Reverse Chronological Order

2021

Number. Title
Author Names
Journal Name

2020

Number. Title
Author Names
Journal Name

2019-2004

46. Quantification of free convection within a hemispherical annulus through a porous medium saturated by water-copper nanofluid,
A. Bairi, N. Suresh, P. Gayathri, and N. Nithyadevi, 
International Journal of Numerical Methods for Heat and Fluid Flow, 29, 1153-1166 (2019).
DOI: https://doi.org/10.1108/HFF-09-2018-0467

45. Numerical study of magnetohydrodynamic mixed convective flow in a lid-driven enclosure filled with nanofluid saturated porous medium with center heater,
N. Nithyadevi, T. Mahalakshmi, and H. F. Oztop,
Thermal Science, 23, 1861-1873 (2019).
DOI: https://doi.org/10.2298/TSCI171105313N

44. Numerical analysis of MHD natural convection in a partially open cavity with internal energy source,
N. Nithyadevi, and M. Rajarathinam,
International Journal of Engineering Systems Modelling and Simulation, 10, 215–225 (2018).
DOI: 10.1504/IJESMS.2018.095975

43. Numerical study on the effect of magnetic field in a porous enclosure using nanofluid with mid-horizontal moving lid: Brinkman-Forchheimer extended Darcy model,
N. Nithyadevi, and A. S. Begum,
Journal of Porous Media, 21, 1-14 (2018).
DOI: 10.1615/JPorMedia.v21.i5.50

42. Heat transfer enhancement of mixed convection in an inclined porous cavity using Cu-water nanofluid,
M. Rajarathinam, N. Nithyadevi, and A. J. Chamkha,
Advanced Powder Technology, 29, 590-605 (2018).
DOI: https://doi.org/10.1016/j.apt.2017.11.032

41. Convection in a sinusoidally heated square enclosure utilizing Ag-water nanofluid with heat generating solid body,
P. Umadevi, and N. Nithyadevi,
International Journal of Mechanical Sciences, 131-132, 712-721 (2017).
DOI: https://doi.org/10.1016/j.ijmecsci.2017.08.015

40. Density maximum effect of double diffusive mixed convection heat transfer in a two-sided lid-driven porous cavity,
N. Nithyadevi, M. Rajarathinam, and N. Suresh,
Special Topics and Review in Porous Media: An International Journal, 8, 245-261 (2017).
DOI: 10.1615/SpecialTopicsRevPorousMedia.v8.i3.60

39. Heat transfer enhancement of Cu-water nanofluid in an inclined porous cavity with internal heat generation,
M. Rajarathinam, and N. Nithyadevi,
Thermal Science and Engineering Progress, 4, 35-44 (2017).
DOI: https://doi.org/10.1016/j.tsep.2017.08.003

38. MHD natural convective Ag-water nanofluid flow in an enclosure having internal heat generation with centre heater and bottom heat source,
N. Nithyadevi, T. Mahalakshmi, and C. Udhaya Shankar, 
International Journal of Nanoparticles, 9, 244-264 (2017).
DOI: 10.1504/IJNP.2017.089449

37. A numerical study on MHD natural convective heat transfer in an Ag-water nanofluid filled enclosure with center heater,
N. Nithyadevi, and T. Mahalakshmi,
Journal of Korean Society for Industrial and Applied Mathematics, 21, 225-244 (2017).
DOI: https://doi.org/10.12941/jksiam.2017.21.225

36. Boundary stratum exploration of unsteady 3D MHD stagnation point flow of Al–Cu water nanofluid,
N. Nithyadevi, P. Gayathri, and N. Sandeep,
International Journal of Mechanical Sciences, 131–132, 827-835 (2017).
DOI: https://doi.org/10.1016/j.ijmecsci.2017.08.003

35. Thermal design of a sensor for building control equipped with QFN electronic devices subjected to free convection. Effects of the encapsulating resin,
A. Bairi, N. Nithyadevi, I. Bairi, A. Martin-Garin, and J. A. Millan-Garcia,
Energy and Buildings, 141, 218-225 (2017).
DOI: https://doi.org/10.1016/j.enbuild.2017.02.022

34. Numerical study of natural convection heat transfer in a square enclosure with inside heater utilizing Ag-water nanofluid,
N. Nithyadevi, and T. Mahalakshmi, 
Journal of Nanofluids, 6, 1096-1110 (2017).
DOI: 10.1166/jon.2017.1399

