1 |
L Anitha, BJ Gireesha |
Natural Convection Flow of Third-grade Fluid along an Oblique Permeable Microchannel with Hall Effects: An Irreversibility Analysis |
0.421 |
International Journal of Ambient Energy |
2023-10-05 |
2 |
F Almeida, Pradeep Kumar, B Nagaraja, BJ Gireesha, P Venkatesh |
Parametric optimisation of entropy using sensitivity analysis and response surface methodology for the compressed flow of hybrid nanoliquid in a stretchable channel |
2.219 |
Pramana |
2023-10-04 |
3 |
SHCV Subba Bhatta, S Ram Prasad, BJ Gireesha |
Numerical analysis of particulate Reiner–Rivlin flow in an asymmetric convergent channel with a heat source and magnetic field |
0.352 |
International Journal of Modelling and Simulation |
2023-09-15 |
4 |
L Anitha, BJ Gireesha |
Convective flow of Jeffrey nanofluid along an upright microchannel with Hall current and Buongiorno model: an irreversibility analysis |
3.918 |
Applied Mathematics and Mechanics |
2023-09-01 |
5 |
F Almeida, ML Keerthi, BJ Gireesha, P Venkatesh, Pradeep Kumar, B Nagaraja |
Consistent ramifications of prescribed surface temperature and prescribed heat flux boundary conditions for the slip flow of Walter B fluid in a stretching channel |
2.775 |
International Journal of Modelling and Simulation |
2023-07-27 |
6 |
HG Nagaraja, BJ Gireesha |
Natural convection laminar flow between two vertical walls with a nonlinear variation of density and viscosity with temperature |
2.431 |
Heat Transfer |
2023-07-27 |
7 |
ML Keerthi, BJ Gireesha, G Sowmya |
Impact of Shape-Dependent Hybrid Nanofluid on Transient Efficiency of a Fully Wet Porous Longitudinal Fin |
2.807 |
Arabian Journal for Science and Engineering |
2023-07-11 |
8 |
BJ Gireesha, ML Keerthi |
Thermal performance of stretching/shrinking fully wet porous cylindrical and conical pin fin structures by differential transformation approach |
1.404 |
International Journal of Modern Physics B |
2023-06-28 |
9 |
A Felicita, P Venkatesh, BJ Gireesha, MR Krishnamurthy |
Slip and convective flow of Williamson nanofluid influenced by Brownian motion and thermophoresis mechanism in a horizontal microchannel |
4.95 |
Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengine |
2023-06-06 |
10 |
BJ Gireesha, S Manthesha, F Almeida, P Mallikarjun |
Flow of magnetized Powell-Eyring fluid in microchannel exposed to non-linear radiation and constricted to slip regime by varying viscosity |
0.352 |
International Journal of Modelling and Simulation |
2023-05-30 |
11 |
A Felicita, BJ Gireesha, B Nagaraja, P Venkatesh, MR Krishnamurthy |
Mixed convective flow of Casson nanofluid in the microchannel with the effect of couple stresses: irreversibility analysis |
3.29 |
International Journal of Modelling and Simulation |
2023-05-28 |
12 |
ML Keerthi, BJ Gireesha |
Analysis of entropy generation in a fully wet porous moving longitudinal fin exposed to convection and radiation: homogeneous and functionally graded materials |
4.755 |
Journal of Thermal Analysis and Calorimetry |
2023-05-06 |
13 |
BM Shankaralingappa, BJ Gireesha, BC Prasannakumara, B Nagaraja |
Darcy-Forchheimer flow of dusty tangent hyperbolic fluid over a stretching sheet with Cattaneo-Christov heat flux |
4.051 |
Waves in Random and Complex Media |
2023-05-04 |
14 |
BJ Gireesha, L Anitha |
Entropy Generation Analysis in Magnetohydrodynamic Couple Stress Nanofluid Flow Through an Oblique Microchannel in a Permeable Medium with Thermal Radiation |
0.329 |
Journal of Nanofluids |
2023-05-01 |
15 |
BJ Gireesha, ML Keerthi |
Effect of periodic heat transfer on the transient thermal behavior of a convective-radiative fully wet porous moving trapezoidal fin |
3.918 |
Applied Mathematics and Mechanics |
2023-03-30 |
16 |
F Almeida, S Sindhu, P Venkatesh, BJ Gireesha |
Delineation of heat transfer and flow analysis of Carreau nanofluid in microchannel using Buongiorno model |
1.404 |
International Journal of Modern Physics B |
2023-03-25 |
17 |
Halammanavar Gangadharappa Nagaraja, Bijjanal Jayanna Gireesha |
Impact of convective tip condition on the transient thermal behavior of wet porous convective radiative exponential profiled inclined longitudinal fin structures subject to heat generation |
2.431 |
Heat Transfer |
2023-03-13 |
18 |
CG Pavithra, BJ Gireesha, ML Keerthi |
Heat transfer analysis of a convective radiative porous moving longitudinal fin exposed to magnetic field by Adomian decomposition sumudu transform method |
3.081 |
Physica Scripta |
2023-03-10 |
19 |
L Anitha, Gireesha BJ, ML Keerthi |
Irreversibility Analysis of Tangent Hyperbolic Fluid Flow in a Microchannel: A Hybrid Nanoparticles Aspects |
3.081 |
Physica Scripta |
2023-02-20 |
20 |
BJ Gireesha, ML Keerthi, KM Eshwarappa |
Transient thermal investigation of a fully wet porous convective–radiative rough cylindrical pin fin |
2.431 |
Heat Transfer |
2023-01-09 |
21 |
A Felicita, P Venkatesh, BJ Gireesha, DO Soumya, KM Eshwarappa |
Third grade fluid flow in a microchannel crammed with permeable media liable to non-linear thermal radiation |
0.421 |
International Journal of Ambient Energy |
2022-12-31 |
22 |
DO Soumya, BJ Gireesha, P Venkatesh |
Repercussion of Hall current, no-slip, and Newton boundary condition on the thermal energy of the Carreau fluid in a microchannel |
0.421 |
International Journal of Ambient Energy |
2022-12-31 |
23 |
Macha Madhu, NS Shashikumar, BJ Gireesha, Naikoti Kishan |
Thermal analysis of MHD Powell–Eyring fluid flow through a vertical microchannel |
0.421 |
International Journal of Ambient Energy |
2022-12-31 |
24 |
B Nagaraja, BJ Gireesha, G Sowmya, MR Krishnamurthy |
Slip and radiative flow of shape-dependent dusty nanofluid over a melting stretching sheet |
0.421 |
International Journal of Ambient Energy |
2022-12-31 |
25 |
BJ Gireesha, G Sowmya, N Srikantha |
Heat transfer in a radial porous fin in the presence of magnetic field: a numerical study |
0.421 |
International Journal of Ambient Energy |
2022-12-31 |
26 |
BJ Gireesha, L Anitha |
Repercussion of Hall effect and nonlinear radiation on Couette-Poiseuille flow of Casson-Williamson fluid through upright microchannel |
3.918 |
Applied Mathematics and Mechanics |
2022-12-01 |
27 |
Macha Madhu, NS Shashikumar, BJ Gireesha, Naikoti Kishan |
Entropy Generation Analysis of MHD Micropolar Nanofluid Flow through a Micro Channel |
0.191 |
Discontinuity, Nonlinearity, and Complexity |
2022-12-01 |
28 |
BV Shilpa, DV Chandrashekhar, PA Dinesh, CV Vinay, CG Raghavendra, BJ Gireesha |
Soret and Dufour effect on convection flow of Casson fluid in a channel |
4.755 |
Journal of Thermal Analysis and Calorimetry |
2022-11-22 |
29 |
G.R. Manohar, P. Venkatesh, B.J. Gireesha, J.K. Madhukesh and G.K. Ramesh |
Performance of water, ethylene glycol, engine oil conveying SWCNT-MWCNT nanoparticles over a cylindrical fin subject to magnetic field and heat generation |
2.91 |
International Journal of Modelling and Simulation |
2022-11-02 |
30 |
ML Keerthi, BJ Gireesha, G Sowmya |
Numerical investigation of efficiency of fully wet porous convective-radiative moving radial fin in the presence of shape-dependent hybrid nanofluid |
6.782 |
International Communications in Heat and Mass Transfer |
2022-11-01 |
31 |
L Anitha, BJ Gireesha |
Buongiorno model analysis on Carreau fluid flow in a microchannel with Non-linear thermal radiation impact and irreversibility |
2.91 |
International Journal of Modelling and Simulation |
2022-10-13 |
32 |
S Manjunatha, V Puneeth, BJ Gireesha, Ali Chamkha |
Theoretical study of convective heat transfer in ternary nanofluid flowing past a stretching sheet |
0.592 |
Journal of Applied and Computational Mechanics |
2022-10-01 |
33 |
Macha Madhu, NS Shashikumar, K Thriveni, BJ Gireesha, B Mahanthesh |
Irreversibility analysis of the MHD Williamson fluid flow through a microchannel with thermal radiation |
4.051 |
Waves in Random and Complex Media |
2022-08-24 |
34 |
DO Soumya, BJ Gireesha, P Venkatesh |
Tangent-hyperbolic nanoliquid flow in a microchannel, thermal and irreversibility rate analysis |
4.051 |
Waves in Random and Complex Media |
2022-08-19 |
35 |
F Almeida, P Venkatesh, BJ Gireesha |
Time-Reliant Flow of Casson Nanofluid with Gyrotactic Microbes through the Contracting/Dilating Walls of the Microchannel Impelled by Chemical Reactions |
0 |
Brazilian Journal of Physics |
2022-08-01 |
36 |
ML Keerthi, BJ Gireesha, G Sowmya |
Numerical investigation of transient thermal behaviour of fully wet and porous moving semi-spherical fin |
3.081 |
Physica Scripta |
2022-07-20 |
37 |
Venkatesh Puneeth, Manjunatha Sarpabhushana, Muhammad S Anwar, Emad H Aly, Bijjanal Jayanna Gireesha |
Impact of bioconvection on the free stream flow of a pseudoplastic nanofluid past a rotating cone |
5.584 |
Heat Transfer |
2022-07-01 |
38 |
S. Sindhu and B.J. Gireesha |
Scrutinization of unsteady non-Newtonian fluid flow considering buoyancy effect and thermal radiation: Tangent hyperbolic model |
5.683 |
International Communications in Heat and Mass Transfer(Elsevier) |
2022-06-01 |
39 |
N.S. Shashikumar, S. Sindhu, Macha Madhu and B.J. Gireesha |
Second law analysis of MHD Carreau fluid flow through a microchannel with thermal radiation |
4.853 |
Waves in Random and Complex Media(Taylor and Francis) |
2022-04-14 |
40 |
B J Gireesha, L Anitha |
Irreversibility analysis of micropolar nanofluid flow using Darcy–Forchheimer rule in an inclined microchannel with multiple slip effects |
5.584 |
Heat Transfer |
2022-04-01 |
41 |
D.O. Soumya, P. Venkatesh and B.J. Gireesha |
Planar Couette flow of power law nanofluid with chemical reaction, nanoparticle injection and variable thermal conductivity |
1.762 |
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Sc |
2022-03-30 |
42 |
K. Thanesh Kumar, Pudhari Srilatha, Talib K. Ibrahim, B.M. Shankaralingappa, B.J. Gireesha and M. Ar |
Particle shape effect on MHD steady flow of water functionalized Al2O3 nanoparticles over wedge |
4.853 |
Waves in Random and Complex Media(Taylor and Francis) |
2022-03-28 |
43 |
S. Sindhu, B.J. Gireesha, G. Sowmya, O.D. Makinde |
Hybrid nanoliquid flow through a microchannel with particle shape factor, slip and convective regime |
4.17 |
International Journal of Numerical Methods for Heat & Fluid Flow |
2022-03-11 |
44 |
G. Sowmya and B.J. Gireesha |
Analysis of heat transfer through different profiled longitudinal porous fin by differential transformation method |
0 |
Heat Transfer |
2022-03-01 |
45 |
B.J. Gireesha, M.L. Keerthi, G. Sowmya |
Effects of stretching/shrinking on the thermal performance of a fully wetted convective-radiative longitudinal fin of exponential profile |
2.866 |
Applied Mathematics and Mechanics |
2022-03-01 |
46 |
A. Felicita, H. Berrehal, P. Venkatesh, B.J. Gireesha, G. Sowmya |
Slip flow of Walter’s B Liquid through the Channel possessing Stretched walls by employing Optimal Homotopy Asymptotic Method (OHAM) |
6.165 |
Journal of Molecular Liquids |
2022-02-17 |
47 |
B.J. Gireesha, B. Nagaraja, N. Srikantha, N.G. Rudraswamy and A. Felicita |
Magnetically propelled Carreau fluid flow over penetrable sensor surface influenced by thermal radiation, Joule heating and heat generation |
1.968 |
Communications in Theoretical Physics |
2022-02-10 |
48 |
D.O. Soumya, B.J. Gireesha, P. Venkatesh and M.D. Alsulami |
Effect of NP shapes Fe3O4-Ag/kerosene and Fe3O4-Ag/water hybrid nanofluid flow in suction/injection process with nonlinear-thermal-radiation and slip condition |
4.853 |
Waves in Random and Complex Media |
2022-02-02 |
49 |
P Venkatesh, A Felicita, BJ Gireesha |
Darcy-forchheimer convective flow of Casson nanofluid in the microchannel: buongiorno model |
1.395 |
JNNCE Journal of Engineering & Management (JJEM) |
2022-01-31 |
50 |
J. K. Madhukesh, B. M. Shankaralingappa, B. J. Gireesha and B. C. Prasannakumara |
Evaluation of heat and mass transfer characteristics in a nanofluid flow over an exponentially stretchable sheet with activation energy |
1.62 |
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engine |
2022-01-27 |
51 |
B. Nagaraja, B. J. Gireesha, D. O. Soumya and Felicita Almeida |
Characterization of MHD convective flow of Jeffrey nanofluid driven by a curved stretching surface by employing Darcy–Forchheimer law of porosity |
4.853 |
Waves in Random and Complex Media |
2022-01-25 |
52 |
Felicita Almeida, Bijjanal Jayanna Gireesha, Puttaswamy Venkatesh |
