Niharika Hegde M., et al., Neighbourhood Stress Sum Index for Graphs

 Boletim da Sociedade Paranaense de Matematica

Thermal analysis of Boger nanofluid across a spinning disc, Thermal Advances, vol. 4, p. 100070, Aug. 2025. doi: 10.1016/j.thradv.2025.100070.

Adithya G N., et al. Applications of Tosha index  in QSPR modeling of lower alkanes

Thermal investigation of Tiwari–
Das and Xue nanofluid model on
space and thermal-dependent heat
source/sink over a spinning disk: A
numerical study, Numerical Heat Transfer, Part A:
Applications, 1-16, (2025), (SCI/Scopus/Q2)

CM Chaithra, GK Kalavathi, MG Vasundhara, Gurpartap Singh, Ankur Kulshreshta, M Sunitha

A Wavelet‐Based Stochastic Interpretable Physics‐Guided Neural Network to Study the Periodic Heat Transport in a Radiative Convex Fin

CM Chaithra, GK Kalavathi, MG Vasundhara, G Singh… - Ain Shams Engineering Journal, 2025

Thermal analysis of a wetted fin of wavy pattern under convective-radiative heat transfer using artificial neural network

Thermal transport of magnetized
nanoliquid flow over lubricated
surface with activation energy and
heat source/sink, Numerical Heat Transfer, Part B:
Fundamentals, Vol. 85(7),
(2024), Pp. 922-939. (SCI/Scopus/Q2)

 Nagalakshmi, A.R.; Shrikanth, A.S.; Kalavathi, G.K.; Sreekeshava, K.S., The Degree Energy of a Graph MDPI - Mathematics 2024, 12, 2699. https://doi.org/10.3390/math12172699. (Q1)                                                                                                                                                                            

Nagalakshmi, A.R.; Shrikanth, A.S.; Kalavathi, G.K, The cordial Energy of some Graphs Proyecciones (Antofagasta, On line), Vol. 43, No 6, pp. 1455-1471, December 2024. DOI: https://doi.org/10.22199/. (Q3)

Ramesh GK, Madhukesh JK, Pradeep N Hiremath, Roopa GS, Thermal transport of magnetized nanoliquid flow over lubricated surface with activation energy and heat source/sink, Numerical Heat Transfer, Part B: Fundamentals, Vol. 85(7), (2024), Pp. 922-939. (Q2)

Madhukesh JK, Ramesh GK, Fatima  HN, Roopa GS, Shehzad SA. Influence of pollutant dispersion on nanofluid flowing across a stretched disc-cone device. Journal of Molecular Liquids. Vol. 411, (2024),   125710. (Q1)

Adithya G.N., et al.,First neighborhood stress indices for graphs

Second neighborhood stress indices for graphs

Chaithra, c. M., kirankumar, m., pavithra, m., reddy, p. S. K., & cangul, i. N. (2025). On average square stress energy of graphs. Journal of applied mathematics & informatics, 43(5), 1423–1437. Https://doi.org/10.14317/jami.2025.1423

“Thermal Analysis of MHD Tangent Hyperbolic Fluid Flow Through Microchannel. International Journal of Applied and Computational Mathematics”, 11(2), 30. (Scopus/Q2)

1. Atul Bhatt , Amit Joshi , Shiv Dayal Pandey, Saurabh Gairola , Kalavathi G K, Manoj Kumar, A study on High Cycle Fatigue and Impact Toughness Behaviour of Bulk UFG Al-Cu-Li 2099 Alloy Processed by Hybrid SPD Process, Metallography, Microstructure, and Analysis,  04 May 2025. (Q2)https://doi.org/10.1007/s13632-025-01224-z

1. Subham Thapliyal , Amit Joshi, Saurabh Gairola, Kalavathi G K, Vasundhara M G, Muralidhara B, Yogesha K K, A study of Impact toughness behaviour and High Cycle Fatigue properties of Al-Li 8090 alloy processed by Cryorolling and post-deformation annealing, Metallography, Microstructure, and Analysis,  26 Feb 2025. (Q2)10.1007/s13632-025-01184-4

Chaithra, C. M., Kalavathi, G. K., Vasundhara, M. G., Singh, G., Gamaoun, F., & Chandan, K. (2025). Thermal analysis of a wetted fin of wavy pattern under convective-radiative heat transfer using artificial neural network. Ain Shams Engineering Journal, 16(10), 103621.