33. Effects of inclination angle and non-uniform heating on mixed convection of a nanofluid filled porous enclosure with active mid-horizontal moving,
N. Nithyadevi, A. S. Begum, H. F. Oztop, and K. Al-Salem,
International Journal of Heat and Mass Transfer, 104, 1217-1228 (2017).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2016.09.041

32. Effect of moving flat plate on hydro-magnetic mixed convection in a porous enclosure with sinusoidal heating side walls and internal heat generation,
A. S. Begum, and N. Nithyadevi,
Computational Thermal Sciences: An International Journal, 9, 13-28 (2017).
DOI: 10.1615/ComputThermalScien.2016016321

31. Effect of magnetic field on mixed convection flow in a porous enclosure using nanofluids,
N. Nithyadevi, and A. S. Begum,
International Journal of Applied and Computational Mathematics, 3, 3433–3442 (2017).
DOI: https://doi.org/10.1007/s40819-017-0305-9

30. Effects of mid-moving heated wall on mixed convection in a fluid-saturated non-Darcy porous enclosure with sinusoidal heating walls and filled with Cu-water nanofluid,
A. S. Begum, N. Nithyadevi and A. J. Chamkha,
Journal of Nanofluids, 6, 862-875 (2017).
DOI: https://doi.org/10.1166/jon.2017.1384

29. Mixed convection analysis in heat transfer enhancement of a nanofluid filled porous enclosure with various wall speed ratios,
N. Nithyadevi, A. S. Begum, H. F. Oztop, and N. Abu-Hamdeh,
International Journal of Heat and Mass Transfer, 113, 716-729 (2017).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2017.05.134

28. Effect of Prandtl number on natural convection in a rectangular enclosure with discrete heaters,
N. Nithyadevi, V. Divya, and M. Rajarathinam,
Journal of Applied Science and Engineering, 20, 173-182 (2017).
DOI: 10.6180/JASE.2017.20.2.05

27. Numerical simulation of MHD mixed convection in a nanofluid filled non-Darcy porous enclosure,
A. S. Begum, N. Nithyadevi, H. F. Oztop, and K. Al-Salem,
International Journal of Mechanical Sciences, 130, 154-166  (2017).
DOI: https://doi.org/10.1016/j.ijmecsci.2017.06.008

26. Double diffusive heat convection of MHD nanofluid in a two Sided lid-driven porous cavity,
N. Nithyadevi, and M. Rajarathinam,
Journal of Nanofluids, 6, 466-477 (2017).
 DOI: https://doi.org/10.1166/jon.2017.1331

25. Convection of Cu-water nanofluid in a partially active porous cavity with internal heat generation,
N. Nithyadevi, and M. Rajarathinam,
Journal of Applied Science and Engineering, 19, 313-319 (2016).
DOI: 10.6180/jase.2016.19.3.09

24. Natural convection heat transfer for nanofluid in a partially open cavity with internal heat generation: Non-Darcy effect,
N. Nithyadevi, and M. Rajarathinam,
Journal of Porous Media, 19, 783-797  (2016).
DOI: 10.1615/JPorMedia.v19.i9.30

23. Three dimensional numerical analysis of natural convection cooling with an array of discrete
heaters embedded in nanofluid filled enclosure,
A. Purusothaman, N. Nithyadevi, H. F. Oztop, V. Divya, and  K. Al-Salem,
Advanced Powder Technology, 27, 268-280 (2016).
DOI: https://doi.org/10.1016/j.apt.2015.12.012

22. Magneto-convection of water-based nanofluids inside an enclosure having uniform heat generation and various thermal boundaries,
P. Umadevi, and N. Nithyadevi,
Journal of the Nigerian Mathematical Society, 35, 82-92 (2016).
DOI: https://doi.org/10.1016/j.jnnms.2016.02.001

21. Effect of inclination angle and magnetic field on convection heat transfer for nanofluid in a porous cavity,
N. Nithyadevi, and M. Rajarathinam,
Journal of Applied Fluid Mechanics, 9, 2347-2358 (2016).
DOI: 10.18869/acadpub.jafm.68.236.25212

20. 3D natural convection in a cubical cavity with a thermally active heater under the presence of an external magnetic field,
A. Purusothaman, H. F. Oztop, N. Nithyadevi, and Nidal H. Abu-Hamdeh,
Computers & Fluids, 128, 30-40 (2016).
DOI: https://doi.org/10.1016/j.compfluid.2016.01.011