Magnetohydrodynamic flow of a micropolar nanofluid in association with Brownian motion and thermophoresis: Irreversibility analysis |
5.584 |
Heat Transfer |
2022-01-01 |
53 |
Sundar Sindhu, Bijjanal Jayanna Gireesha |
Thermal distribution analysis of rectangular fin considering multiboiling heat transfer modes |
5.584 |
Heat Transfer |
2022-01-01 |
54 |
BJ Gireesha, R Dhanalakshmi |
Cattaneo–Christov heat flux model and multiple slip effect on carbon nanofluid over a stretching sheet in a Darcy–Forchheimer porous medium |
5.584 |
Heat Transfer |
2022-01-01 |
55 |
DO Soumya, P Venkatesh, BJ Gireesha, MR Gombi, MR Krishnamurthy |
Flow and thermal analysis of Oldroyd 8 constant fluid in a porous channel |
5.584 |
Heat transfer |
2022-01-01 |
56 |
A Roja, BJ Gireesha |
Flow and heat transfer analysis of MHD third‐grade fluid flow through a vertical microchannel subjected to entropy generation |
5.584 |
Heat Transfer |
2022-01-01 |
57 |
G. R. Manohar, P. Venkatesh, B. J. Gireesha and G. K. Ramesh |
Numerical treatment for Casson liquid flow in a microchannel due to porous medium: A hybrid nanoparticles aspects |
1.762 |
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Sc |
2022-01-01 |
58 |
Manthesha, B.J. Gireesha, F. Almeida and M.B. Patil |
Scrutinization of thermodynamic second law for the steady flow of couple stress nanofluid in an inclined microchannel by varying thermal conductivity |
5.584 |
Heat Transfer (Wiley Online Library) |
2022-01-01 |
59 |
G.R. Manohar, P. Venkatesh, B. J. Gireesha, J.K. Madhukesh and G.K. Ramesh, |
Dynamics of hybrid nanofluid through a semi spherical porous fin with internal heat generation |
0 |
Partial Differential Equations in Applied Mathematics (Elsevier) |
2021-12-01 |
60 |
V. Puneeth, S. Manjunatha, B.J. Gireesha and S. A. Shehzad |
The three-dimensional bioconvective flow of Sisko nanofluid under Robin’s conditions |
0 |
Heat Transfer |
2021-12-01 |
61 |
B.M Shankaralingappa, J.K. Madhukesh, I.E. Sarris, B.J. Gireesha and B.C. Prasannakumara |
Influence of thermophoretic particle deposition on the 3D flow of sodium alginate-based Casson nanofluid over a stretching sheet |
2.943 |
Micromachines |
2021-11-27 |
62 |
B.M. Shankaralingappa, B.C. Prasannakumara, B.J. Gireesha and I.E. Sarris |
The impact of Cattaneo-Christov double diffusion on Oldroyd-B fluid flow over a stretching sheet with thermophoretic particle deposition and relaxation chemical reaction |
0 |
Inventions |
2021-11-23 |
63 |
D.O. Soumya, B.J.Gireesha, P. Venkatesh and Abdulmohsen Alsaiari |
Flow and thermal analysis of Jeffrey nanofluid in a microchannel: Buongiorno’s Model |
1.62 |
Part E: Journal of Process Mechanical
Engineering (SAGE Publications) |
2021-10-30 |
64 |
N.S. Shashikumar, K. Thriveni, M. Madhu, B. Mahanthesh, B.J. Gireesha and N Kishan |
Entropy generation analysis of radiative Williamson fluid flow in an inclined microchannel with multiple slip and convective heating boundary effects |
1.62 |
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of ProcessMechanical Engin |
2021-10-18 |
65 |
N.S. Shashikumar, M. Madhu, S. Sindhu, B. J. Gireesha and N. Kishan |
Thermal analysis of MHD Williamson fluid flow through a microchannel |
5.683 |
International Communications in Heat and Mass Transfer |
2021-10-01 |
66 |
B. J. Gireesha, B.C. Prasannakumara, M. Umeshaiah and N.S. Shashikumar |
Three Dimensional Boundary Layer Flow of MHD Maxwell Nanofluid over a Non-Linearly Stretching Sheet with Nonlinear Thermal Radiation |
0 |
Journal of Applied Nonlinear Dynamics |
2021-09-01 |
67 |
V. Puneeth, S. Manjunatha and B. J. Gireesha, |
Quartic autocatalysis of homogeneous and heterogeneous reactions in the bioconvective flow of radiating micropolar nanofluid between parallel plates |
0 |
Heat Transfer |
2021-09-01 |
68 |
B.J. Gireesha, M.L. Keerthi and K.M. Eshwarappa |
Heat transfer analysis of longitudinal fins of trapezoidal and dovetail profile on an inclined surface |
2.487 |
Physica Scripta |
2021-08-27 |
69 |
S. Manjunatha, V. Puneeth, R. Anandika and B.J. Gireesha, |
Analysis of multilayer convective flow of a hybrid nanofluid in porous medium sandwiched between the layers of nanofluid |
0 |
Heat Transfer |
2021-08-16 |
70 |
R. J. Punith Gowda, R. Naveen Kumar, B. C. Prasannakumara, B.Nagaraja, B. J. Gireesha |
Exploring magnetic dipole contribution on ferromagnetic nanofluid flow over a stretching sheet: An application of Stefan blowing |
6.165 |
Journal of Molecular Liquids (Elsevier) |
2021-08-01 |
71 |
B. Nagaraja, B.J.Gireesha and S. Sindhu |
Chemically reactive and radiative flow of ferro-aluminum (AA7075) hybrid nanofluid past a stretching cylinder |
0 |
Heat Transfer |
2021-07-12 |
72 |
G. K. Ramesh, G. R. Manohar, P. Venkatesh, B. J. Gireesha, Nehad Ali Shah and Jae Dong Chung |
Thermal analysis through cylindrical porous fin having insulated tip: a hybrid nanomaterial approach |
2.487 |
Physica Scripta |
2021-06-22 |
73 |
B. J. Gireesha, P. Venkatesh and D. O. Soumya |
Exploration of irreversibility and thermal motion of a nanoliquid with the Newton boundary condition by using the Darcy-Forchheimer rule |
0 |
Heat Transfer |
2021-06-01 |
74 |
P. Venkatesh, B. J. Gireesha and Felicita Almeida |
Investigation of irreversibilities in a microchannel by differing viscosity, including buoyancy forces and suction/injection |
0 |
Heat Transfer |
2021-06-01 |
75 |
F. Almeida, P. Venkatesh, B. J. Gireesha, B. Nagaraja, K. M. Eshwarappa |
Compressed Flow of Hybridized Nanofluid Entwined Between Two Rotating Plates Exposed to Radiation |
0 |
Journal of Nanofluids |
2021-06-01 |
76 |
P. Venkatesh , B.J. Gireesha, D.O. Soumya |
Heat transfer and irreversibility rate in MHD flow of a hybrid nanofluid with Newton boundary condition, slip flow, and nonlinear thermal radiation |
0 |
Heat Transfer |
2021-06-01 |
77 |
V. Puneeth, S. Manjunatha, B. J. Gireesha and R. S. R. Gorla |
Magneto convective flow of Casson nanofluid due to Stefan blowing in the presence of bio-active mixers |
0 |
Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengine |
2021-05-24 |
78 |
G. K. Ramesh, G. R. Manohar, P. Venkatesh and B J Gireesha |
Significance of increasing Lorentz force and buoyancy force on the dynamics of water conveying SWCNT and MWCNT nanoparticles through a vertical microchannel |
2.487 |
Physica Scripta |
2021-05-24 |
79 |
S. Sindhu and B. J. Gireesha |
Entropy generation analysis of hybrid nanofluid in a microchannel with slip flow, convective boundary and nonlinear heat flux |
2.871 |
International Journal of Numerical Methods for Heat and Fluid Flow |
2021-05-18 |
80 |
M. Madhu, N.S. Shashikumar, B. J. Gireesha and N. Kishan |
Second law analysis of MHD micropolar fluid flow through a porous microchannel with multiple slip and convective boundary conditions |
0 |
Defect and Diffusion Forum |
2021-05-01 |
81 |
B. J. Gireesha, A. Roja |
Magnetohydrodynamics Eyring-Powell fluid in a vertical porous microchannel with convective boundary condition subjected to entropy generation |
0 |
Heat Transfer |
2021-05-01 |
82 |
R. Naveen Kumar, R. J. Punith Gowda, B. J. Gireesha and B. C. Prasannakumara |
Non-Newtonian hybrid nanofluid flow over vertically upward/ downward moving rotating disk in a Darcy-Forchheimer porous medium |
2.707 |
The European Physical Journal Special Topics volume |
2021-04-19 |
83 |
G. Sowmya and B. J. Gireesha |
Thermal stresses and efficiency analysis of a radial porous fin with radiation and variable thermal conductivity and internal heat generation |
4.626 |
Journal of Thermal Analysis and Calorimetry |
2021-04-01 |
84 |
B. J. Gireesha, S. Sindhu, G. Sowmya, A. Felicita |
Magnetohydrodynamic flow of Williamson fluid in a microchannel for both horizontal and inclined loci with wall shear properties |
0 |
Heat transfer |
2021-03-01 |
85 |
G. Sowmya, B. J. Gireesha, I. L. Animasaun and Nehad Ali Shah |
Significance of buoyancy and Lorentz forces on water-conveying iron(III) oxide and silver nanoparticles in a rectangular cavity mounted with two heated fins: heat transfer analysis |
2.731 |
Journal of Thermal Analysis and Calorimetry |
2021-02-01 |
86 |
M. Venkata Subba Rao, B.J. Gireesha, K. Gangadhar, P. Manasa Seshakumari, S. Sindhu |
Entropy generation analysis of electrical magnetohydrodynamic flow of TiO2-Cu/H2O hybrid nanofluid with partial slip |
2.871 |
International Journal of Numerical Methods for Heat & Fluid Flow |
2021-02-01 |
87 |
V. Puneeth, S. Manjunatha, O. D. Makinde, B. J. Gireesha |
Bioconvection of a Radiating Hybrid Nanofluid Past a Thin Needle in the Presence of Heterogeneous-Homogeneous Chemical Reaction |
1.787 |
Journal of Heat Transfer
|
2021-01-22 |
88 |
B. J. Gireesha, P. Venkatesh, F. Almeida |
Entropy scrutiny of couple stress nanoliquid flow with slip and convective conditions in an upright microchannel |
1.985 |
Physica Scripta |
2021-01-20 |
89 |
M. Madhu, N. S. Shashikumar, B. J. Gireesha, N. Kishan |
Second law analysis of MHD third-grade fluid flow through the microchannel |
2.219 |
Pramana(Springer) |
2021-01-12 |
90 |
S. Sindhu and B. J. Gireesha |
Heat and mass transfer analysis of chemically reactive tangent hyperbolic fluid in a microchannel |
0 |
Heat Transfer |
2021-01-03 |
91 |
S. Sindhu and B.J. Gireesha |
Effect of nanoparticle shapes on irreversibility analysis of nanofluid in a microchannel with individual effects of radiative heat flux, velocity slip and convective heating |
0 |
Heat Transfer- Wiley |
2021-01-01 |
92 |
S. Sindhu and B.J. Gireesha |
Transport of magnetohydrodynamic nanofluid in a microchannel based on mixture theory with particle shape effect |
0 |
Heat Transfer- Wiley |
2021-01-01 |
93 |
A. Roja, B.J. Gireesha, B. Nagaraja |
Irreversibility investigation of Casson fluid flow in an inclined channel subject to a Darcy-Forchheimer porous medium: a numerical study |
2.017 |
Applied Mathematics and Mechanics |
2021-01-01 |
94 |
B. Nagaraja and B. J. Gireesha |
Exponential space-dependent heat generation impact on MHD convective flow of Casson fluid over a curved stretching sheet with chemical reaction |
2.731 |
Journal of Thermal Analysis and Calorimetry |
2021-01-01 |
95 |
A.K. Baby, S. Manjunatha, S. Jayanthi, B.J. Gireesha and M. Archana |
Analysis of unsteady flow of blood conveying iron oxide nanoparticles on melting surface due to free convection using Casson model |
0 |
Heat Transfer |
2021-01-01 |
96 |
S. Sindhu and B. J. Gireesha |
Analysis of second law on Eyring-Powell nanoliquid flow in a vertical microchannel considering magnetic field and convective boundary |
0 |
Heat Transfer |
2021-01-01 |
97 |
S. Sindhu and B. J. Gireesha |
Irreversibility analysis of nano fluid flow in a vertical microchannel with the influence of particle shape |
1.62 |
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engine |
2021-01-01 |
98 |
G. Sowmya, B. J. Gireesha and H. Berrehal |
An unsteady thermal investigation of a wetted longitudinal porous fin of different profiles |
4.626 |
Journal of Thermal Analysis and Calorimetry |
2021-01-01 |
99 |
S. A. Shehzad, M. Madhu, N. S. Shashikumar, B. J. Gireesha and B. Mahanthesh |
Thermal and entropy generation of non-Newtonian magneto-Carreau fluid flow in microchannel |
4.626 |
Journal of Thermal Analysis and Calorimetry |
2021-01-01 |
100 |
A. Roja and B.J.Gireesha |
Hall effects on MHD couple stress fluid flow through a vertical microchannel subjected to heat generation: A numerical study |
0 |
Heat Transfer |
2020-11-23 |
101 |
F. Almeida, B. J. Gireesha, P. Venkatesh and G. K. Ramesh |
Intrinsic irreversibility of Al2O3-H2O nanofluid Poiseuille flow with variable viscosity and convective cooling |
2.871 |
International Journal of Numerical Methods for Heat and Fluid Flow |
2020-11-05 |
102 |
B. J. Gireesha and G. Sowmya |
Heat transfer analysis of an inclined porous fin using differential transform method |
1.74 |
International Journal of Ambient Energy |
2020-11-03 |
103 |
S. Sindhu and B. J. Gireesha |
Flow of colloidal suspension and irreversibility analysis with aggregation kinematics of nanoparticles in a microchannel |
2.017 |
International Journal of Ambient Energy |
2020-10-06 |
104 |
M. Madhu, B. Mahanthesh, N. S. Shashikumar, S. A. Shehzad, S. U. Khan and B. J. Gireesha |
Performance of second law in Carreau fluid flow by an inclined microchannel with radiative heated convective condition |
3.971 |
International Communications in Heat and Mass Transfer |
2020-10-03 |
105 |