1. Chaithra, C. M., Kalavathi, G. K., Vasundhara, M. G., Singh, G., Kulshreshta, A., & Sunitha, M. (2025). A Wavelet‐Based Stochastic Interpretable Physics‐Guided Neural Network to Study the Periodic Heat Transport in a Radiative Convex Fin. Heat Transfer. 2025, 54(7), 4428.

M. Somashekhar, G. K. Kalavathi, M. G. Vasundhara, P. A. Dinesh, N Manjunatha, Numerical Computation of viscous shear on a finite journal bearingwith heterogeneous surfaces using roughness phenomenon, Multiscale and Multidisciplinary Modeling, Experiments and Design, 2025, 8(21)

E. L. Pradeesh, S. Udhayakumar, M. G. Vasundhara, G. K. Kalavathi, Experimental and numerical analysis on different beam geometries for vibration based piezoelectric energy harvester, Ferroelectrics, Taylor & Francis, April 2023, VOL. 606, 219–23, https://doi.org/10.1080/00150193.2023.2189838. ISSN -  00150193.

P. A. Dinesh1, R. Sumithra, C. V. Vinay, N. L. Ramesh1, G. K. Kalavathi, N. J. Sahana, R. Gayithri, M. Pooja and H. V. Vandana, An Exploratory Analysis of MHD Non-Newtonian Nanomaterial Fluids Flow Across an Exponential Elongated Sheet, Journal of Mines, Metals and Fuels, 71(12C) : 225-233; 2023. DOI: 10.18311/jmmf/2023/47299. (Q4)

S. Sushma, M. Uma, G. Neeraja, P. A. Dinesh and G. K. Kalavathi, Radiation Effect on Heat and Mass Transfer of Casson Fluid owing to a Stretching Cylinder – A Numerical Approach, Journal of Mines, Metals and Fuels, 71(12C) : 462-468; 2023. DOI: 10.18311/jmmf/2023/47306. (Q4)

R. Sumithra, P. A. Dinesh, Sweeti Yadav, K. R. Roopa, G. K. Kalavathi, G. S. Ashoka1, D. Prabhaka1, R. B. Sandhya and Vinod, Impact of Drag Force, Dufour and Suction/Blowing on 2D Radiated Viscous Nanomaterial over Unsteady Stretching Surface, Journal of Mines, Metals and Fuels, 71(12C) : 322-331; 2023. DOI: 10.18311/jmmf/2023/47259. (Q4)                                                                                                                                                                                                                                                                                                                                           

M. G. Vasundhara,G. K. Kalavathi, E. L. Pradeesh , K. K. Yogesha , H. R. Prakash , B. Muralidhara and B. Hulugappa,  “Simulation of Self Tuning Shape Memory Alloy Based PZT Energy Harvester”,  Journal of Mines, Metals and Fuels, 71(12); 2023.