19. An analysis on free convection cooling of a 3×3 heater array in rectangular enclosure using Cu-EG-water nanofluid,
A. Purusothaman, V. Divya, N. Nithyadevi, and H. F. Oztop,
Journal of Applied Fluid Mechanics, 9, 3147-3157 (2016).
DOI: 10.29252/jafm.09.06.26176

18. 3D natural convection on a horizontal and vertical thermally active plate in a closed cubical cavity,
A. Purusothaman, A. Bairi, and N. Nithyadevi,
International Journal of Numerical Methods for Heat and Fluid Flow, 26, 2525-2542 (2016).
DOI: https://doi.org/10.1108/HFF-08-2015-0341

17. Natural convection in a tilted square enclosure having heat generating solid body and with various thermal boundaries,
N. Nithyadevi, and P. Umadevi,
Procedia Engineering, 127, 1235-1242 (2015).
DOI: https://doi.org/10.1016/j.proeng.2015.11.474

16. Natural convection around a heat conducting and generating solid body inside a square enclosure with different thermal boundaries,
N. Nithyadevi, and P. Umadevi,
Journal of Korean Society for Industrial and Applied Mathematics, 19, 459-479 (2015). 
DOI: 10.12941/jksiam.2015.19.459

15. Numerical analysis of effect of magnetic field on combined surface tension and buoyancy driven convection in partially heated open enclosure,
N. Nithyadevi, H. F. Oztop, A. S. Begum, and K. Al-Salem,
International Journal of Numerical Methods for Heat & Fluid Flow, 25, 1793-1817 (2015).
DOI: https://doi.org/10.1108/HFF-09-2014-0275

14. Heat transfer enhancement of Cu-water nanofluid in a porous square enclosure driven by an incessantly moving flat plate,
N. Nithyadevi, and A. S. Begum,
Procedia Engineering, 127, 279-286 (2015).
DOI: https://doi.org/10.1016/j.proeng.2015.11.369

13. Buoyancy and thermocapillary driven flows in an open cavity with bottom heating and symmetrical cooling from sides,
N. Nithyadevi, A. S. Begum, and C. Udhaya Shankar,
International Journal of Heat and Technology, 33, 63-70 (2015).
DOI: 10.18280/ijht.330109

12. Non-darcy double diffusive mixed convection for nanofluid with soret and dufour effects in a lid-driven cavity,
N. Nithyadevi, and M. Rajarathinam,
International Journal of Nanoparticles, 8, 218-240 (2015).
DOI: 10.1504/IJNP.2015.073724

11. A comparative study of performances of PSS and SVC for rotor angle stability enhancement in 3 Bus 2 generator System, 
C. Udhaya Shankar, Rani Thottungal and N. Nithyadevi,
Research Journal of Applied Sciences, Engineering and Technology, 9, 434-447 (2015).
DOI: 10.19026/RJASET.9.1423

10. Harmonic reduction in cascaded multilevel inverter with reduced number of switches using genetic algorithms,
C. Udhaya Shankar, J. Thamizharasi, Rani Thottungal, and N. Nithyadevi,
International Journal of Advances in Engineering & Technology, 3, 284-294 (2012).
DOI: 10.1.1.666.6749

9. Double diffusive natural convection in partially heated enclosure with soret and dufour effects,
N. Nithyadevi, and Ruey-Jen Yang,
International Journal of Heat and Fluid Flow, 30, 902–910 (2009).
DOI: https://doi.org/10.1016/j.ijheatfluidflow.2009.04.001

8. Magnetoconvection in an enclosure of water near its density maximum with soret and dufour effects,
N. Nithyadevi, and Ruey-Jen Yang,
International Journal of Heat and Mass Transfer, 52, 1667–1676  (2009).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2008.09.016

7. Magnetoconvection in a square cavity with partially active vertical walls: time periodic boundary condition,
N. Nithyadevi, P. Kandaswamy, and S. Malliga Sundari,
International Journal of Heat and Mass Transfer, 52, 1945–1953 (2009).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2008.08.039

6. Natural convection in enclosures with partially thermally active side walls containing internal heat sources,
P. Kandaswamy, N. Nithyadevi, and CO. Ng,
Physics of Fluids, 20, 097104-097109 (2008).
DOI: https://doi.org/10.1063/1.2981834