S. Sindhu, B. J. Gireesha and D. D. Ganji |
Simulation of Cu : Gamma-ALOOH/water in a microchannel heat sink by dint of Porous Media Approach |
4.01 |
Case Studies in Thermal Engineering |
2020-10-01 |
106 |
R. P. Sharma, S. Tinker, B. J. Gireesha and B. Nagaraja |
Effect of convective heat and mass conditions in magnetohydrodynamic boundary layer flow with Joule heating and thermal radiation |
0.42 |
International Journal of Applied Mechanics and Engineering |
2020-08-17 |
107 |
B. J. Gireesha, B. Nagaraja, S. Sindhu and G. Sowmya |
Consequence of exponential heat generation on non-Darcy-Forchheimer flow of water-based carbon nanotubes driven by a curved stretching sheet |
2.017 |
Applied Mathematics and Mechanics |
2020-08-03 |
108 |
B. J. Gireesha, M. Umeshaiah, B. C. Prasannakumara, N. S. Shashikumar and M. Archana |
Impact of nonlinear thermal radiation on magnetohydrodynamic three dimensional boundary layer flow of Jeffrey nanofluid over a nonlinearly permeable stretching sheet |
2.924 |
Physica A: Statistical Mechanics and its Applications |
2020-07-01 |
109 |
Gireesha BJ, Prasannakumara BC |
Scrutinization of different shaped nanoparticle of molybdenum disulfide suspended nanofluid flow over a radial porous fin |
5.181 |
International Journal of Numerical Methods for Heat and Fluid Flow |
2020-06-16 |
110 |
B.J. Gireesha and S. Sindhu |
Entropy generation analysis of Casson fluid flow through a vertical microchannel under combined effect of viscous dissipation, joule heating, hall effect and thermal radiation |
20655 |
Multidiscipline Modeling in Materials and Structures |
2020-06-15 |
111 |
B. A. Kuttan, S. Manjunatha, S. Jayanthi and B. J. Gireesha |
Performance of Four Different Nanoparticles in Boundary Layer Flow Over a Stretching Sheet in Porous Medium Driven by Buoyancy Force |
0.42 |
International Journal of Applied Mechanics and Engineering |
2020-06-05 |
112 |
A. Baslem, G. Sowmya, B. J. Gireesha, B. C. Prasannakumara, M. R. Gorji and N. M. Hoang |
Analysis of thermal behavior of a porous fin fully wetted with nanofluids: convection and radiation |
5.065 |
Journal of Molecular Liquids (Elsevier) |
2020-06-01 |
113 |
B.J. Gireesha and S. Sindhu |
MHD natural convection flow of Casson fluid in an annular microchannel containing porous medium with heat generation/ absorption |
0 |
Nonlinear Engineering |
2020-05-06 |
114 |
N. S. Shashikumar, M. Macha, B.J. Gireesha & N.Kishan |
Finite element analysis of micropolar nanofluid flow through an inclined microchannel with thermal radiation |
0.7 |
Multidiscipline Modeling in Materials and Structures |
2020-05-06 |
115 |
B. J. Gireesha, G. Sowmya and R. S. R. Gorla |
Nanoparticle shape effect on the thermal behaviour of moving longitudinal porous fin. |
0 |
Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengine |
2020-05-02 |
116 |
S. Manjunatha, B. A. Kuttan, G. K. Ramesh, B. J. Gireesha and E. H. Aly |
3D flow and heat transfer of micropolar fluid suspended with mixture of nanoparticles (Ag- CuO/H2O) driven by an exponentially stretching surface |
0.7 |
Multidiscipline Modeling in Materials and Structures |
2020-05-01 |
117 |
B.J. Gireesha, A. Roja |
Second law analysis of MHD natural convection slip flow of Casson fluid through an inclined microchannel |
0.7 |
Multidiscipline Modeling in Materials and Structures |
2020-04-27 |
118 |
G. Sowmya, B. J. Gireesha, M. I. Khan, S. Momani and T. Hayat |
Thermal investigation of fully wet longitudinal porous fin of functionally graded material |
2.871 |
International Journal of Numerical Methods for Heat and Fluid Flow |
2020-04-20 |
119 |
P. K. Pattnaik, S. R. Mishra, B. Mahanthesh, B. J. Gireesha and M. R. Gorji |
Heat transport of nano-micropolar fluid with an exponential heat source on a convectively heated elongated plate using numerical computation |
0.7 |
Multidiscipline Modeling in Materials and Structures |
2020-04-13 |
120 |
S. Sindhu, B. J. Gireesha and G. Sowmya |
Entropy generation analysis of multi-walled carbon nanotube dispersed nanoliquid in the presence of heat source through a vertical microchannel |
2.871 |
International Journal of Numerical Methods for Heat and Fluid Flow |
2020-03-27 |
121 |
B.J. Gireesha and S. Sindhu, |
Entropy generation analysis of nanoliquid flow through microchannel considering heat source and different shapes of nanoparticle |
5.181 |
International Journal of Numerical Methods for Heat and Fluid Flow |
2020-03-02 |
122 |
A. Roja and B. J. Gireesha |
Impact of Hall and Ion effects on MHD couple stress nano fluid flow through an inclined channel subjected to convective, hydraulic slip, heat generation and thermal radiation |
0.82 |
Heat Transfer |
2020-03-02 |
123 |
G. Sowmya, B. J. Gireesha and S. Sindhu |
Thermal exploration of radial porous fin fully wetted with SWCNTs and MWCNTs along with temperature dependent internal heat generation |
0 |
Proceedings of the Institution of Mechanical Engineers, Part- C:Journal of Mechanical Engineering Sc |
2020-03-02 |
124 |
B. J. Gireesha, G. Sowmya, M. I. Khan and H. F. Oztop |
Flow of hybrid nanofluid across a permeable longitudinal moving n along with thermal radiation and natural convection |
3.632 |
Computer Methods and Programs in Biomedicine |
2020-03-01 |
125 |
B. J. Gireesha, G. Sowmya and S. Sindhu |
Analysis of thermal behavior of moving longitudinal porous fin wetted with water- based SWCNTs and MWCNTs |
0.82 |
Heat Transfer- Asian Research |
2020-02-28 |
126 |
B. Mahanthesh, B. J. Gireesha, S. A. S., N.Ibrar and K. Thriveni |
Analysis of a magnetic field and Hall effects in nanoliquid flow under insertion of dust particles |
0.82 |
Heat Transfer |
2020-02-26 |
127 |
G. Sowmya, B. J. Gireesha and M. Madhu |
Analysis of a fully wetted moving fin with temperature-dependent internal heat generation using the finite element method |
0.82 |
Heat Transfer-Asian Research |
2020-02-20 |
128 |
Ganesh Kumar, Ramesh GK, Sabir Ali Shehzad, Gireesha BJ |
Magneto Prandtl nanofluid past a stretching surface with non-linear radiation and chemical reaction |
0.35 |
Journal of Computational & Applied Research in Mechanical Engineering |
2020-02-01 |
129 |
G. Sowmya, B. J. Gireesha, S. Sindhu and B. C. Prasannakumara |
Investigation of Ti6Al4V and AA7075 alloy embedded nano fluid flow over longitudinal porous fin in the presence of internal heat generation and convective condition |
1.322 |
Communications in Theoretical Physics |
2020-02-01 |
130 |
B. J. Gireesha, B. M. Shankaralingappa, B. C. Prasannakumar and B. Nagaraja |
MHD flow and melting heat transfer of dusty Casson fluid over a stretching sheet with Cattaneo Christov heat flux model |
1.74 |
International Journal of Ambient Energy |
2020-01-23 |
131 |
A. Roja and B. J. Gireesha |
Second law analysis on Hall effect of natural convection flow through vertical channel in the presence of uniform heat source/sink |
2.41 |
International Journal of Numerical Methods for Heat & Fluid Flow |
2020-01-02 |
132 |
BJ Gireesha, G Sowmya, M Nikitha |
Numerical investigation of natural convection and radiation in a moving radial porous fin |
2.548 |
J. Eng. Manage |
2020-01-01 |
133 |
S. Sindhu, B. J. Gireesha and G. Sowmya |
Impact of Hall effect, nonlinear radiation and heat source on MHD Couette-Poiseuille flow of nanoliquid through a rotating channel |
0.7 |
Multidiscipline Modeling in Materials and Structures |
2020-01-01 |
134 |
A.Roja, B.J.Gireesha and B.C.Prasannakumara |
MHD micropolar nano fluid flow through an inclined channel with entropy generation subjected to radiative heat flux, viscous dissipation and multiple slip effects |
0 |
Multidiscipline Modeling in Materials and Structures |
2020-01-01 |
135 |
K. Ganesh Kumar, S. Manjunatha and B. J. Gireesha |
Melting heat transfer of Prandtl fluid over a stretching surface in the presence of fluid particles suspension |
0 |
Fluid Dynamics and Materials Processing |
2020-01-01 |
136 |
G. Sowmya, B. J. Gireesha and O. D. Makinde |
Thermal performance of fully wet longitudinal porous fin with temperature-dependent thermal conductivity, surface emissivity and heat transfer coeffient |
0.7 |
Multidiscipline Modeling in Materials and Structures |
2019-12-02 |
137 |
B. A. Kuttan, S. Manjunatha, S. Jayanthi and B. J. Gireesha |
Role of mixed nanofluids on fluid flow and intensify energy transfer in a boundary layer region driven by a free convective force |
0.82 |
Heat Transfer Asian Research |
2019-12-01 |
138 |
G. K. Ramesh, S. Manjunatha and B. J. Gireesha |
Impact of homogeneous-heterogeneous reactions in a hybrid nanoliquid flow due to porous medium |
0.82 |
Heat Transfer Asian Research |
2019-12-01 |
139 |
B. Mahanthesh, T. S. Ashlin, B. J. Gireesha, S. A. Shehzad and M. N. Bashir |
Time-dependent flow due to noncoaxial rotation of an infinite vertical surface subjected to an exponential space-dependent heat source: An exact analysis |
0 |
Heat Transfer Asian Research |
2019-12-01 |
140 |
B. Mahanthesh, S. Amala, B.J. Gireesha and I.L. Animasaun |
Effectiveness of exponential heat source, nanoparticle shape factor and Hall current on mixed convective ow of nanoliquids subject to rotating frame |
0 |
Multidiscipline Modeling in Materialsand Structures (Emerald) |
2019-07-01 |
141 |
B.Mahanthesh, T.Brizlyn, S.A.Shehzad, |
Nonlinear thermo-solutal convective flow of Casson fluid over an oscillating plate due to non-coaxial rotation with quadratic density fluctuation |
0 |
Multidiscipline Modeling in Materials and Structures |
2019-07-01 |
142 |
B.J.Gireesha, G.Sowmya, |
Temperature distribution analysis in a fully wet moving radial porous fin by finite element method |
1.938 |
International Journal of Numerical Methods for Heat and Fluid Flow (Emerald) |
2019-06-08 |
143 |
P.B.Sampath Kumar, B. J. Gireesha, B. Mahanthesh and A. J. Chamkha |
Thermal analysis of nanofluid flow containing gyrotactic microorganisms in bioconvection and second-order slip with convective condition |
2.042 |
Journal of Thermal Analysis and Calorimetry |
2019-06-01 |
144 |
B. Mahanthesh, B. J. Gireesha, I. L. Animasaun, T. Hayat and N. S. Shashikumar |
MHD flow of SWCNT and MWCNT nanoliquids past a rotating stretchable disk with thermal and exponential space dependent heat source |
0 |
Physica Scripta (IOP Publishing) |
2019-05-29 |
145 |
B.J. Gireesha, M. Archana, P.B. Sampath Kumar, R.S.R. Gorla |
Significance of temperature dependent viscosity, nonlinear thermal radiation and viscous dissipation on the dynamics of water conveying cylindrical and brick shaped molybdenum disulphide nanoparticle |
0 |
International Journal of Applied and Computational Mathematics |
2019-05-14 |
146 |
K. Ganesh Kumar, S. Manjunatha, B. J. Gireesha, F. M. Abbasi and S. A. Shehzad |
Numerical illustrations of 3D tangent hyperbolic liquid flow past a bidirectional moving sheet with convective heat transfer at the boundary |
0 |
Heat Transfer - Asian Research |
2019-04-19 |
147 |
B. Mahanthesh, N. S. Shashikumar, B. J. Gireesha, I.L. Animasaun, and T. Hayat |
Effectiveness of Hall current and exponential heat source on unsteady heat transport of dusty TiO2-EO nanoliquid with nonlinear radiative heat |
1.352 |
Journal of Computational Design and Engineering (Elsevier) |
2019-04-17 |
148 |
S. Manjunatha, B. Ammani Kuttan, S. Jayanthi, A. Chamkha and B.J. Gireesha |
Heat transfer enhancement in the boundary layer flow of hybrid nanofluids due to variable viscosity and natural convection |
0 |
Heliyon |
2019-04-04 |
149 |
B.J.Gireesha, C.T.Srinivasa, N.S.Shashikumar, Madhu Macha, J.K.Singh and B. Mahanthesh |
Entropy generation and heat transport analysis of Casson fluid flow with viscous and Joule heating in an inclined porous microchannel |
1.126 |
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engine |
2019-03-14 |
150 |
H.J. Lokesh, B.J.Gireesha and K.Ganesh Kumar, |
Characterization of Chemical Reaction on Magnetohydrodynamics Flow and Nonlinear Radiative Heat Transfer of Casson Nanoparticles Over an Exponentially Sheet |
0.9 |
Journal of Nanofluids(American Scientific Publishers) |
2019-03-06 |
151 |
S. A. Shehzad, B. Mahantesh, B. J. Gireesha, N. S. Shashikumar and M. Madhu |
Brinkman Forchheimer slip flow subject to exponential space and thermal dependent heat source in a microchannel utilizing SWCNT and MWCNT nanoliquids |
0 |
Heat Transfer - Asian Research |
2019-03-03 |
152 |
Kuttan, B.Ammani, S.Manjunatha, S.Jayanthy, B.J.Gireesha and M.Archana |