J. K. Madhukesh, G. K. Ramesh, G.S. Roopa, B. C. Prasannakumara, Nehad Ali Shah  And Se-Jin Yook, “3D flow of hybrid nanomaterial through a circular cylinder: Saddle and Nodal Point Aspects”, Mathematics, Vol.10(7), (2022), Pp. 1185. (SCI/Scopus/Q2)

1. "Irreversibility analysis of the MHD Williamson fluid flow through a microchannel with thermal radiation." Waves in Random and Complex Media (2022): 1-23. Impact Factor- 4.853 (SCI/ Scopus/Q2)
2. "Second law analysis of MHD Carreau fluid flow through a microchannel with thermal radiation." Waves in Random and Complex Media (2022): 1-25. Impact Factor- 4.853 (SCI/Scopus/Q2)
3. "Entropy Generation Analysis of MHD Micropolar Nanofluid Flow through a Micro Channel." Discontinuity, Nonlinearity, and Complexity 11.04 (2022): 569-582. (Scopus/Q4)

GOURAVA INDICES of certain WINDMILL GRAPHS 

E. L. Pradeesh, S. Udhayakumar, M. G. Vasundhara, G. K. Kalavathi, A review on piezoelectric energy harvesting, Microsystem and Techmologies, Springer, 28, 1797–1830,   June 2022. https://doi.org/10.1007/s00542-022-05334-4  ISSN:1432-1858

Gourava indices for Jahangir graph and phase transfer catalyst

W. Jamshed, G.K. Ramesh, G.S. Roopa, K.S. Nisar, Rabia Safdar, J.K. Madhukesh, Faisal Shahzad, Siti Suzilliana Putri Mohamed Isa, B. Shankar Goud, “Mohamed R Eid, electromagnetic radiation and convective slippery stipulation influence in viscous second grade nanofluid through penetrable material”, ZAMM (Zeitschrift fur Angewandte Mathematik und Mechanik-Journal of Applied mathematics and mechanics), (2022), Pp. 1521-4001. (SCI/Scopus/Q2)

G K Kalavathi, Yuvaraja B K, Dinesh P A, Vasundhara M G, Theoretical Study of influence of MHD in an infinitely long rough Porous Journal Bearing, IOP Conf. Series: Materials Science and Engineering 1189 (2021) 012030. doi:10.1088/1757-899X/1189/1/012030

G.K. Ramesh, J.K. Madhukesh, B.C. Prasannakumara, G.S. Roopa, “Significance of aluminium alloys particle flow through a parallel plates with activation energy and chemical reaction”, Journal of Thermal Analysis and Calorimetry, Vol. 147, (2022), Pp. 6971-6 981, (SCI/Scopus/Q2)

1. "Entropy generation analysis of radiative Williamson fluid flow in an inclined microchannel with multiple slip and convective heating boundary effects." Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering (2021): 09544089211049863. Impact Factor- 1.822 (SCI/ Scopus/Q2)
2. "Thermal analysis of MHD Williamson fluid flow through a microchannel." International Communications in Heat and Mass Transfer 127 (2021): 105582. Impact Factor- 6.782 (SCI/ Scopus/Q1)
3. "Heat transfer enhancement due to nanoparticles, magnetic field, thermal and exponential space-dependent heat source aspects in nanoliquid flow past a stretchable spinning disk." Journal of Thermal Analysis and Calorimetry 145.6 (2021): 3339-3347. Impact Factor- 4.755 (SCI/ Scopus/Q2)
4. "Three dimensional boundary layer flow of MHD Maxwell nanofluid over a non-linearly stretching sheet with nonlinear thermal radiation." Journal of Applied Nonlinear Dynamics 10.02 (2021): 263-277. (Scopus/Q4)
5. "Heat transfer optimization of hybrid nanomaterial using modified Buongiorno model: a sensitivity analysis." International Journal of Heat and Mass Transfer 171 (2021): 121081. Impact Factor- 5.431 (SCI/ Scopus/Q1)
6. "Thermal analysis of MHD Powell–Eyring fluid flow through a vertical microchannel." International Journal of Ambient Energy (2021): 1-9. (Scopus/Q2)
7. "Second law analysis of MHD third-grade fluid flow through the microchannel." Pramana- Journal of Physics, 95.1 (2021): 1-10. Impact Factor- 2.699 (SCI/ Scopus/Q2)
8. "Thermal and entropy generation of non-Newtonian magneto-Carreau fluid flow in microchannel." Journal of Thermal Analysis and Calorimetry 143.3 (2021): 2717-2727. Impact Factor- 4.755 (SCI/ Scopus/Q2)
9. "Second Law Analysis of MHD Micropolar Fluid Flow through a Porous Microchannel with Multiple Slip and Convective Boundary Conditions." Defect and Diffusion Forum. 409 (2021). (Scopus/Q4)