5. Magnetoconvection in an enclosure with partially active vertical walls,
P. Kandaswamy, S. Malliga Sundari, and N. Nithyadevi,
International Journal of Heat and Mass Transfer, 51, 1946-1954 (2008).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2007.06.025

4. Natural convection in a rectangular cavity with partially active side walls,
N. Nithyadevi, P. Kandaswamy, and J. Lee,
International Journal of Heat and Mass Transfer, 50, 4688-4697 (2007).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2007.03.050

3. Buoyancy-driven convection of water near its density maximum with time periodic partially active vertical walls,
N. Nithyadevi, S. Sivasankaran, and P. Kandaswamy,
Meccanica, 42, 503-510 (2007).
DOI: https://doi.org/10.1007/s11012-007-9072-8

2. Buoyancy-driven convection of water near its density maximum with partially active vertical walls,
P. Kandaswamy, S. Sivasankaran, and N. Nithyadevi,
International Journal of Heat and Mass Transfer, 50, 942-948 (2007).
DOI: https://doi.org/10.1016/j.ijheatmasstransfer.2006.08.013

1. Natural convection in a square cavity with partially active vertical walls: Time periodic boundary condition,
N. Nithyadevi, P. Kandaswamy, and S. Sivasankaran, 
Mathematical Problems in Engineering, 2006, 1-16 (2006).
DOI: https://doi.org/10.1155/MPE/2006/23425
 

Ongoing

Sample Data.

Completed

Sl. No. : 1    
Name of the candidate : A. PURUSOTHAMAN    
Title of the Thesis : Analysis of natural convection in 3D cavities with thermally active heaters.
Year : 2015

Sl. No. : 2    
Name of the candidate : P. UMADEVI    
Title of the Thesis : Convection heat transfer in enclosures with conducting and heat generating solid body.
Year : 2017

Sl. No. : 3    
Name of the candidate : R. RAJARATHINAM    
Title of the Thesis : Analysis on convection heat transfer of Cu-water nanofluid in an inclined non-Darcy porous square cavity.
Year : 2018

Sl. No. : 4    
Name of the candidate : A. SHAMADHANI BEGUM    
Title of the Thesis : Mixed convection analysis in a non-darcy porous enclosure using copper based nanofluids with active mid-horizontal moving.
Year : 2018

Sl. No. : 5    
Name of the candidate : V. DIVYA    
Title of the Thesis : Analysis of natural convection in three dimensional enclosures with different thermal boundary walls in the presence of nanofluid.
Year : 2018

Sl. No. : 6    
Name of the candidate : T. MAHALAKSHMI    
Title of the Thesis : Convection of nanofluid in enclosures with heater.
Year : 2018

Sl. No. : 7    
Name of the candidate : P GAYATHRI    
Title of the Thesis : Magnetohydrodynamics in three dimensional stagnation point flows.
Year : 2020
__________
M.Phil.

Sl. No. : 1    
Name of the candidate : P. NANDHINI    
Title of the Thesis : Combined buoyancy and surface-tension flows in an enclosure with partially active vertical walls
Year : 2013

Sl. No. : 2    
Name of the candidate : H.M. ROHINI    
Title of the Thesis : Buoyancy and thermocapillary driven flows in an open cavity with bottom heating and symmetrical cooling from sides
Year : 2013

Sl. No. : 3    
Name of the candidate : J. SANTHYA    
Title of the Thesis : Buoyancy and thermocapillary driven convection in an open cavity with partially active vertical walls in the presence of a magnetic field
Year : 2013

Sl. No. : 4    
Name of the candidate : A. SHAMADHANI BEGUM    
Title of the Thesis : Combined surface tension and buoyancy driven convection in an open enclosure with partially bottom heating: Effect of magnetic field
Year : 2013

Sl. No. : 5    
Name of the candidate : R. BRINDHA    
Title of the Thesis : An analytical study of radiation effect on transient magnetohydrodynamic natural convection flow with heat generation
Year : 2014

Sl. No. : 6    
Name of the candidate : V. DIVYA    
Title of the Thesis :Magnetic field effects on natural convection in a laterally heated square cavity with internal heat source
Year : 2013

Sl. No. : 7    
Name of the candidate : C. KAUSIKA    
Title of the Thesis : Double diffusive convection in a porous medium with an internal heat source
Year : 2013