Effect of Variable Viscosity on Marangoni Convective Boundary Layer Flow of Nanofluid in the Presence of Mixed Convection |
0.9 |
Journal of nanofluids |
2019-03-01 |
153 |
B.J.Gireesha, M.R.Krishnamurthy and K.Ganeshkumar |
Nonlinear Radiative Heat Transfer and Boundary Layer Flow of Maxwell Nanofluid Past Stretching Sheet |
0.9 |
Journal of Nanofluids |
2019-03-01 |
154 |
C.T.Srinivasa, J.K.Singh, B.J.Gireesha and M.Archana |
Effect of Variable Fluid Properties on Magnetohydrodynamic Flow of Nanofluid Past a Flat Plate |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2019-03-01 |
155 |
C.T.Srinivasa, J.K.Singh, B.J.Gireesha and M.Archana |
Heat and Mass Transfer Analysis of Casson Nanofluid Flow Past a Static/Moving Vertical Plate with Heat Radiation |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2019-03-01 |
156 |
B. Mahanthesh, B. J. Gireesha, G. T. Thammanna, T. Hayat and A. Alsaedi |
Magnetohydrodynamic squeezing two-phase flow of particulate suspension in a rotating channel with transpiration cooling, Proceedings of the Institution of Mechanical Engineers, Part C: |
0 |
Journal of Mechanical Engineering Science (SAGE Publications) |
2019-02-01 |
157 |
B.J.Gireesha, M.Archana, B.Mahanthesh and B.C.Prasannakumara, |
Exploration of activation energy and binary chemical reaction effects on nano Casson fluid flow with thermal and exponential space-based heat source |
0.567 |
Multidiscipline Modelingin Materials and Structures (Emerald Insight) |
2019-01-07 |
158 |
K.Ganesh Kumar, B.J. Gireesha, N.G. Rudraswamy and M.R. Krishnamurthy |
An Unsteady Flow and Melting Heat Transfer of a Nano fluid over a Stretching Sheet Embedded in a Porous Medium |
0.063 |
International Journal of Applied Mechanics and Engineering |
2019-01-03 |
159 |
Macha Madhu, N.S.Shashikumar, B.J.Gireesha, |
Second law analysis of Powell-Eyring fluid flow through an inclined microchannel with thermal radiation |
2.151 |
Physica Scripta |
2019-01-02 |
160 |
N.S. Shashikumar, B.C. Prasannakumara, M. Archana and B.J. Gireesha |
Thermodynamics Analysis of a Casson Nanofluid Flow Through a Porous Microchannel in the Presence of Hydrodynamic Slip: A Model of Solar Radiation |
0.9 |
Journal of Nanofluids(American Scientific Publishers) |
2019-01-01 |
161 |
M. Archana, B. J. Gireesha, B. C. Prasannakumara |
Triple diffusive flow of Casson nanofluid with buoyancy forces and nonlinear thermal radiation over a horizontal plate |
0 |
Archives of Thermodynamics |
2019-01-01 |
162 |
N.S.Shashikumar, B.J.Gireesha, B.Mahanthesh, B.C.Prasannakumara and Ali Chamkha |
Entropy generation analysis of magneto-nanoliquids embedded with aluminium and titanium alloy nanoparticles in microchannel with partial slips and convective conditions |
1.173 |
International Journal of Numerical Methods for Heat and Fluid Flow (Emerald) |
2018-12-24 |
163 |
P.R.Athira, B.Mahanthesh, B.J.Gireesha and O.D.Makinde |
Non-Linear Convection in Chemically Reacting Fluid with an Induced Magnetic Field across a Vertical Porous Plate in the Presence of Heat Source/Sink |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
164 |
B.Mahanthesh, O.D.Makinde, B.J.Gireesha, K.L.Krupalakshmi and I.L.Animasaun |
Two-Phase Flow of Dusty Casson Fluid with Cattaneo-Christov Heat Flux and Heat Source Past a Cone, Wedge and Plate |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
165 |
B.J.Gireesha, B.Mahanthesh, O.D.Makinde and T.Muhammad |
Effects of Hall Current on Transient Flow of Dusty Fluid with Nonlinear Radiation Past a Convectively Heated Stretching Plate |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
166 |
B.Mahanthesh, B.J.Gireesha |
Dual Solutions for Unsteady Stagnation-Point Flow of Prandtl Nanofluid Past a Stretching/shrinking Plate |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
167 |
B.J.Gireesha, K.Ganesh Kumar, N.G.Rudraswamy and S.Manjunatha |
Effect of Viscous Dissipation on Three Dimensional Flow of a Nanofluid by Considering a Gyrotactic Microorganism in the Presence of Convective Condition |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
168 |
Sampath Kumar, P.Borappa, B.Mahanthesh, B.J.Gireesha and S.Manjunatha |
Mixed Convection 3D Radiating Flow and Mass Transfer of Eyring-Powell Nanofluid with Convective Boundary Condition |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
169 |
B.J.Gireesha, B.Mahanthesh and K.L.Krupalakshmi |
Numerical Investigation of Two-Phase Mixed Convection Flow of Particulate Oldroyd-B Fluid with Non-Linear Thermal Radiation and Convective Boundary Condition |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-12-12 |
170 |
M.Archana, M.G.Reddy, B.J.Gireesha, B.C.Prasannakumara and S.Shehzad, |
Triple diffusive flow of nanofluid with buoyancy forces and nonlinear thermal radiation over a horizontal plate |
0 |
Heat Transfer - Asian Research |
2018-12-01 |
171 |
B.Mahanthesh, B.J.Gireesha, M.Sheikholeslami, S.A.Shehzad and P.B.S.Kumar |
Nonlinear Radiative Flow of Casson Nanoliquid Past a Cone and Wedge with Magnetic Dipole: Mathematical Model of Renewable Energy |
0.9 |
Journal of Nanofluids (American Scientific
Publishers) |
2018-12-01 |
172 |
B.J.Gireesha, B.Mahanthesh, R.S.Reddy Gorla and K.L.Krupalakshmi |
Mixed convection two-phase flow of Maxwell fluid under the influence of non-linear thermal radiation, nonuniform heat source/sink and fluid-particle suspension |
2.43 |
Ain Shams Engineering Journal (Elsevier) |
2018-12-01 |
173 |
G.K.Ramesh, K.Ganesh Kumar, B.J.Gireesha, S.A.Shehzad, F.M.Abbasi |
Magnetohydrodynamic nanoliquid due to unsteady contracting cylinder with uniform heat generation/absorption and convective condition |
2.33 |
Alexandria Engineering Journal (Elsevier) |
2018-11-15 |
174 |
O.D.Makinde, B.C.Kumar, G.K.Ramesh and B.J. Gireesha |
Simultaneous convection of Carreau fluid with radiation past a convectively heated moving plate |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-11-01 |
175 |
B.J.Gireesha, K.Ganesh Kumar and S.Manjunatha, |
Impact of chemical reaction on
MHD 3D flow of a nano
fluid containing Gyrotactic microorganisms in the presence of uniform heat source/sink |
0.908 |
International Journal of Chemical Reactor Engineering
(De Gruyter) |
2018-10-19 |
176 |
B. J. Gireesha, K. Ganeshkumar, M. R. Krishnamurthy, S. Manjunatha and N. G. Rudraswamy |
Impact of ohmic heating on MHD mixed convection flow of Casson fluid by considering Cross diffusion effect |
0 |
Nonlinear Engineering (De Gruyter) |
2018-10-15 |
177 |
B.C.Prasannakumara, M.Gnaneshwara Reddy, G.T.Thamanna and B.J.Gireesha |
MHD double-diffusive boundary layer flow of a Maxwell nanofluid over a bidirectional stretching sheet with Soret and Dufour effects in the presence of radiation |
0.252 |
Nonlinear Engineering-Modeling and Application (DeGruyter) |
2018-09-25 |
178 |
R.Mohapatra, B.Mahanthesh, B.J.Gireesha and S.R.Mishra |
Exploration of Chemical Reaction Effects on Entropy Generation in Heat and Mass Transfer of Magneto-Jeffery Liquid |
0.623 |
International Journal of Chemical Reactor Engineering (De Gruyter) |
2018-09-18 |
179 |
K. Ganeshkumar, G. K. Ramesh, B. J. Gireesha, and A. M. Rashad |
On stretched magnetic flow of Carreau nanofluid with slip effects and nonlinear thermal radiation |
1.33 |
Nonlinear Engineering (De Gruyter) |
2018-09-17 |
180 |
P.B Sampath Kumar, B.Mahanthesh, B.J.Gireesha and S.A.Shehzad |
Quadratic convective flow of radiated nano-Jeffrey liquid subject to multiple convective conditions and Cattaneo-Christov double diffusion |
1.205 |
Applied Mathematics and Mechanics (Springer) |
2018-09-01 |
181 |
B Mahanthesh, BJ Gireesha, GT Thammanna, SA Shehzad, FM Abbasi, RSR Gorla |
Nonlinear convection in nano Maxwell fluid with nonlinear thermal radiation: A three-dimensional study |
2.33 |
Alexandria Engineering Journal (Elsevier) |
2018-09-01 |
182 |
K. Ganesh Kumar, G.K. Ramesh, B.J.Gireesha and R.S.R. Gorla |
Characteristics of Joule heating and viscous dissipation on three-dimensional flow of Oldroyd B nanofluid wih thermal radiation |
2.33 |
Alexandria Engineering Journal (Elsevier) |
2018-09-01 |
183 |
B.J. Gireesha, K. Ganesh Kumar, M.R. Krishanamurthy and N.G. Rudraswamy |
Enhancement of heat transfer in an unsteady rotating flow for the aqueous suspensions of single wall nanotubes under nonlinear thermal radiation: a numerical study |
1.967 |
Colloid and Polymer Science (Springer) |
2018-07-17 |
184 |
B.J.Gireesha, K.Ganesh Kumar and B.C. Prasannakumar |
Scrutinization of Chemical Reaction Effect on Flow and Mass Transfer of Prandtl Liquid over a Riga Plate in the Presence of Solutal Slip Effect |
0.623 |
International Journal of Chemical Reactor Engineering(De Gruyter) |
2018-07-10 |
185 |
N.S. Shashikumar, B.J. Gireesha, B. Mahanthesh and B.C. Prasannakumara |
Brinkman-Forchheimer flow of SWCNT and MWCNT magneto-nanoliquids in a microchannel with multiple slips and Joule heating aspects |
0.32 |
Multidiscipline Modeling in Materials and Structures(Emerald Insight) |
2018-06-15 |
186 |
B.J.Gireesha, R.S.R.Gorla, M.R.Krishnamurthy, B.C.Prasannakumara |
Biot number effect on MHD flow and heat transfer of nanofluid with suspended dust particles in the presence of nonlinear thermal radiation and non-uniform heat source/sink |
0 |
Acta et Commentationes Universitatis Tartuensis de Mathematica |
2018-06-10 |
187 |
B.J.Gireesha, K.Ganesh Kumar, G.K.Ramesh, B.C.Prasannakumara |
Nonlinear convective heat and mass transfer of Oldroyd-B nanofluid over a stretching sheet in the presence of uniform heat source/sink |
0.946 |
Results in Physics (Elsevier) |
2018-06-01 |
188 |
M.Archana, B.J.Gireesha, B.C.Prasannakumara and R.S.R.Gorla |
Influence of nonlinear thermal radiation on rotating flow of Casson nanofluid |
0.252 |
Nonlinear Engineering - Modelling and Applications (De Gruyter) |
2018-06-01 |
189 |
B.Mahanthesh, B.J.Gireesha, N.S.Shashikumar, T.Hayat |
Marangoni convection in Casson liquid flow due to an infinite disk with exponential space dependent heat sourceand cross-diffusion effects |
0.946 |
Results in Physics (Elsevier) |
2018-06-01 |
190 |
B.Mahanthesh, B.J.Gireesha, S.A.Shehzad, A.Rauf, and P.B.Sampath Kumar |
Nonlinear radiated MHD flow of nanoliquids due to a rotating disk with irregular heat source and heatflux condition |
1.386 |
Physica B: Condensed Matter (Elsevier) |
2018-05-15 |
191 |
K.Ganesh Kumar, B.J.Gireesha, S.Manjunatha |
Scrutinization of Joule Heating and Viscous Dissipation on MHD Flow and Melting Heat Transfer Over a Stretching Sheet |
0.063 |
International Journal of Applied Mechanics and Engineering (De Gruyter) |
2018-05-01 |
192 |
B.Mahanthesh, S.Manjunatha, B.J.Gireesha and B.Ammani Kuttan |
Heat and mass transfer effects on non-newtonian fluid flow over an unsteady stretching surface with viscous dissipation and thermal radiation |
1.09 |
JP Journal of Heat and Mass Transfer |
2018-05-01 |
193 |
B.J.Gireesha, B.Mahanthesh, G.T.Thammanna, and P.B.Sampath Kumar |
Hall effects on dusty nanofluid two-phase transient flow past a stretching sheet using KVL model |
4.513 |
Journalof Molecular Liquids (Elsevier) |
2018-04-15 |
194 |
R.V.M.S.S. Kiran Kumar, C.S.K.Raju, B Mahanthesh, B.J.Gireesha, S.V.K.Varma |
Chemical Reaction Effects on Nano Carreau Liquid Flow Past a Cone and a Wedge withCattaneo-Christov Heat Flux Model |
0.623 |
International Journal of Chemical Reactor Engineering(De Gruyter) |
2018-04-01 |
195 |
C.S.K. Raju, M.M. Hoque, P. Priyadharshini, B. Mahanthesh, B.J. Gireesha |
Cross diffusion effects on magnetohydrodynamic slip flow of Carreau liquid over a slendering sheet with non-uniform heat source/sink |
1.235 |
Journal of the Brazilian Society of Mechanical Sciences and Engineering(Springer) |
2018-04-01 |
196 |
K.Ganesh Kumar, M.Archana, B.J.Gireesha, M.R.Krishanamurthy, and N.G.Rudraswamy, |
Cross diffusion effect on MHD mixed convection flow of nonlinear radiative heat and masstransfer of Casson fluid over a vertical plate |
0.946 |
Results in Physics (Elsevier) |
2018-03-01 |
197 |
B.Mahanthesh, and B.J.Gireesha, |
Thermal Marangoni convection in two-phase flow of dusty Casson fluid |
0.946 |
Results in Physics (Elsevier) |
2018-03-01 |
198 |
B.Mahanthesh, B.J.Gireesha |
Scrutinization of thermal radiation, viscous dissipationand Joule heating effects on Marangoni convective two-phase flow of Casson fluid with fluid-particle suspension |
0.946 |
Results in Physics (Elsevier) |
2018-03-01 |
199 |
