-0_20).

 10. Bikram Kumar Pani and Dushyant Singh, Computational study of mist jet impingement heat transfer on a flat plate with slotted nozzle, Recent Advances in Mechanical Infrastructure; Publisher Springer Nature Singapore, PP: 133-141; 2020. (www.springerprofessional.de/en/fluid-flow-study-of-circular-jet-impingement-on-flat-plate/17290366).

11. Saurabh Kango and Dushyant Singh, Fluid flow study of circular jet impingement on flat plate, Recent Advances in Mechanical Infrastructure; Publisher Springer Nature Singapore, PP: 199-206 ; 2020.(www.springerprofessional.de/en/fluid-flow-study-of-circular-jet-impingement-on-flat-plate/17290380).

 12. Pani B.K. and Dushyant Singh, Numerical Study on Slot Mist Jet Impingement Cooling on a Flat Plate, Twelfth International Conference on Thermal Engineering: Theory and Applications: February 23-26, Vol: 2019, (journals.library.ryerson.ca/index.php/ictea/article/view/1301).

 13. Handique J. and Dushyant Singh, Slot Mist Jet Impingement Cooling on a Cylindrical Surface, Twelfth International Conference on Thermal Engineering: Theory and Applications: February 23-26, Vol: 2019, (journals.library.ryerson.ca/index.php/ictea/article/view/1186).

 14. Rahul Kumar Mondal and Dushyant Singh, Numerical study on single slot jet impingement on hemispherical convex dimple surface, Twelfth International Conference on Thermal Engineering: Theory and Applications: February 23-26, Vol: 2019, (journals.library.ryerson.ca/index.php/ictea/article/view/1285).

 15. Khangembam C and Dushyant Singh, Experimental study of two-phase air-water mist jet impingement cooling on cylinder, 3rd International Conference on Sustainable Energy and Environmental Challenges (18 –21 Dec., 2018); PP: 349-353, 2018.

 16. Ketan A. Ganatra and Dushyant Singh, Comparison of the original and the modified v2f model for impinging round jet cooling from a cylinder, 3rd International Conference on Sustainable Energy and Environmental Challenges (18 –21 Dec., 2018); PP: 396-399, 2018.

 17. Kedumese u Mekrisuh, Dushyant Singh and Udayraj, Numerical analysis of effect of aspect ratio and flow rate on the performance of PCM based thermal based thermal energy storage system, 3rd International Conference on Sustainable Energy and Environmental Challenges (18 –21 Dec., 2018); PP: 328-331, 2018.

 18. Vikash Kumar Singh Chauhan and Dushyant Singh, Numerical study of mist jet impingement cooling of an isothermal flat plate at low superheat, 2nd International Congress on sustainable Energy and Environmental Challenges (Dec.2017 –Jan. 2018); PP: 528 – 531; 2018.

 19. Ketan A. Ganatra and Dushyant Singh, Numerical investigation on air slot jet impingement cooling over a cylinder, 5th International Conference on Computational Methods for Thermal Problems (THERMACOMP2018), July 9-11; PP: 404 – 408; 2018.

 20. Anuj Kumar and Dushyant Singh, Numerical study of inclined air jet impingement cooling of a cylinder, 5th International Conference on Computational Methods for Thermal Problems (THERMACOMP2018), July 9-11; PP: 140 – 144; 2018.

 21. Joseph Issac and Dushyant Singh, Numerical study on slot jet impingement using OPENFOAM and ANYS FLUENT, 5th International Conference on Computational Methods for Thermal Problems (THERMACOMP2018), July 9-11; PP: 370 – 374; 2018.

Academic Information

Assistant Professor at the Department of Mechanical Engineering, NIT Manipur (10/2015 - Present).

Postdoctoral Researcher at the Indian Institute of Technology Delhi (IIT-D)  (06/2014 - 10/2015).

Doctoral of Philosophy at the Department of Mechanical Engineering, Indian Institute of Technology Delhi (IIT-D) (07/2009 - 06/2014).