1. "Performance of second law in Carreau fluid flow by an inclined microchannel with radiative heated convective condition." International Communications in Heat and Mass Transfer 117 (2020): 104761. Impact Factor- 6.782 (SCI/ Scopus/Q1)
2. "Impact of nonlinear thermal radiation on magnetohydrodynamic three dimensional boundary layer flow of Jeffrey nanofluid over a nonlinearly permeable stretching sheet." Physica A: Statistical Mechanics and its Applications 549 (2020): 124051. Impact Factor- 3.778 (SCI/ Scopus/Q1)
3. "Finite element analysis of micropolar nanofluid flow through an inclined microchannel with thermal radiation." Multidiscipline Modeling in Materials and Structures 16.6 (2020): 1521-1538. Impact Factor- 2.655 (SCI/ Scopus/Q2)
4. "Magnetohydrodynamic flow of dusty fluid over Riga plate with deforming isothermal surfaces with convective boundary condition." Songklanakarin Journal of Science and Technology 42.3 (2020): 487-495. (Scopus/Q3)

G.K. Ramesh, S. Manjunatha, G.S. Roopa, Ali J. Chamkha, “Hybrid (ND-Co3O4/EG) nanoliquid through a permeable cylinder under homogeneous-heterogeneous reactions and slip effects”, Journal of Thermal Analysis and Calorimetry, Vol. 146, (2021), Pp. 1347-1357. (SCI/Scopus/Q2)

Kalavathi, G. K., Najar, F. A., &Vasundhara, M. G., Performance characteristics of journal bearings (porous type): A coupled solution using Hartmann number and roughness parameter. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, Vol. 234(5) 668–675, 2020,https://doi.org/10.1177/1350650119886709.

Kalavathi G K, Vasundhara M G, Pradeesh E L, Prakash H R, Numerical Simulation Of Electromechanical Shape Memory Alloy Based Tunable Vibration PZT Energy Harvester Without Tip Mass, Journal of Huazhong University of Science and Technology, Vol. 50 (6), 2021, ISSN-1671-4512.

G. K. Kalavathi, M Somashekhar, Vasundhara M G, Yogesha K K, Analytical study of roughness on tilted pad thrust slider bearing improved by the boundary slippage, In Applied Mechanics and Materials, Vol. 895, pp. 70-75. Trans Tech Publications Ltd.  https://doi.org/10.4028/www.scientific.net/AMM.895.70, Feb 2019.

M. G. Vasundhara,  M. Senthilkumar,  G. K. Kalavathi, A Distributed Parametric Model of Shape Memory Alloy based Resonant Frequency Tunable Cantilevered PZT Energy Harvester with tip mass, ISSN Journal of Micro and Smart Systems, Springer, Vol. 8, 13-24, 2019, https://doi.org/10.1007/s41683-019-00034-0.