Sl. No. : 8    
Name of the candidate : M. RAJARATHINAM     
Title of the Thesis : Numerical analysis of MHD natural convection in a partially open square cavity with internal energy source
Year : 2013

Sl. No. : 9    
Name of the candidate : G. SANGEETHA    
Title of the Thesis : Effect of non-uniform thermal boundary condition on magnetoconvection in an open cavity
Year : 2013

Sl. No. : 10    
Name of the candidate : P. GAYATHRI    
Title of the Thesis : The boundary layer of an unsteady MHD stagnation point flow in a nanofluid with porous stretching/shrinking surface
Year : 2014

Sl. No. : 11    
Name of the candidate : S. RAJESWARI    
Title of the Thesis : Analytical solution of 3D Navier-stokes equation of flow between two stretchable disks using homotopy analysis method
Year : 2014

Sl. No. : 12    
Name of the candidate : S. SELVARANI    
Title of the Thesis : HAM solution of an unsteady three dimensional Navier-stokes equations of flow between two parallel disks
Year : 2014

Sl. No. : 13    
Name of the candidate : R. DHARANI    
Title of the Thesis : Destabilising a shallow horizontal fluid saturated porous layer heated from above with heat generation
Year : 2016

Sl. No. : 14    
Name of the candidate : P. KOUSALYA    
Title of the Thesis : Mixed convection in a Cu-water nanofluid through a fluid saturated porous medium with mid-horizontal moving wall
Year : 2016

Sl. No. : 15    
Name of the candidate : K.B. NIVETHITHA    
Title of the Thesis : Study on the effect of magnetic field in a porous cavity using nanofluid with mid-horizontal moving lid
Year :     2016

Sl. No. : 16    
Name of the candidate : S. SUBHA    
Title of the Thesis : Convective stability in a gravity modulated horizontal porous layer heated from below with heat generation
Year : 2016

Sl. No. : 17    
Name of the candidate : N. SURESH        
Title of the Thesis : Double diffusive mixed convection flow of water near its density extremum in a lid-driven porous square cavity with Soret and Dufour effects
Year : 2016

Sl. No. : 18    
Name of the candidate : S. ARTHY    
Title of the Thesis : Existence and stability of unsteady Navier-Stokes type system related to Soret convection
Year : 2017

Sl. No. : 19    
Name of the candidate : T. KARTHIKA    
Title of the Thesis : Numerical Investigation of 3D MHD squeezing flow with rotating parallel plate in a nondarcy porous medium filled with nanofluid
Year : 2017

Sl. No. : 20    
Name of the candidate : V. SATHYA PRABHA    
Title of the Thesis : Convection in fluid saturated porous layer with thermal and gravity modulation
Year : 2017

Sl. No. : 21    
Name of the candidate : K. SATHYASRI    
Title of the Thesis : An unsteady stagnation point flow of a third grade nanofluid past a porous shrinking sheet using three temperature model
Year : 2017

Sl. No. : 22    
Name of the candidate : C.THIRUCHITRAMBALAM    
Title of the Thesis : Multiple solutions of MHD slip flow and heat transfer for the viscoelastic fluid over a stretching sheet 
Year : 2017

Sl. No. : 23    
Name of the candidate : C.S. GOMATHI    
Title of the Thesis : Boundary layers of couple stress fluid past a stretching sheet: Exact solutions
Year : 2018

Sl. No. : 24    
Name of the candidate : D. REVATHI    
Title of the Thesis : Double diffusive convection of water near its density maximum in an enclosure
Year : 2018

Sl. No. : 25    
Name of the candidate : P. GOWRI    
Title of the Thesis : Review on magnetic field effect
Year : 2019

Sl. No. : 26    
Name of the candidate : K. NIVETHITHA    
Title of the Thesis : Two – fluid model in blood vessels
Year : 2019

Sl. No. : 27    
Name of the candidate : R. SHANMUGAPRIYA    
Title of the Thesis : A study on overview of nanofluid
Year : 2019

Sl. No. : 28    
Name of the candidate : R. SOWNDARIYA    
Title of the Thesis : Review on three-dimensional flows in cavities      
Year : 2019

Sl. No. : 29    
Name of the candidate : PRITHA K     
Title of the Thesis : Natural convection of Al2O3 – water Nanofluid in a square cavity with an isothermal block: magnetic effect
Year : 2020

Sl. No. : 30    
Name of the candidate : GOWRI S     
Title of the Thesis : Analysis of mixed convective ferrofluid flow of a rotating disk with vertical motion
Year : 2022