B.J.Gireesha, P.B.Sampath Kumar, B.Mahanthesh, S.A.Shehzad, F.M.Abbasi, |
Nonlinear gravitational and radiation aspects in nanoliquid with exponential space dependentheat source and variable viscosity |
1.188 |
Microgravity Science and Technology (Springer) |
2018-02-06 |
200 |
B.Mahanthesh, B.J.Gireesha, M.Archana, T.Hayat, and A.Alsaedi |
Variable viscosity effects on third-grade liquid
flow in post-treatment analysis of wire coating in the presence
of nanoparticles |
1.173 |
International Journal of Numerical Methods for Heat and
Fluid Flow (Emerald) |
2018-02-01 |
201 |
K.Ganesh Kumar, B.J.Gireesha, M.R.Krishnamurthy, B.C.Prasannakumara |
Impact of convective condition on Marangoni convection flow and heat transfer in Casson nanofluid with uniform heat source/sink |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2018-02-01 |
202 |
K.Ganesh Kumar, B.J.Gireesha and R.S.R.Gorla |
Flow and heat transfer of dusty hyperbolic tangent fluid over a stretching sheet in the presence of thermal radiation and magnetic field |
0.49 |
International Journal of Mechanical and Materials Engineering (Springer) |
2018-01-12 |
203 |
B. Mahanthesh, B.J. Gireesha and I.L.Animasaun |
Exploration of Non-Linear Thermal Radiation and Suspended Nanoparticles Effects on Mixed Convection Boundary Layer Flow of Nanoliquids on a Melting Vertical Surface |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2018-01-10 |
204 |
M.R.Krishnamurthy, K.Ganesh Kumar, B.J.Gireesha and N.G.Rudraswamy |
MHD Flow and Heat Transfer (PST and PHF) of Dusty Fluid Suspended with Alumina Nanoparticles Over a Stretching Sheet Embedded in a Porous Medium Under the Influence of Thermal Radiation |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2018-01-06 |
205 |
K.Ganesh Kumar, B.J.Gireesha, G.K.Ramesh and N.G.Rudraswamy |
Double-Diffusive Free Convective Flow of Maxwell Nanofluid Past a Stretching Sheet with Nonlinear Thermal Radiation |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2018-01-06 |
206 |
B. Mahanthesh, B.J.Gireesha, Rama S. R., Gorla, O. D. Makinde |
Magnetohydrodynamic three-dimensional flow of nanofluids with slip and thermal radiation over a nonlinear stretching sheet:a Numerical study |
4.213 |
Neural Computing and Applications (Springer) |
2018-01-01 |
207 |
O.D.Makinde, B.Mahanthesh, B.J.Gireesha, N.S.Shashikumar, R.L.Monaledi, M.S. Tshehla |
MHD Nanofluid Flow Past a Rotating Disk with Thermal Radiation in the Presence of Aluminum and Titanium Alloy Nanoparticles |
0.248 |
Defect and Diffusion Forum (Trans Tech) |
2018-01-01 |
208 |
N.S. Shashikumar, B.C. Prasannakumara, B.J. Gireesha, O.D. Makinde |
Thermodynamics Analysis of MHD Casson Fluid Slip Flow in a Porous Microchannel with Thermal Radiation |
0 |
Diffusion Foundations (Trans Tech Publications) |
2018-01-01 |
209 |
B.J.Gireesha, M.R.Krishnamurthy, B.C.Prasannakumara and R.S.R.Gorla |
MHD flow and nonlinear radiative heat transfer of Casson nanofluid past a nonlinearly stretching
sheet in the presence of chemical reaction |
0 |
Nanoscience and Technology: An International Journal(Begell House) |
2018-01-01 |
210 |
M.R.Krishnamurthy, K.Ganesh Kumar, B.J.Gireesha and N.G.Rudraswamy |
MHD Flow and Heat Transfer of Non-Newtonian
Nanofluids Over a Nonlinear Stretching Sheet |
0 |
Journal of Computational and Theoretical Nanoscience (American Scientic Publishers), |
2018-01-01 |
211 |
G.K. Ramesh, K. Ganesh Kumar, S.A. Shehzad, B.J.Gireesha |
Enhancement of radiation on hydromagnetic Casson fluid flow towards a stretched cylinder with suspension of liquid-particles |
0.724 |
Canadian Journal of Physics (NRC Research Press) |
2018-01-01 |
212 |
K.Ganesh Kumar, G.K.Ramesh, B.J.Gireesha |
Thermal analysis of generalized Burgers nanofluid over a stretching sheet with nonlinear radiation and non uniform heat source/sink |
0.598 |
Archives of Thermodynamics (De Gruyter) |
2018-01-01 |
213 |
M.Archana, B.J.Gireesha, B.C.Prasannakumara, M.M.Rashidi |
Bidirectionally stretched flow of Jeffrey liquid with nanoparticles, Rosseland radiation and variable thermal conductivity |
0.598 |
Archives of Thermodynamics (De Gruyter) |
2018-01-01 |
214 |
B.Mahanthesh, B.J.Gireesha, N.S.Shashikumar, S.A.Shehzad |
Marangoni convective MHD flow of SWCNT and MWCNT nanoliquids due to a disk with solar radiation and irregular heat source |
2.399 |
Physica E: Low-dimensional Systems and Nanostructures (Elsevier) |
2017-10-01 |
215 |
K. Ganesh Kumar and G.K. Ramesh, |
Numerical Solutions of Double-DiffusiveNatural Convection Flow of MHD Casson Fluid over a Stretching Vertical Surface with Thermal Radiation |
0.361 |
Journal of Numerical Analysis and Applied Mathematics (AmericanInstitute of Science) |
2017-09-18 |
216 |
O.D.Makinde, K.Ganesh Kumar, S.Manjunatha and B J Gireesha |
Effect of NonlinearThermal Radiation on MHD Boundary Layer Flow and Melting Heat Transfer of Micro-Polar Fluid over a Stretching Surface with Fluid Particles Suspension |
0.248 |
Defect and DiffusionForum (Trans Tech) |
2017-09-01 |
217 |
K.Ganesh Kumar, N.G.Rudraswamy, and B.J.Gireesha |
Effects of mass transfer on MHD
three dimensional
flow of a Prandtl liquid over a
flat plate in the presence of chemical
reaction |
0.946 |
Results in Physics (Elsevier) |
2017-08-29 |
218 |
N.G.Rudraswamy, S.A.Shehzad, K.Ganesh Kumar, and B.J.Gireesha |
Numerical analysisof MHD three-dimensional Carreau nanoliquid flow over bidirectionally moving surface |
1.235 |
Journal of the Brazilian Society of Mechanical Sciences and Engineering (Springer) |
2017-08-28 |
219 |
B.Mahanthesh, B.J.Gireesha, R.S.Reddy Gorla |
Unsteady three-dimensional MHD flow of a nano Eyring-Powell fluid past a convectively heated stretching sheet in the presence of thermal radiation viscous dissipation and joul heating |
1.57 |
Journal of the Association of Arab Universities for Basic and Applied Science (Elsevier) |
2017-06-20 |
220 |
B.J.Gireesha, B.C. Prasannakumara, M.R.Krishnamurthy, R. S. R. Gorla |
Unsteady Boundary Layer Flow and Convective Heat Transfer of a Fluid Particle Suspension with Nanoparticle over a stretching surface |
0 |
Journal of Modeling in Mechanics and Materials (DE Gruyter) |
2017-06-08 |
221 |
K. Ganesh Kumar, N.G.Rudraswamy, B.J. Gireesha, and M.R.Krishnamurthy |
Influence of nonlinear thermal radiation and viscous dissipation on three-dimensional flow of Jeffrey nanofluid over a stretching sheet in presence of joule heating |
0.252 |
Nonlinear Engineering - Modelling and Applications (De Gruyter) |
2017-05-10 |
222 |
B. Mahanthesh, B.J.Gireesha, S. A. Shehzad, F.M. Abbasi, R. S. R. Gorla |
Nonlinear three-dimensional stretched flow of an Oldroyd-B fluid with convective condition, thermal radiation and mixed convection |
1.205 |
Applied Mathematics and Mechanics (Springer) |
2017-04-27 |
223 |
P. B. Sampath Kumar, B.J.Gireesha, R. S. R. Gorla, and B. Mahanthesh |
Magnetohydrodynamic Flow of Williamson Nanofluid Due to an Exponentially Stretching Surface in the Presence of thermal radiation and chemical reaction |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2017-04-02 |
224 |
N.G. Rudraswamy, Ganesh Kumar K, B.J.Gireesha, R. S. R. Gorla |
Combined Effect of Joule Heating and Viscous Dissipation on MHD Three Dimensional Flow of a Jeffrey nanofluid |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2017-04-02 |
225 |
M. Archana, B.J.Gireesha, P. Venkatesh, and M. Gnaneswara Reddy |
Influence of Nonlinear Thermal Radiation and Magnetic Field on Three-Dimensional Flow of a Maxwell Nanofluid |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2017-04-01 |
226 |
B. Mahanthesh, F. Mabood, B.J.Gireesha, and R. S. R. Gorla |
Effect of chemical reaction and partial slip on the three dimensional flow of a nanofluid impinging on an exponentially stretching surface |
2.24 |
The European Physical Journal Plus (Springer) |
2017-03-03 |
227 |
B.J.Gireesha, P. Venkatesh, N. S. Shashikumar and B. C. Prasannakumar |
Boundary layer flow of dusty fluid over a permeable radiating stretching surface embedded in a thermally stratified porous medium in presence of uniform heat source |
0.252 |
Nonlinear Engineering- Modeling and Application (De Gruyter) |
2017-01-20 |
228 |
K.Ganesh Kumar, G.K.Ramesh, and B.J.Gireesha |
Impact of thermal radiation on double diffusive natural convection flow of MHD Casson
fluid past a stretching vertical surface |
0.62 |
Frontiers in Heat and Mass Transfer |
2017-01-12 |
229 |
S.Manjunatha, B.J.Gireesha and C.S.Bagewadi |
Series solutions for an unsteady flow and heat transfer of a rotating dusty fluid with radiation effect |
0.59 |
Journal of Acta Mathematica Universitatis Comenianae |
2017-01-11 |
230 |
C.S. Balla, N.Kishan, B.J.Gireesha, R.S.R.Gorla |
MHD boundary layer flow and heat transfer in an inclined porous square cavity filled with nanofluids |
2.43 |
Ain Shams Engineering Journal (Elsevier) |
2017-01-01 |
231 |
G.T.Thammanna, K.Ganesh Kumar, B.J.Gireesha, G.K.Ramesh, B.C.Prasannakumara |
Three dimensional MHD flow of couple stress Casson fluid past an unsteady stretching surfacewith chemical reaction |
0.946 |
Results in Physics(Elsevier) |
2017-01-01 |
232 |
B.J.Gireesha, B.Mahanthesh and K.L.Krupalakshmi |
Hall effect on two phase radiated flow of magneto-dusty-nanoliquid with irregular heat generation/consumption |
0.946 |
Result in Physics (Elsevier) |
2017-01-01 |
233 |
G.K.Ramesh and B.J.Gireesha |
Nonlinear radiative
flow of nano
fluid past a moving/stationary
Riga plate |
0.62 |
Frontiers in Heat and Mass Transfer (FHMT) |
2017-01-01 |
234 |
B Mahanthesh, BJ Gireesha, CSK Raju |
Cattaneo-Christov heat flux on UCM nanofluid flow across a melting surface with double stratification and exponential space dependen internel heat source |
0.545 |
Informatics in Medicine Unlocked (Elsevier) |
2017-01-01 |
235 |
G.K.Ramesh, B.J.Gireesha, S.A.Shehzad, F.M.Abbasi |
Analysis of heat transfer phenomenon in magnetohydrodynamic Casson fluid flow through Cattaneo-Christov heat diffusion theory |
1.178 |
Communications in Theoretical Physics (IOP Science) |
2017-01-01 |
236 |
K. Ganesh Kumar, B.J. Gireesha, N.G. Rudraswamy and S.Manjunatha |
Radiative heat transfers of Carreau fluid flow over a stretching sheet with fluid particle suspension and temperature jump |
0.946 |
Results in Physics |
2017-01-01 |
237 |
B.C.Prasannakumara, B.J.Gireesha, M.R.Krishnamurthy, K.Ganesh Kumar |
MHD flow and nonlinear radiative heat transfer of Sisko nanofluid over a nonlinear stretching sheet |
0.545 |
Informatics in Medicine Unlocked (Elsevier) |
2017-01-01 |
238 |
K.Ganesh Kumar, B.J.Gireesha, N.G.Rudraswamy, R.S.R.Gorla |
Melting heat transfer of hyperbolic tangent fluid over a stretching sheet with fluid particle suspension and thermal radiation |
0 |
Communications in Numerical Analysis (ispacs) |
2017-01-01 |
239 |
B.J.Gireesha, M. Archana, B. C. Prasannakumara, R. S. Reddy Gorla, O. D. Makinde |
MHD Three Dimensional Double Diffusive Flow of Casson Nanofluid with Buoyancy Forces and Nonlinear Thermal radiation over a stretching surface |
1.713 |
International Journal of Numerical Methods for Heat and Fluid Flow (Emerald Insight) |
2017 |
240 |
N.S.Shashikumar, M.Archana, B.C.Prasannakumara, B.J.Gireesha and O.D.Makinde |
Effects of Nonlinear Thermal Radiation and Second Order Slip on Casson Nanofluid Flow between Parallel Plates |
0.24 |
New Development for Heat Transfer in Solids and Fluid Flow (Special Issue) Defect and Diffusion Form |
2017 |
241 |
K.Ganesh Kumar, B.J.Gireesha, N.G.Rudraswamy, & S.Manjunatha |
Nonlinear thermal
radiation effect on Williamson fluid with particle-Liquid suspension past a stretching
surface |
0.946 |
Result in Physics (Elsevier) |
2017 |
242 |
K.Ganesh Kumar, B.J.Gireesha, B.C.Prasannakumara, & O.D.Makinde |
Impact of Chemical
Reaction on Marangoni Boundary Layer Flow of a Casson Nano Liquid in the Presence
of Uniform Heat Source Sink |
0 |
Diffusion Foundations (Trans Tech) |
2017 |
243 |
B.J.Gireesha, P.B. Sampath Kumar, B. Mahanthesh, S.A. Shehzad, A. Rauf |
Nonlinear 3D flow of Casson-Carreau fluids with homogeneous-heterogeneous reactions: A comparative study |
0.946 |
Results in Physics (Elsevier) |
2017 |
244 |
G.K.Ramesh, G.S.Roopa, B.J.Gireesha, S.A.Shehzad and F.M.Shehzad |
An electro-magnetohydrodynamic flow Maxwell nanoliquid past a Riga plate: numerical study |
1.235 |
Journal of the Brazilian Society of Mechanical Sciences and Engineering (Springer) |
2017 |
245 |