1. "Entropy generation and heat transport analysis of Casson fluid flow with viscous and Joule heating in an inclined porous microchannel." Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering 233.5 (2019): 1173-1184. Impact Factor- 1.822 (SCI/ Scopus/Q2)
2. "Effectiveness of Hall current and exponential heat source on unsteady heat transport of dusty TiO2-EO nanoliquid with nonlinear radiative heat." Journal of Computational Design and Engineering 6.4 (2019): 551-561. Impact Factor- 6.167 (SCI/ Scopus/Q1)
3. "Heat transfer and entropy generation analysis of non-Newtonian flu flow through vertical microchannel with convective boundary condition." Applied Mathematics and Mechanics 40 (2019): 1285-1300. Impact Factor- 3.918 (SCI/ Scopus/Q2)
4. "Second law analysis of Powell–Eyring fluid flow through an inclined microchannel with thermal radiation." Physica Scripta 94.12 (2019): 125205. Impact Factor- 3.081 (SCI/Scopus/Q2)
5. "MHD flow of SWCNT and MWCNT nanoliquids past a rotating stretchable disk with thermal and exponential space dependent heat source." Physica Scripta 94.8 (2019): 085214. Impact Factor- 3.081 (SCI/ Scopus/Q2)
6. "Brinkman‐Forchheimer slip flow subject to exponential space and thermal‐dependent heat source in a microchannel utilizing SWCNT and MWCNT nanoliquids." Heat Transfer—Asian Research 48.5 (2019): 1688-1708. (Scopus)
7. "Thermodynamics analysis of a Casson nanofluid flow through a porous microchannel in the presence of hydrodynamic slip: a model of solar radiation." Journal of Nanofluids 8.1 (2019): 63-72. (Scopus/ Q3)
8. "Entropy generation analysis of magneto-nanoliquids embedded with aluminium and titanium alloy nanoparticles in microchannel with partial slips and convective conditions." International Journal of Numerical Methods for Heat & Fluid Flow 29.10 (2019): 3638-3658. Impact Factor- 5.181 (SCI/ Scopus/Q1)

G.K. Ramesh, G.S. Roopa, Sabir Ali. Shehzad, S.U. Khan, “Interaction of Al2O3-Ag and Al2O3-Cu hybrid nanoparticles with water on convectively heated moving material”, Multidiscipline Modeling in Materials and Structures, Vol. 16(6), (2020), Pp. 1651-1667.   (SCI/Scopus/Q3)

Younghae Do, G.K. Ramesh, G.S. Roopa, M. Sankar, “Navier’s slip condition on time dependent Darcy-Forchheimer nanofluid using spectral relaxation method”, Journal of Central South University, Vol. 26(7), (2019), Pp. 2000-2010. (SCI/Scopus/Q1)

M. Senthilkumar, M. G. Vasundhara, G. K. Kalavathi, (2019). Electromechanical analytical model of shape memory alloy based tunable cantilevered piezoelectric energy harvester. International Journal of Mechanics and Materials in Design, 15(3), 611-627. https://doi.org/10.1007/s10999-018-9413-x.

1. "Three-dimensional boundary layer flow and heat transfer of a dusty fluid towards a stretching sheet with convective boundary conditions." Journal of Computational & Applied Research in Mechanical Engineering (JCARME) 8.1 (2018): 25-38. (Scopus/ Q3)
2. "Brinkman-Forchheimer flow of SWCNT and MWCNT magneto-nanoliquids in a microchannel with multiple slips and Joule heating aspects." Multidiscipline Modeling in Materials and Structures 14.4 (2018): 769-786. Impact Factor- 2.655 (SCI/ Scopus/Q2)
3. "Marangoni convection in Casson liquid flow due to an infinite disk with exponential space dependent heat source and cross-diffusion effects." Results in Physics 9 (2018): 78-85. Impact Factor- 4.565 (SCI/ Scopus/Q2)
4. "Thermodynamics analysis of MHD Casson fluid slip flow in a porous microchannel with thermal radiation." Diffusion foundations. Vol. 16. Trans Tech Publications Ltd, 2018.
5. "MHD nanofluid flow past a rotating disk with thermal radiation in the presence of aluminum and titanium alloy nanoparticles." Defect and Diffusion Forum. Vol. 384. Trans Tech Publications Ltd, 2018. (Scopus/Q4)

Nagraj C, Dinesh P. A., Kalavathi G. K., “Combined Effects of Electric Field and Magnetic Field on Electro Hydrodynamic Dispersion of Macromolecular Components in Biological Bearing”, Defect and Diffusion Forum, 2018; 388: 361-377.