PG. Research

Sl. No. : 1
Name of the candidate : R. Banusree    
Title of the Dissertation : Fundamental of Heat Transfer and Applications
Year : 2013

Sl. No. : 2    
Name of the candidate : P. Gayathri    
Title of the Dissertation : MHD Mixed Convection in a Lid-Driven cavity with Corner Heater
Year : 2013

Sl. No. : 3
Name of the candidate : A. Kousalya    
Title of the Dissertation : The incompressible Navier-Stokes Equations
Year : 2013

Sl. No. : 4    
Name of the candidate : M. Sanjitha    
Title of the Dissertation : Types of Flow
Year : 2013

Sl. No. : 5    
Name of the candidate : S. Selvarani    
Title of the Dissertation : Thermal Boundary Layers
Year : 2013

Sl. No. : 6    
Name of the candidate : N. Suriya    
Title of the Dissertation : Fluid Flow through Porous Media
Year : 2013

Sl. No. : 7    
Name of the candidate : P. Tamilselvi    
Title of the Dissertation : Cauchy’s Functional Equations
Year : 2013

Sl. No. : 8    
Name of the candidate : M. Arul     
Title of the Dissertation : Regularization of Inverse Problems
Year : 2014

Sl. No. : 9
Name of the candidate : K. Geetha    
Title of the Dissertation : Fuzzy Set Theory
Year : 2014

Sl. No. : 10    
Name of the candidate : T. Kanaka Priya    
Title of the Dissertation : Aerodynamics
Year : 2014

Sl. No. : 11
Name of the candidate : T. Parthiban    
Title of the Dissertation : Kortweg De Vries Equation
Year : 2014

Sl. No. : 12
Name of the candidate : D. M. Pradheeba    
Title of the Dissertation : Convective Heat Transfer
Year : 2014

Sl. No. : 13    
Name of the candidate : S. Premalatha    
Title of the Dissertation : Fluid Flow in Polymer Electrolyte Membrane Fuel Cells
Year : 2014

Sl. No. : 14    
Name of the candidate : R. Sivaranjani    
Title of the Dissertation : Bifurcation Theory
Year : 2014

Sl. No. : 15
Name of the candidate : S. Subha    
Title of the Dissertation : Heat Transfer and Its Applications
Year : 2014

Sl. No. : 16    
Name of the candidate : S. Arthy    
Title of the Dissertation : Finite Element Method for Heat Exchangers
Year : 2015

Sl. No. : 17    
Name of the candidate : R. Jayanthidevi    
Title of the Dissertation : Mellin Transforms and their Applications
Year : 2015

Sl. No. : 18    
Name of the candidate : T. Karthika     
Title of the Dissertation : Turbulence Modeling and Simulation
Year : 2015

Sl. No. : 19    
Name of the candidate : K. Nisha    
Title of the Dissertation : Hermite Polynomials
Year : 2015

Sl. No. : 20    
Name of the candidate : S. Nithya Rubini    
Title of the Dissertation : Rotational Waves
Year : 2015

Sl. No. : 21
Name of the candidate : N. Rayshima    
Title of the Dissertation : Boundary Layers
Year : 2015

Sl. No. : 22    
Name of the candidate : N. Sindhuja    
Title of the Dissertation : Mathieu Equation
Year : 2015

Sl. No. : 23
Name of the candidate : M. Sudhasri    
Title of the Dissertation : Heat Transfer from a Solid Sphere at Low Reynolds Numbers
Year : 2015

Sl. No. : 24
Name of the candidate : S. Vignesh    
Title of the Dissertation : Sound Waves
Year : 2015

Sl. No. : 25    
Name of the candidate : P. Vinothini    
Title of the Dissertation : Momentum Equation and its Applications
Year : 2015

Sl. No. : 26    
Name of the candidate : V. Akila ponmani      
Title of the Dissertation : Integro-Differential Equations and its Applications
Year : 2016

Sl. No. : 27
Name of the candidate : M. Dhanasekaran    
Title of the Dissertation : Elastic Waves in Solids
Year : 2016

Sl. No. : 28    
Name of the candidate : M. Gaysel elze antrina    
Title of the Dissertation : Helicopter Dynamics
Year : 2016

Sl. No. : 29    
Name of the candidate : Hemamalini Rama    
Title of the Dissertation : Tensors and Christoffel Symbol
Year : 2016