P.B.Sampath Kumar, B.J.Gireesha, B.Mahanthesh and R.S.R.Gorla |
Nonlinear thermal convection in jeffery liquid flow with cross diffusion effects past a streched surface |
0.24 |
New Development for Heat Transfer in Solids and Fluid Flow (Special Issue) Defect and Diffusion Form |
2017 |
246 |
B.Mahanthesh, B.J.Gireesha, B.C. Prasannakumara and N.S.Shashikumar, |
Marangoni convection radiative flow of dusty nanoliquid with exponential space dependent heat source |
1.144 |
Nuclear Engineering and Technology (Elsevier) |
2017 |
247 |
B Mahanthesh, BJ Gireesha, S Manjunatha, RSR Gorla |
Effect of Viscous Dissipation and Joule Heating on Three-Dimensional Mixed convection flow of nanofluid over a Non-linear stretching sheet in presence of solar radiation |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2017 |
248 |
B.J.Gireesha, P.T.Manjunatha, B.C.Prasannakumara |
Authors Response to Misleading Comment on the paper Effect of Radiation on Flow and Heat Transfer of MHD Dusty Fluid over a Stretching Cylinder Embedded in a Porous Medium in Presence of Heat Source |
0 |
International Journal of Applied and Computational Mathematics (Springer) |
2017 |
249 |
P.B. Sampath Kumara, B.J. Gireesha, B. Mahanthesha, R.S.R. Gorla |
Radiative nonlinear 3D flow of ferrofluid with Joule heating, convective condition and Coriolis force |
0 |
Thermal Science and Engineering Progress (Elsevier) |
2017 |
250 |
M.Archana, B.J.Gireesha, B.C.Prasannakumara, R..S.R.Gorla |
Numerical exploration of the combined effects of non-linear thermal radiation and variable thermo-physical properties on the flow of Casson nanofluid over a wedge |
0.32 |
Multidiscipline Modeling in Materials and Structures (Emerald Insight) |
2017 |
251 |
B.Mahanthesh, B.J.Gireesha, P.R.Athira |
Radiated flow of chemically reacting nanoliquid with an induced magnetic field across a permeable vertical plate |
0.946 |
Results in Physics (Elsevier) |
2017 |
252 |
B.Mahanthesh, P.B.Sampath Kumar, B.J.Gireesha, S.Manjunatha, R.S.R.Gorla |
Nonlinear convective and radiated flow of Tangent Hyperbolic liquid due to stretched surface with convective condition |
0.946 |
Results in Physics (Elsevier) |
2017 |
253 |
B.C.Prasannakumar, B.J.Gireesha, M.R.Krishnamurthy, R.S.R.Gorla |
Slip flow and nonlinear radiative heat transfer of suspended nanoparticles due to a rotating disc in the presence of convective boundary condition |
0.18 |
International Journal of Nanoparticles (Inderscience Publishers) |
2017 |
254 |
G.K. Ramesh, B.C. Prasannakumara, B.J.Gireesha, S.A. Shehzad, F.M. Abbasi |
Three dimensional flow of Maxwell fluid with suspended nanoparticles past a bidirectional porous stretching surface with thermal radiation |
0 |
Thermal Science and Engineering Progress (Elsevier) |
2017 |
255 |
G.T.Thammanna, B.J.Gireesha, B.Mahanthesh |
Partial slip and Joule heating on Magnetohydrodynamic radiated flow of nanofluid with dissipation and convective condition |
0.946 |
Results in Physics (Elsevier) |
2017 |
256 |
M.Umeshaiah, M.R.Krishnamurthy, N.G.Rudraswamy, B.J.Gireesha, B.C.Prasannakumara |
Nonlinear radiative heat transfer to carreau fluid over a nonlinear stretching sheet in a porous medium in the presence of non-uniform heat source/sink and viscous dissipation |
0.49 |
Frontiers in Heat and Mass Transfer |
2017 |
257 |
K.Ganesh Kumar, B.J.Gireesha, B.C.Prasannakumara, G.K.Ramesh |
Phenomenon of radiation and viscous dissipation on Casson nano liquid flow past a moving melting surface |
0.24 |
Defect and Diffusion Form (Special Issue) (Trans Tech Publications) |
2017 |
258 |
K.Ganesh Kumar, B.J.Gireesha, S.Manjunatha, N.G.Rudraswamy |
Effect of Nonlinear Thermal Radiation on Double Diffusive Mixed Convection Boundary Layer flow of Viscoelastic Nanofluid over a Stretching Sheet |
0.49 |
International Journal of Mechanical and Materials Engineering (Springer) |
2017 |
259 |
B.Mahanthesh, B.J.Gireesha, B.C.Prasannakumara and P.B.Sampath Kumar |
Magneto-Thermo-Marangoni convective flow of Cu − H2O nanoliquid past an infinite disk with particle shape and exponential space based heat source effects |
0.946 |
Results in Physics (Elsevier) |
2017 |
260 |
K.Ganesh Kumar, B.J.Gireesha, M.R.Krishnamurthy and N.G.Rudraswamy |
An unsteady squeezed flow of a tangent hyberbolic fluid over a sensor surface in the presence of variable thermal conductivity |
0.946 |
Result in Physics (Elsevier) |
2017 |
261 |
B.J.Gireesha, B.Mahanthesh, Rama S.R.Gorla, P.T.Manjunatha |
Thermal radiation and Hall effects on boundary layer flow past a non-isothermal stretching surface embedded in porous medium with non-uniform heat source/sink and fluid particle suspension |
1.494 |
Heat mass transfer (Springer) |
2016-01-01 |
262 |
Rama S.R.Gorla and B.J.Gireesha |
Dual solutions for stagnation-point flow and convective heat transfer of aWilliamson nanofluid past stretching /shrinking sheet |
1.494 |
Heat and mass transfer (Springer) |
2016-01-01 |
263 |
Koneri L. Krupalakshmi, Bijjanal J. Gireesha, Basavarajappa Mahanthesh, Rama Subba Reddy Gorla |
Influence of nonlinear thermal radiation and magnetic field on upperconvected Maxwell fluid flow due to a convectively heated stretching sheet in presence of dust particles |
0 |
Communications in Numerical Analysis (ispacs) |
2016-01-01 |
264 |
B.Mahanthesh, B.J.Gireesha, R.S.Reddy Gorla, F.M.Abbasi, S.A.Shehzad |
Numerical solutions for magnetohydrodynamic flow of nanofluid over a bidirectional non-linear stretching surface with prescribed surface heat flux boundary |
3.046 |
Journal of Magnetism and Magnetic Materials (Elsevier) |
2016-01-01 |
265 |
M.T.Darvishi, Rama Subba Reddy Gorla, F.Khani and B. J. Gireesha |
Thermal analysis of natural convection and radiation in a fully wet porous fin |
1.713 |
International Journal of Numerical Methods for Heat and Fluid Flow (Emerald Insight) |
2016 |
266 |
B.Mahanthesh, B.J.Gireesha and Rama S.R.Gorla |
Mixed convection squeezing threedimensional flow in a rotating channel filled with nanofluid |
1.713 |
International Journal of Numerical Methods for Heat and Fluid Flow (Emerald Insight) |
2016 |
267 |
K.L.Krupalakshmi, B.J.Gireesha, Rama S.R.Gorla and B.Mahanthesha |
Two-phase boundary layer flow, heat and mass transfer of a dusty liquid past a stretching sheet with thermal radiation |
0 |
International Journal of Industrial Mathematics |
2016 |
268 |
G.K.Ramesh, A.J.Chamkha and B. J. Gireesha |
Boundary layer flow past an inclined stationary/ moving flat plate with convective boundary condition |
0.51 |
Afrika Mathematika (Springer) |
2016 |
269 |
R.S.R.Gorla and B. J. Gireesha |
Convective heat transfer in three-dimensional boundary layer flow of Viscoelastic nanofluid |
1.315 |
Journal of Thermophysics and Heat Transfer (Aerospace Research Central) |
2016 |
270 |
S.Manjunatha and B. J. Gireesha |
Effects of variable viscosity and thermal conductivity on MHD flow and heat transfer of a dusty fluid |
2.43 |
Ain Shams Engineering Journal (Elsevier) |
2016 |
271 |
K.L.Krupalakshmi, B.J.Gireesha, Rama S.R.Gorla and B.Mahanthesh |
Effects of diffusionthermo and thermo-diffusion on two-phase boundary layer flow past a stretching sheet with fluid particle suspension and chemicaL reaction :a Numerical study |
0 |
Journal of the Nigerian Mathematical Society |
2016 |
272 |
G.K. Ramesh, B.C. Prasanna Kumara ,B.J.Gireesha and M.M. Rashidi |
Casson fluid flow near the stagnation point over a stretching sheet with variable thickness and radiation |
0.888 |
Journal of Applied Fluid Mechanics |
2016 |
273 |
B.C.Prasannakumara, B.J.Gireesha, Rama Subba Reddy Gorla and M.R.Krishnamurthy |
Effects of chemical reaction and nonlinear thermal radiation on Williamson nanofluid slip flow over a stretching sheet embedded in a porous medium |
0.839 |
Journal of Aerospace Engineering |
2016 |
274 |
M.R.Krishnamurthy, B.C.Prasannakumara, B.J.Gireesha, R. S. R. Gorla |
Effect of chemical reaction on MHD boundary layer flow and melting heat transfer of Williamson nanofluid in porous medium |
0 |
Engineering Science and Technology: an International Journal (Elsevier) |
2016 |
275 |
B.J.Gireesha, B.Mahanthesh I.S.Shivakumara, K.M.Eshwarappa |
Melting heat transfer in boundary layer stagnation-point flow of nanofluid towards a stretching sheet with induced magnetic field |
0 |
Engineering Science and Technology: an International Journal (Elsevier) |
2016 |
276 |
B.C.Prasannakumara, M.R.Krishnamurthy, B.J.Gireesha, Rama S.R.Gorla |
Effect of multiple slips and thermal radiation on MHD flow of Jeffery nanofluid with heat transfer |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
277 |
M.R.Krishnamurthy, B.C.Prasannakumara, Rama Subba Reddy Gorla, B.J.Gireesha |
Nonlinear thermal radiation and slip effect on boundary layer flow and heat transfer of suspended nanoparticles over a stretching sheet embedded in porous medium with convective boundary conditions |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
278 |
B.Mahanthesh, B.J.Gireesha, Rama Subba Reddy Gorla |
Heat and mass transfer effects on the mixed convective flow of chemically reacting nanofluid past a moving/stationary vertical plate |
2.33 |
Alexandria Engineering Journal (Elsevier) |
2016 |
279 |
G.K.Ramesha, B.J.Gireesha, T.Hayat, Ahmed Alsaedi |
Stagnation point flow ofMaxwell fluid towards a permeable surface in the presence of nanoparticles |
2.33 |
Alexandria Engineering Journal (Elsevier) |
2016 |
280 |
B.Mahanthesh, B.J.Gireesha, Rama Subba Reddy Gorla |
Nonlinear radiative heat transfer in MHD three-dimensional flow of water based nanofluid over a non-linearly stretching sheet with convective boundary condition |
0 |
Journal of the Nigerian Mathematical Society |
2016 |
281 |
J.Prathap Kumar, J.C.Umavathi, B.J.Gireesha, M.Karuna Prasad |
Mixed convective flow in a vertical double passage channel filled with nanofluid using Robin boundary conditions |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
282 |
M.R.Krishnamurthy, B.J.Gireesha, Rama Subba Reddy Gorla, B.C.Prasannakumara |
Suspended particle effect on slip flow and melting heat transfer of nanofluid over a stretching sheet embedded in a porous medium in presence of nonlinear thermal radiation |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
283 |
F.Khani, M.T.Darvishi, Rama Subba Reddy Gorla, B.J.Gireesha |
Thermal analysis of a fully wet porous radial fin with natural convection and radiation using the spectral collocation method |
0.16 |
Int. J. Applied Mechanics and Engineering (De Gruyter) |
2016 |
284 |
B.Mahanthesh, B.J.Gireesha, Rama Subba Reddy Gorla |
Nanoparticles effect on 3D flow, heat and mass transfer of nanofluid with nonlinear radiation, thermal-diffusion and diffusion-thermo effects |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
285 |
J.C.Umavathi, J.Prathap Kumar, Rama Subba Reddy Gorla, B.J.Gireesha |
Effect of electric field on dispersion of a solute in an MHD flow through a vertical channel with and without chemical reaction |
0.16 |
Int. J. Applied Mechanics and Engineering (De Gruyter) |
2016 |
286 |
M.Gnaneswara Reddy, P.Padma, B.Shankar, B.J.Gireesha |
Thermal radiation effects on mhd stagnation point flow of nanofluid over a stretching sheet in a porous medium |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
287 |
B.Mahanthesh, B.J.Gireesha, Thammanna, Rama Subba Reddy Gorla, B.C.Prasannakumara, P.Venkatesh |
Numerical investigation on boundary layer flow of a nanofluid towards an inclined plate with convective boundary: boungiorno nanofluid model |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
288 |
M.R.Krishnamurthy, B.J.Gireesha, B.C.Prasannakumara and Rama Subba Reddy Gorla |
Thermal radiation and chemical reaction effects on boundary layer slip flow and melting heat transfer of nanofluid induced by a nonlinear stretching sheet |
0.252 |
Nonlinear Engineering - Modeling and Application (De Gruyter) |
2016 |
289 |
N.G.Rudraswamy, B.J.Gireesha and M.R.Krishnamurthy |
Effect of internal heat generation/ absorption and viscous dissipation on mhd flow and heat transfer of nanofluid with particle suspension over a stretching sheet |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
290 |
S.Manjunatha, B.J.Gireesha |
An Analytical Solution of Unsteady Flow and Heat Transfer
of Rotating Fluid with Suspended Parasitical |
0 |
Journal of Advanced Mathematics and
Applications (American Scientific Publishers) |
2016 |
291 |