M. G. Vasundhara, M. Senthilkumar, G. K. Kalavathi, (2019). A distributed parametric model of Brinson shape memory alloy based resonant frequency tunable cantilevered PZT energy harvester. International Journal of Mechanics and Materials in Design, 15(3), 555-568. https://doi.org/10.1007/s10999-018-9429-2.

1. "Marangoni convection radiative flow of dusty nanoliquid with exponential space dependent heat source." Nuclear Engineering and Technology 49.8 (2017): 1660-1668. Impact Factor- 2.817 (SCI/ Scopus/Q1)
2. "Marangoni convective MHD flow of SWCNT and MWCNT nanoliquids due to a disk with solar radiation and irregular heat source." Physica E: Low-dimensional Systems and Nanostructures 94 (2017): 25-30. Impact Factor- 3.369 (SCI/ Scopus/Q2)
3. "Boundary layer flow and heat transfer of fluid particle suspension with nanoparticles over a nonlinear stretching sheet embedded in a porous medium." Nonlinear Engineering 6.3 (2017): 179-190. (Scopus/Q2)
4. "Boundary Layer Flow and Heat Transfer of Nanofluid with Fluid Particle Suspension Over a Nonlinear Stretching Sheet in the Presence of Thermal Radiation." Journal of Nanofluids 6.3 (2017): 487-495. (Scopus/ Q3)
5. "Boundary layer flow of dusty fluid over a radiating stretching surface embedded in a thermally stratified porous medium in the presence of uniform heat source." Nonlinear Engineering 6.1 (2017): 31-41. (Scopus/Q2)
6. "Effects of nonlinear thermal radiation and second order slip on Casson nanofluid flow between parallel plates." Defect and Diffusion Forum. Vol. 377. Trans Tech Publications Ltd, 2017. (Scopus/Q4)

Yuvaraja B K, Kalavathi G.K., Dinesh P.A., K. Gururajan, “Effects of Magneto Hydrodynamic Fluids in a narrow Porous rough Journal Bearing”, International journal of Scientific and Innovative Mathematical Research, 2017. DOI: http://dx.doi.org/10.20431/2347-3142.0601002, Volume 6, Issue 1, 2018, PP 7-15,  ISSN 2347-3142 (Online)

Kalavathi G. K., Dinesh P. A. and Gururajan K., “Numerical Study of Magnetic Field on Rough Porous Narrow Journal Bearing with Heterogeneous Surface”, Materials Today: Proceedings, 4(9), pp. 10539 - 10543, 2017. DOI:10.1016/j.matpr.2017.06.416

G.K.Ramesh, G.S.Roopa, B.J.Gireesha, Sabir Ali Shehzad, F.M. Abbasi, “An electromagneto-hydrodynamic flow Maxwell nanoliquid past a Riga plate: A numerical study, Journal of the Brazilian Society of Mechanical Sciences and Engineering,  Vol. 39, (2017), Pp. 4547-4554. (SCI/Scopus/Q2)

Kalavathi, G.K., Dinesh, P.A., K. Gururajan, “Numerical Study of Effect of Roughness on Porous Long Journal Bearing with Heterogeneous Surface”, Journal of Nigerian Mathematical Society. 35, pp. 468 – 487, 2016. https://ojs.ictp.it/jnms/index.php/jnms/article/view/43/14

Kalavathi, G.K., Dinesh, P.A., K. Gururajan, “Influence of Roughness on Porous Finite Journal Bearing with Heterogeneous slip/ no-slip surface”. Tribology International. 102, pp. 174-181, 2016. https://doi.org/10.1016/j.triboint.2016.05.032

Thermophopretic and Nonlinear convection in a non darcy porous medium.