Sl. No. : 30
Name of the candidate : M. Indhumathi    
Title of the Dissertation : Fixed Point Theory and its Applications
Year : 2016

Sl. No. : 31    
Name of the candidate : S. Sasikala    
Title of the Dissertation : Applications of Baire Hausdorff Theorem
Year : 2016

Sl. No. : 32    
Name of the candidate : K. Sathya    
Title of the Dissertation : Two Dimensional Compressible Fluid Flow
Year : 2016

Sl. No. : 33
Name of the candidate : S. Sujithra    
Title of the Dissertation : Fourier transform and its applications
Year : 2016

Sl. No. : 34    
Name of the candidate : R. Suresh    
Title of the Dissertation : An Introduction to Wave Equation Solutions and its Applications
Year : 2016

Sl. No. : 35
Name of the candidate : P.V. Nivedhitha    
Title of the Dissertation : Stochastic Differential Equations
Year : 2017

Sl. No. : 36
Name of the candidate : K. Nivethitha    
Title of the Dissertation : A Study on Riemann Surface in Complex Analysis
Year : 2017

Sl. No. : 37    
Name of the candidate : D. Palani Ananthi    
Title of the Dissertation : A Study on Fundamental Concepts of Areodynamics
Year : 2017

Sl. No. : 38    
Name of the candidate : S. Ramya    
Title of the Dissertation : A Study on Blood Flow in Cardiovascular System
Year : 2017

Sl. No. : 39
Name of the candidate : P. Gomathi    
Title of the Dissertation : Green's Function for Differential Equations 
Year : 2018

Sl. No. : 40    
Name of the candidate : A. P. Gunavathy    
Title of the Dissertation : Topological Method in Combinatorics
Year : 2018

Sl. No. : 41    
Name of the candidate : B. Prathiba    
Title of the Dissertation : Laminar Unidirectional Flows
Year : 2018

Sl. No. : 42    
Name of the candidate : P. Priyanka    
Title of the Dissertation : Hydrodynamic Lubrication
Year : 2018

Sl. No. : 43    
Name of the candidate : K. Savitha    
Title of the Dissertation : Fundamentals of Turbulent Flow
Year : 2018

Sl. No. : 44    
Name of the candidate : P. Soundarya    
Title of the Dissertation : Stream Filament Theory
Year : 2018

Sl. No. : 45
Name of the candidate : M. Aswathi    
Title of the Dissertation : A Study on Aerodynamic Modeling
Year : 2018

Sl. No. : 46    
Name of the candidate : R. Geetha    
Title of the Dissertation : Potential Flow
Year : 2018

Sl. No. : 47
Name of the candidate : P. Kavipriya    
Title of the Dissertation : Internal and External Flows
Year : 2018

Sl. No. : 48
Name of the candidate : R. U. Keerathana    
Title of the Dissertation : Sturm Liouville Theory
Year : 2018

Sl. No. : 49    
Name of the candidate : B. Monisha    
Title of the Dissertation : The Stokes Flow Problem for a class of Axially Symmetric Bodies
Year : 2018

Sl. No. : 50    
Name of the candidate : B. Visakamoorthi    
Title of the Dissertation : A Study on Boundary Layer Theory
Year : 2018

Sl. No. : 51
Name of the candidate : E. Divya Bharathi    
Title of the Dissertation : A Study on Three Dimensional Flow
Year : 2019

Sl. No. : 52    
Name of the candidate : S. Jayapriya    
Title of the Dissertation : Exact Solution for Two-dimensional Laminar Flow over a Continuously Stretching or Shrinking Sheet in an Electrically Conducting Quiescent Couple Stress Fluid
Year : 2019

Sl. No. : 53    
Name of the candidate : K. G. Lavanya    
Title of the Dissertation : Computational Investigation on the Structure and the Occurrence of Separation in Nozzle Flows
Year : 2019

Sl. No. : 54    
Name of the candidate : S. Meena    
Title of the Dissertation : Hyperbolic Mean Curvature Flow
Year : 2019

Sl. No. : 55    
Name of the candidate : M. Pavithra    
Title of the Dissertation : Wave Motion
Year : 2019

Sl. No. : 56    
Name of the candidate : S. Seenuvasan    
Title of the Dissertation : Exact Solution for the Flow and Heat Transfer near the Stagnation Point on a Stretching or Shrinking Sheet in an Jefferey Fluid.
Year :2019