Master of Technology at the Department of Mechanical Engineering, National Institute of Technology Hamirpur (06/2007 - 07/2009).

Bachelor of Technology at the Department of Mechanical Engineering, UPTU (06/2003 - 06/2007).

Project Information

1. Air-Mist Jet Impingement Heat Tarnsfer Mechanisms on cylinder 

    Funded: DST (SERB)  in Early Career Research (ECR) Award.

    Project Cost : INR 46, 651, 00/-

    Status: Completed

 

2. Novel Cooling Techinques for Substrate Exposed to Very high Temperature

    Funded: DST (SERB) in  Core Reserach Grant. 

    Project Cost: INR 47, 158, 32/-

    Status: Ongoing


Other Activity Information

Our Team

Research Scholar Groups:

Dr. Ketan A Ganatra (Full Time - Research Scholar)

Working Research Area : Experimental and Numerical Study of Air Jet Impingement on Heated Cylinder   

Co-supervisor : None

Status of PhD : Completed 

 

Dr. Vikas Kumar Singh Chauhan (Full Time - Research Scholar)

Working Research Area : Air-water Mist Jet Cooling Over Flat Plate 

Co-supervisor : None

Status of PhD : Completed

 

Dr. Chunkyraj Khangembam (Full Time JRF - DST Project Sponsored)

Working Research Area : Mist Jet Impingement Heat Transfer from a Heated Cylinder

Co-supervisor : None  

Status of PhD : Completed

 

Kedumese u Mekrishuh  (Full Time - Research Scholar)

Working Research Area : Numerical Investigation on Thermal Performance of Latent Heat Based Thermal Energy Storage System

Co-supervisor : Dr. Udayraj, Mechanical, IIT Bhilai-India   

Status of PhD : Submitted

 

Ashutosh Kumar Singh  (MHRD Sponsored : IIT Guwahati)

Working Research Area : Experimental and Numerical Investigation on Film cooling

Main-supervisor : Prof. N Sahoo, Mechanical, IIT Guwahati-India   

Registration Year : 2019

Status of PhD : Ongoing

 

Raj Gaurav  (Full Time - Research Scholar)

Working Research Area : Experimental and Numerical Investigation on Mist Film cooling

Co-supervisor : None

Registration Year : 2020

Status of PhD : Ongoing

 

Postgraduate (M.Tech) Supervision:

  1. Mr. Ayush Kumar: Effect on heat tranfer coefficient in perfortaed trapezoidal cross-section fin, (2021).
  2. Mr. Ashutosh Narayan Singh: Large Eddy Simulation of co-axial jet impingement heat tranfer and fluid flow, (2021).
  3. Mr. Ubaid Hamid Dar: Numerical investigation of film cooling of converging slot holes on flat plate, (2021).
  4. Mr. Jairaj Leishangthem: Numerical study of two phase cooling on rotating disc, (2021).
  5. Mr. Hitesh Sharma: Numerical study of film cooling with supersonic flow in rocket engine, (2020).
  6. Mr. Ghulam Rabbani: LES study of turbulent slot jet impingement on flat surface, (2020).
  7. Mr. Sumit Kumar: Heat transfer study on gas turbine blade, (2020).
  8. Mr. Bikram Kr. Pani: Numerical study on mist jet impingement cooling, (2020).
  9. Mr. Rahul Kr. Mondal: Experimental and Numerical study of turbulent slot jet impingement on heated flat surface, (2019).
  10. Mr. Sangoju Raj Kiran: Dynamic Stall in Vertical Axis Wind Turbine with Dropped Leading Edge, (2019).
  11. Mr. Jishnu Handique: Numerical Investigation of Mist Jet Impingement Cooling over Cylindrical Surface, (2019).
  12. Mr. Ashutosh Kr. Singh: Numerical study of film cooling with circular and fan-shaped, (2018).                                             
  13. Mr. Anuj Kumar : Oblique impingement heat  transfer on curved surface, (2018).
  14. Mr. Joseph Issac: Experimental and numerical analysis of jet impingement on flat plate, (2018).