N.G. Rudraswamy, K. Ganesh Kumar, B.J.Gireesha and R.S.R. Gorla |
Soret and Dufour Effects in Three-Dimensional Flow of Jeffery Nanofluid in the Presence of Nonlinear thermal radiation |
0 |
Journal of Nanoengineering and Nanomanufacturing (American Scientific Publishers) |
2016 |
292 |
B. C. Prasannakumara, G. K. Ramesh and B.J.Gireesha |
Melting and Radiation Effects on Stagnation Point Jeffrey Fluid Flow Over a Stretching Sheet in the presence of nanoparticles |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2016 |
293 |
G.K.Ramesh, B.J.Gireesha and R.S.R.Gorla |
Boundary layer flow past a stretching sheet with fluid-particle suspension and convective boundary condition |
1.494 |
Heat Mass Transfer (Springer) |
2015-01-01 |
294 |
B.C.Prasanna Kumara, G.K.Ramesh, Ali J. Chamkha and B.J.Gireesha |
Stagnation-point flow of a viscous fluid towards a stretching surface with variable thickness and thermal radiation |
0 |
International Journal of Industrial Mathematics |
2015 |
295 |
M.R.Krishnamurthy, B.C.Prasannakumara, B.J.Gireesha and Rama S.R.Gorla |
Effect of viscous dissipation on hydromagnetic fluid flow and heat transfer of nanofluid over an exponentially stretching sheet with fluid particle suspention |
0 |
Cogent Mathematics |
2015 |
296 |
B.J.Gireesha, Rama S.R.Gorla, B Mahanthesh |
Effect of suspended nanoparticles on three-dimensional MHD flow, heat and mass transfer of radiating Eyring-powell fluid over a stretching sheet |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2015 |
297 |
Rama S.R.Gorla, B.J.Gireesha and Bhulander sing |
MHD flow and heat transfer of dusty nanofluid embedded in porous medium over an exponentially stretching sheet |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2015 |
298 |
Mahesh Kumari, B.J.Gireesha, Rama S.R.Gorla |
Heat and mass transfer in a nanofluid film on an unsteady stretching surface |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2015 |
299 |
B.C.Prasannakumara, B.J.Gireesha and P.T.Manjunatha |
Melting phenomenon in MHD stagnation point flow of dusty fluid over a stretching sheet in the presence of thermal radiation and non uniform heat source/sink |
0.87 |
International Journal for Computational Methods in Engineering Science and Mechanics |
2015 |
300 |
B.J.Gireesha, B.Mahanthesh and Mohammad Mehdi Rashidi |
MHD boundary layer heat and mass transfer of a chemically reacting casson fluid over a permeable stretching sheet with non uniform heat source/sink |
0 |
International Journal of Industrial Mathematics |
2015 |
301 |
B.J.Gireesha, B.Mahanthesh, P.T.Manjunatha, R.S.R.Gorla |
Numerical solution for hydromagnetic boundary layer flow and heat transfer past a stretching surface embedded in non-Darcy porous medium with fluid particle suspension |
0 |
Journal of the Nigerian Mathematical Society |
2015 |
302 |
P.T.Manjunatha, B.J.Gireesha and B. C. Prasannakumara |
Effect of radiation on flow and heat transfer of MHD dusty fluid Over a stretching cylinder embedded in a porous medium in presence of heat source |
0 |
International Journal of Applied and Computational Mathematics (Springer) |
2015 |
303 |
Rama S.R Gorla and B.J.Gireesha |
Transient velocity and steady state entropy generation in a micro fluidic couette flow containing charged nano particles |
0.063 |
International Journal of Applied Mechanics and engineering (De Gruyter) |
2015 |
304 |
G.K.Ramesha, B.J.Gireesha and Rama S.R.Gorla |
Study on Sakiadis and Blasius flows of Williamson fluid with convective boundary condition |
0.252 |
Nonlinear Engineering- Modeling and Application (De Gruyter) |
2015 |
305 |
S.Manjunatha, B.J.Gireesha and C. S. Bagewadi |
Mixed convection in the stagnation pointflow over a vertical stretching sheet in the presence of thermal radiation |
0.15 |
Int. J. of Applied Mechanics and Engineering (De Gruyter) |
2015 |
306 |
G.M.Pavithra and B J Gireesha |
Effect of viscous dissipation on hydromagnetic fluid flow and heat transfer in a porous medium at an exponentially stretching sheet with fluid particle suspension |
0.51 |
Afrika Matematika (Spinger) |
2015 |
307 |
G.K.Ramesh, B.J.Gireesha, T.Hayat and A.Alsaedi |
MHD flow of Maxwell fluid over a stretching sheet in the presence of nanoparticles, thermal radiation and chemical reaction:a numerical study |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2015 |
308 |
G.K.Ramesh, B.C.PrasannaKumara B.J.Gireesha and Rama Subba Reddy Gorla |
MHD stagnation point flow of nanofluid towards a stretching surface with variable thickness and thermal radiation |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2015 |
309 |
N.G.Rudraswamy, B.J.Gireesha and A.J.Chamkha |
Effects of magnetic field and chemical reaction on stagnation-point flow and heat transfer of a nanofluid over an inclined stretching sheet |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2015 |
310 |
G.K.Ramesh, Ali Chamkha, B.J.Gireesha |
Magnetohydrodynamic Flow of a Non- Newtonian Nanofluid Over an Impermeable Surface with Heat Generation/Absorption |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2014 |
311 |
N.G.Rudraswamy and B.J.Gireesha |
Influence of chemical reaction and thermal radiation on MHD boundary layer flow and heat transfer of a nano fluid over an exponentially stretching sheet |
0.53 |
Journal of Applied Mathematics and Physics (SCIRP) |
2014 |
312 |
G.M.Pavithra and B J Gireesha |
Unsteady flow and heat transfer of a fluid-particle suspension over an exponentially stretching sheet |
2.43 |
Ain Shams Engineering Journal (Elsevier) |
2014 |
313 |
N.G.Rudraswamy and B.J.Gireesha |
Effect of inclination angle and magnetic field on flow and heat transfer of a nanofluid over an impermiable stretching sheet |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2014 |
314 |
B.J.Gireesha, B.Mahanthesh and R.S.R.Gorla |
Suspended particle effect on nanofluid boundary layer flow past a stretching surface |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2014 |
315 |
G.K.Ramesh and B.J.Gireesha |
Influence of heat source/sink on a Maxwell fluid over a stretching surface with convective boundary condition in the presence of nanoparticles |
2.43 |
Ain Shams Engineering Journal (Elsevier) |
2014 |
316 |
P.T.Manjunatha, B.J.Gireesha and G K Ramesh |
Heat transfer in MHD flow of fluidparticle suspension over an impermeable surface through a porous medium with nonuniform heat source/sink |
0 |
Thermal Energy and Power Engineering |
2014 |
317 |
P.T.Manjunatha, B.J.Gireesha and B.C.Prasannakumara |
Thermal analysis of conducting dusty fluid flow in a porous medium over a stretching cylinder in the presence of non uniform heat source/sink |
0.49 |
International Journal of Mechanical and Materials Engineering (Springer) |
2014 |
318 |
B.J.Gireesha and N.G.Rudraswamy |
Chemical reaction on MHD flow and heat transfer of a nanofluid near the stagnation point over a permeable stretching surface with non uniform heat source/sink |
0 |
International Journal of Engineering, Science and Technology |
2014 |
319 |
B.J.Gireesha, A.J.Chamkha, N.G.Rudraswamy and M.R.Krishnamurthy |
MHD flow and heat transfer of a nanofluid embedded with dust particles over a stretching sheet |
0.9 |
Journal of Nanofluids (American Scientific Publishers) |
2014 |
320 |
N.G.Rudraswamy and B.J.Gireesha |
Radiation flow near stagnation point with heat and mass transfer of nanofluid over a permeable stretching sheet in the presence of uniform magnetic field and non uniform heat source/sink |
0 |
Thermal Energy and Power Engineering |
2014 |
321 |
G.S.Roopa, B.J.Gireesha and C S Bagewadi |
Numerical investigation of mixed convection boundary layer flow of a dusty fluid over an vertical surface with radiation |
0.51 |
Afrika Matematika (Spinger) |
2013 |
322 |
B.J.Gireesha, G.M.Pavithra and C.S.Bagewadi |
Thermal radiation effect on MHD flow of a dusty fluid over an exponentially stretching sheet |
0 |
International Journal of Engineering Research and technology |
2013 |
323 |
B.J.Gireesha and C.S. Vishalakshi |
Three dimension coutte flow of an unsteady dusty fluid and heat transfer through a porous medium with variable permeability |
0 |
Mathematical Sciences International Research Journal |
2013 |
324 |
H.J.Lokesh, B.J.Gireesha and G.K.Ramesha |
Effect of viscous dissipation on a dusty fluid over a stretching sheet with prescribed surface heat flux |
0 |
International Journal of Mathematical Archive (IJMA) |
2013 |
325 |
B.J.Gireesha and B.Mahanthesh |
Perturbation solution for radiating Visco-elastic fluid flow and heat transfer with boundary condition in non-uniform channel with hall current and chemical reaction |
0 |
ISRN Thermodynamics (Hindawi Publishing Corporation) |
2013 |
326 |
G.M.Pavithra and B.J.Gireesha |
Effect of internal heat generation/ absorption on dusty fluid flow over an exponentially stretching sheet with viscous dissipation |
0 |
Journal of Mathematics (Hindawi Publishing Corporation) |
2013 |
327 |
S.Manjunatha, B.J.Gireesha and C.S.Bagewadi |
Similarity solutions for boundary layer flow of a dusty fluid through a porous medium over astretching surface with internal heat generation/absorption |
1.035 |
Journal of Porous media (Begell House) |
2013 |
328 |
G.K.Ramesh, Ali Chamkha and B.J.Gireesha |
MHD mixed convection flow of a viscoelastic fluid over an inclined surface with a non-uniform heat source/sink |
0.724 |
Canadian Journal of Physics (NRC Research Press) |
2013 |
329 |
G.K.Ramesh and B.J.Gireesha |
Flow over a stretching sheet in a dusty fluid with radiation effect |
1.866 |
Journal of Heat Transfer |
2013 |
330 |
B.J.Gireesha, S.Manjunatha, H.J.Lokesh and C.S.Bagewadi |
Effect of hall current on hydromagnetic boundary layer in rotating dusty fluid with exponential pressure gradient |
0 |
IOSR Journal of Mathematics |
2013 |
331 |
B.J.Gireesha, G.S.Roopa and C.S.Bagewadi |
Effect of viscous dissipation and heat sourceon flow and heat transfer of a dusty fluid over an unsteady stretching sheet |
1.205 |
Applied
Mathematics and Mechanics(Springer) |
2012-07-28 |
332 |
B.J.Gireesha, K.R.Madhura, C.S.Bagewadi |
Flow of an unsteady dusty fluid through porous media in a uniform pipe with sector of a circle as cross-section |
0.379 |
International Journal of Pure and Applied Mathematics |
2012 |
333 |
B.J.Gireesha, G.K.Ramesh, C.S.Bagewadi, Mahesha |
Flow of an unsteady dusty fluid through a channel having triangular cross-section in Frenet frame field system under varying pulsatile pressure gradient |
0 |
Journal of Tensor Society |
2012 |
334 |
H.J.Lokesh, B.J.Gireesha, S.Manjunatha ,C.S.Bagewadi |
An MHD stagnation point flow and heat transfer of an unsteady dusty fluid over a stretching sheet |
0 |
Kuvempu University Sci. J. |
2012 |
335 |
B.J.Gireesha, G.S.Roopa ,C.S.Bagewadi |
Flow and heat transfer of dusty fluid between two rotating circular cylinders |
0 |
Kuvempu University Sci. J |
2012 |
336 |
B.J.Gireesha, S.Manjunatha and C S Bagewadi |
Unsteady hydromagnetic boundary layer flow and heat transfer of dusty fluid over a stretching sheet |
0.51 |
Afrika Matematika (Springer) |
2012 |
337 |
B.J.Gireesha, K.R.Madhura and C.S.Bagewadi |
Unsteady flow of a dusty fluid through porous media between annulus of two hexagonal channels |
0.18 |
International Journal of Applied Mathematics and Statistics |
2012 |
338 |
B.J.Gireesha, A.J.Chamkha, C.S.Vishalakshi and C.S.Bagewadi |
Three-dimensional Couette flow of a dusty fluid with heat transfer |
2.35 |
Applied Mathematical Modelling (Elsevier) |
2012 |
339 |
C.S.Vishalakshi, B.J.Gireesha and C S Bagewadi |
Three dimensional Couette flow of a dusty fluid through a porous medium with heat transfer |
0.63 |
European Journal of Scientific Research |
2012 |
340 |
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 |
0 |
International Journal of Physical and Mathematical Sciences (CIBTech) |
2012 |
341 |
B.J.Gireesha, K.R.Madhura and C.S.Bagewadi |
Flow of an unsteady dusty fluid through porous media between horizontal plate and a long wavy wall |
0.786 |
International Review of physics |
2012 |
342 |
K.R.Madhura, B.J.Gireesha |
Flow of an unsteady dusty fluid through porous media between a non-torsional oscillating plate and a long wavy wall |
0 |
Journal of Applied Mathematics and Fluid Mechanics |
2012 |
343 |
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 |
0 |
International Journal of Physical and Mathematical Sciences (CIBTech) |
2012 |
344 |
G.K.Ramesh and B J Gireesha |