Journal of heat transfer. 136(4)-2014

Kalavathi G K., K. Gururajan, Dinesh P. A., Gurubasavaraj G., “Effect of surface roughness in a Narrow Porous Journal Bearing with a Heterogeneous Slip/No-Slip Surface”. International journal of Scientific and Innovative Mathematical Research. 2- 12: pp. 944-959, 2014. ISSN 2347-3142, https://www.arcjournals.org/pdfs/ijsimr/v2-i12/5.pdf

Thermophoresis effects on heat and mass transfer in a non Darcy porous medium.

Int. J. Mechanical and Production,1,1,2092-2300, 2013

G.S.Roopa, B.J.Gireesha & C.S.Bagewadi, “Numerical investigation of mixed convection boundary layer flow of a dusty fluid over an vertical surface with radiation” Afrika Matematika (Springer publications), Vol. 24, (2013) Pp.487-502. (SCI/Scopus/Q2)

C.S.Bagewadi, B.J.Gireesha, Mahesha and G.S.Roopa, “Effect of Radiation on Hydromagnetic flow and Heat Transfer of a Dusty fluid between Two Parallel plates,” International Journal of Physical and Mathematical Sciences, Vol. 3(1), (2012) Pp.47-65.

B.J.Gireesha, G.S.Roopa, H.J.Lokesh and C.S.Bagewadi, “MHD Flow and Heat Transfer of a Dusty Fluid over a Stretching Sheet,” International Journal of Physical and Mathematical Sciences, Vol. 3(1), (2012) Pp.171-182. 

B.J.Gireesha, G.S.Roopa & C.S.Bagewadi, “Effect of viscous dissipation and heat source on flow and heat transfer of dusty fluid over unsteady stretching sheet” Applied Mathematics and Mechanics (English Edition) (Springer publications)’ Vol. 33(8), (2012). Pp.1001-1014. (SCI/Scopus/Q1)

 Non linear convection in a non-Darcy porous medium.

Applied mathematics and  mechanics, 31,565-574, 2010

B.J.Gireesha, G.S.Roopa and C.S.Bagewadi, “Unsteady Flow and Heat Transfer of a Dusty Fluid through a Rectangular Channel”, Mathematical Problems in Engineering (Hindawi Publishing Corporation), Vol. 2010, (2010) 17 pages. (SCI/Scopus/Q2)

B.J.Gireesha, G.S.Roopa and C.S.Bagewadi, “Boundary Layer Flow of an  Unsteady Dusty Fluid and Heat Transfer over a Stretching Sheet with non-uniform Heat Source/Sink,” Engineering (Scientific Research), Vol. 3(7), (2011) Pp.726-735.

G.S.Roopa, B.J.Gireesha and C.S.Bagewadi, “Unsteady Flow and Heat Transfer of a Dusty Fluid between Two Parallel Plates,” International Journal of Computational Science and Mathematics, Vol. 3(4), (2011) Pp. 421-433.

G.S.Roopa, B.J.Gireesha & C.S.Bagewadi, “Effect of viscous dissipation on MHD flow and heat transfer of a dusty fluid over an unsteady stretching sheet”, International Journal of Mathematical Archive, Vol. 2(11), (2011) Pp. 2229-2240.

Suction/injection effects on thermophoresis particle deposition in a non-Darcy porous medium under the influence of Soret, Dufour effects.

Heat and mass transfer 

  52,1971-1979,2009

Thermophoresis under the influence of Soret, Dufour effect in a non Darcy porous medium.

Heat and mass transfer 2007

Viscous flow past a porous sphereical void –Effect of stress jump boundary condition. 

   journal of porous media , 

   9(8), 745-767- 2006

Viscous flow past a porous spherical shell – Effect of stress jump boundary  condition-ASCE.

Journal of engineering   mechanics.

 2005, vol 131, pp  1291-1301

Mixed convection heat and mass transfer  with thermal radiation in a  non-Darcy porous medium.