Combined effects of non-uniform heat source/sink and radiation on heat transfer of a dusty fluid over a stretching sheet |
0 |
International Journal of Mathematical Archive |
2012 |
345 |
G.K.Ramesh, B.J.Gireesha and C.S.Bagewadi |
Heat transfer in MHD dusty boundary layer flow over an inclined stretching sheet with non-uniform heat source/sink |
0.643 |
Advances in Mathematical Physics (Hindawi) |
2012 |
346 |
B.J.Gireesha, G.K.Ramesh and C.S.Bagewadi |
Heat transfer in MHD flow of a dusty fluid over a stretching sheet with viscous dissipation |
0.29 |
Advances in Applied Science Research |
2012 |
347 |
G.K.Ramesh, B.J.Gireesha and C.S.Bagewadi |
MHD flow of a dusty fluid near the stagnation point over a permeable stretching sheet with non-uniform source/sink |
3.458 |
International Journal of Heat and Mass Transfer (Elsevier) |
2012 |
348 |
G.K.Ramesh, B.J.Gireesha and C.S.Bagewadi |
Convective heat transfer in a dusty fluid over a vertical permeable surface with thermal radiation |
0 |
International Journal of Nonlinear Science |
2012 |
349 |
S.Manjunatha, B.J.Gireesha and C S Bagewadi |
Unsteady boundary layer flow of dusty fluid over a vertical stretching sheet in the presence of non-uniform heat source/sink |
0 |
International Journal of Mathematical Archive |
2012 |
350 |
G.K.Ramesh, B.J.Gireesha and C S Bagewadi |
Stagnation point flow of a MHD dusty fluid towards a stretching sheet with radiation |
0.51 |
Afrika Matematika (Springer) |
2012 |
351 |
B.J.Gireesha, S.Manjunatha and C S Bagewadi |
Effect of radiation on boundary layer flow and heat transfer over a stretching sheet in the presence of free stream velocity |
0.888 |
Journal of Applied Fluid Mechanics |
2012 |
352 |
B.J.Gireesha, G.M.Pavithra and C.S.Bagewadi |
Boundary layer flow and heat transfer of a dusty fluid over an exponentially stretching sheet |
0 |
British Journal of Mathematics and Computer Science |
2012 |
353 |
S.Manjunatha, B.J.Gireesha and C S Bagewadi |
Effect of thermal radiation on boundary layer flow and heat transfer of dusty fluid over an unsteady stretching sheet |
0 |
International Journal of Engineering, Science and technology |
2012 |
354 |
C.S.Vishalakshi, B.J.Gireesha, C.S.Bagewadi |
Beltrami flow of an unsteady dusty fluid in an open rectangular channel |
1.08 |
Jangjeon Mathematical Society |
2011 |
355 |
Mahesha, B.J.Gireesha, G.K.Ramesh and C.S.Bagewadi |
Unsteady flow of a dusty fluid through a channel having triangular cross-section in Frenet frame field system |
0 |
Acta Universitatis Apulensis |
2011 |
356 |
B.J.Gireesha, S.Manjunatha, P.T. Manjunatha, C.S.Bagewadi |
Effect of Hall current on unsteady hydromagnetic boundary layers in rotating dusty fluid |
0 |
Journal of Applied Mathematics and Fluid Mechanics (JAMFM) |
2011 |
357 |
Mahesha, B.J.Gireesha, G.K.Ramesh and C.S.Bagewadi |
Flow of an unsteady conducting dusty fluid between a non-torsional oscillating plate and a long wavy wall |
0 |
International Journal of Computational Science and Mathematics |
2011 |
358 |
B.J.Gireesha, G.K.Ramesh, H.J.Lokesh, c,s Bagewadi |
Boundary layer flow and heat transfer of a dusty fluid over a stretching vertical surface |
0.65 |
Applied Mathematics (Scientific Research) |
2011 |
359 |
B.J.Gireesha, S.Manjunatha, H.J.Lokesh and C.S.Bagewadi |
Unsteady hydromagnetic boundary layer flow of a rotating dusty fluid |
0 |
International Journal of Computational and Applied Mathematics |
2011 |
360 |
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 |
0.72 |
Engineering (Scientific Research) |
2011 |
361 |
B.J.Gireesha, G.K.Ramesh, M.Subhas Abel and C.S.Bagewadi |
Boundary layer flow and heat transfer of a dusty fluid flow over a stretching sheet with non-uniform heat source/sink |
2.509 |
International Journal of Multiphase Flow (Elsevier) |
2011 |
362 |
G.K.Ramesh, Mahesha, B.J.Gireesha and C S Bagewadi |
Unsteady flow of a conducting dusty fluid between two circular cylinders |
0.59 |
Acta Mathematica Universitatis Comenianae |
2011 |
363 |
H.J.Lokesh, B.J.Gireesha, G.K.Ramesh and C S Bagewadi |
Boundary layer flow of a dusty fluid near the stagnation point on a stretching surface |
0 |
International Journal of Mechanics and Thermodynamics |
2011 |
364 |
G.S.Roopa, B.J.Gireesha and C S Bagewadi |
Unsteady Flow and Heat Transfer of a Dusty Fluid between Two Parallel Plates |
0 |
International Journal of Computational Science and Mathematics |
2011 |
365 |
G.S.Roopa, B.J.Gireesha and C S Bagewadi |
Effect of viscous dissipation on MHD flow and heat transfer of a dusty fluid over an unsteady stretching sheet |
0 |
International Journal of Mathematical Archive |
2011 |
366 |
B.J.Gireesha, Mahesha, S.Manjunatha and C S Bagewadi |
Hydromagnetic boundary layer flow of rotating dusty fluid under varying pressure gradient |
0 |
International Journal of Applied Mathematics and Engineering Sciences |
2011 |
367 |
B.J.Gireesha, A.J.Chamkha, S.Manjunatha and C.S.Bagewadi |
Mixed convective flow of a dusty fluid over a vertical stretching sheet with non-uniform heat source/sink and radiation |
1.713 |
International Journal of Numerical Methods for Heat and fluid flow (Emerald Insight) |
2011 |
368 |
T.Nirmala, B.J.Gireesha, C.S.Bagewadi, C.S.Vishalakshi |
Unsteady flow of a dusty fluid through an inclined open rectangular channel |
0 |
Acta Universitatis Apulensis |
2010 |
369 |
K.R.Madhura, B.J.Gireesha, C.S.Bagewadi |
Flow of an unsteady dusty fluid through porous media between two parallel plates with one of the horizontal moving plate is suddenly stopped |
0.786 |
International Review of Physics (IREPHY) |
2010 |
370 |
K.R.Madhura, B.J.Gireesha, C.S.Bagewadi |
Flow of an unsteady dusty fluid through porous media in a channel of triangular cross-section |
0.786 |
International Review of Physics (IREPHY) |
2010 |
371 |
B.J.Gireesha, G.S.Roopa, C.S.Bagewadi |
Unsteady flow and heat transfer of a dusty fluid through a rectangular channel |
0.802 |
Mathematical Problems in Engineering (Hindawi) |
2010 |
372 |
B.C.Prasannakumara, C.S.Bagewadi, B.J.Gireesha |
Transition motion of an unsteady dusty fluid through an open rectangular channel |
0 |
Analele Universitatii Oradea Fasc. Matematica |
2009 |
373 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Pulsatile flow of an unsteady dusty fluid through rectangular channel |
2.784 |
Communication in Nonlinear Science and Numerical Simulation (Elsevier) |
2009 |
374 |
B.J.Gireesha, P.Venkatesha, C. S. Bagewadi |
Flow of an unsteady conducting dusty fluid through circular cylinder |
0 |
Acta Universitatis Apulensis |
2009 |
375 |
B.C.Prasannakumara, B.J.Gireesha, C.S.Bagewadi |
Flow of an unsteady dusty fluid between two oscillating plates under varying pulsatile pressure gradient |
0 |
Journal of Studii si Cercetari Stiintifice Seria Matematica |
2009 |
376 |
B.J.Gireesha, C.S.Bagewadi, P.Venkatesha |
Unsteady flow of a conducting dusty fluid between two parallel plates started impulsively from rest |
0.29 |
Analele Stintifice ALE Universitatii AL.I Cuza (S.N) MATHEMATICA |
2009 |
377 |
K.R.Madhura, B.J.Gireesha, C.S.Bagewadi |
Pulsatile flow of a dusty fluid through a porous media in an open rectangular channel |
0 |
International Journal of Mathematics and computation |
2009 |
378 |
K.R.Madhura, B.J.Gireesha, C.S.Bagewadi |
Exact Solutions of Unsteady Dusty Fluid flow through Porous Media in an Open Rectangular Channel |
0 |
Advances in theoretical and applied mechanics |
2009 |
379 |
T.Nirmala, B.J.Gireesha, C.S.Bagewadi |
Unsteady flow of a dusty visco-elastic fluid between two parallel plates |
0.786 |
International Review of Physics (IREPHY) |
2009 |
380 |
B.J.Gireesha, T.Nirmala, C.S.Vishalakshi, C.S.Bagewadi |
Flow of an unsteady dusty visco-elastic fluid between two moving plates in frenet frame field system |
0.41 |
Buletinul Academiei de Stiinte a Republicii Moldova, Matematica |
2009 |
381 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Flow of unsteady dusty fluid under varying linear pressure gradient |
0 |
Journal of Indian Academy of Mathematics |
2008 |
382 |
Siddabasappa, Y.Venkateshappa, B.Rudraswamy, B.J.Gireesha, K.R.Gopinath |
Viscous dusty fluid flow with constant velocity magnitude |
0.24 |
Electronic Journal of Theoretical Physics (EJTP) |
2008 |
383 |
B.J.Gireesha, C.S.Bagewadi, P.Venkatesha, B.C.Prasannakumara |
Unsteady flow of a conducting dusty fluid near an accelerated plate |
0 |
Acta Universitatis Apulensis |
2008 |
384 |
B.J.Gireesha, C.S.Bagewadi, C.S.Vishalakshi |
Beltrami flow of an unsteady dusty fluid between parallel plates in anholonomic co-ordinate system |
0.24 |
Electronic Journal of Theoretical Physics (EJTP) |
2008 |
385 |
C.S.Bagewadi, Siddabasappa, B.J.Gireesha |
Study of streamlines of MGD flow of a surface S in Beltrami Surface S |
0 |
Tensor.N.S. |
2007 |
386 |
Siddabasappa, Venkateshappa, Rudraswamy, B.J.Gireesha |
Flow of unsteady rotating fluid between two parallel plates |
0 |
Kuvempu University Science Journal |
2007 |
387 |
B.J.Gireesha, C.S.Bagewadi, P.Venkatesh |
Unsteady flow of a conducting dusty fluid between two parallel plates |
0 |
Applied Sciences (Scientific Research Publishing) |
2007 |
388 |
B.J.Gireesha, C.S.Bagewadi, P.Venkatesh |
Unsteady flow of a of a conducting dusty fluid under varying pressure gradient |
0 |
Journal Ganita |
2007 |
389 |
B.J.Gireesha, C.S.Bagewadi, P.Venkatesh, Siddabasappa |
Unsteady flow of a conducting dusty fluid under varying linear pressure gradient in Frenet frame field system |
0 |
International Review of Pure and Applied Mathematics |
2007 |
390 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Flow of unsteady dusty fluid under varying pulsatile pressure gradient in anholonomic co-ordinate system |
0.24 |
Electronic Journal of Theoretical Physics (EJTP) |
2007 |
391 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Study of unsteady dusty fluid flow through rectangular channel in Frenet frame field system |
0.379 |
International Journal of Pure and Applied Mathematics (IJPAM) |
2007 |
392 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Unsteady dusty fluid flow between two oscillating plates |
0 |
Tensor. N. S. |
2007 |
393 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Flow of unsteady dusty fluid between two parallel plates under Constant pressure gradient |
0 |
Tensor. N. S. |
2007 |
394 |
S.Rashmi, V.Kavitha, B.Saba Roohi, Gurumurthy, B.J.Gireesha, C.S.Bagewadi |
Unsteady flow of a dusty fluid between two oscillating plates under varying constant pressure gradie |
0.23 |
Novi Sad Journal of Mathematics (NSJOM) |
2007 |
395 |
N.T.Sushma, Shilpa Desai, M.S.Varsha, B.J.Gireesha, C.S.Bagewadi |
Unsteady flow of dusty fluid between two oscillating plates under varying linear pressure gradient |
0 |
AMSE Modelling B |
2007 |
396 |
B.J.Gireesha, C.S.Bagewadi, B.C.Prasannakumara |
Unsteady dusty fluid flow through Rectangular Channel |
0 |
Pacific-Asian Journal of Mathematics |
2007 |
397 |
B.J.Gireesha, C.S.Bagewadi, K.R.Madhura |
Pulsatile flow of unsteady dusty fluid through porous media in anholonomic co-ordinate system |
1.08 |
Jangjeon Mathematical Society |
2007 |
398 |
B.J.Gireesha, C.S.Bagewadi and Mahesha |
Unsteady flow and heat transfer of a dusty fluid between two infinite parallel plates |
0 |
Kuvempu University Science Journal |
2006 |
399 |
Siddabasappa, C.S.Bagewadi, B.P.Mallikarjunaswamy and B.J.Gireesha |
A Study of MGD flow using differential geometry techniques |
0 |
ANIJMIT |
2006 |
400 |
B.J.Gireesha, C.S.Bagewadi and B.C.Prasannakumara |
Flow of unsteady dusty fluid under varying periodic pressure gradient |
0 |
Journal of Analysis and Computation (JAAC) |
2006 |
401 |
B.J.Gireesha and C.S.Bagewadi |
A Study of two dimensional unsteady dusty fluid flow under varying pressure gradient |
0 |
AMSE Modelling B |
2006 |
402 |
Siddabasappa, C.S.Bagewadi, B.J.Gireesha |
Solutions with orthogonal velocity and magnetic fields |
0 |
AMSE Modelling B |
2006 |
403 |
C.S.Bagewadi and B.J.Gireesha |
A Study of two dimensional unsteady dusty fluid flow under varying temperature |
0.063 |
International Journal of Applied Mechanics and Engineering (De Gruyter) |
2004 |
404 |
C.S.Bagewadi, B.J.Gireesha |
A Study of two dimensional steady dusty fluid flow under varying pressure gradient |
0 |
Tensor.N.S |
2003 |
405 |
B.J.Gireesha and C.S.Bagewadi |
A Study of two dimensional dusty fluid flow under transverse magnetic field |
1.5 |
Ganita |
2003 |