All Stories

  1. Linear temporal instabilities and transient energy growth in rotating curved microchannel flow
  2. Entropy analysis of MHD flow in hybrid nanofluid over a rotating disk with variable viscosity and nonlinear thermal radiation
  3. Electromagnetohydrodynamic flow and thermal performance in a rotating rough surface microchannel
  4. Stability analysis of electro-osmotic flow in a rotating microchannel
  5. Fractionalized Jeffrey fluid model for predicting magnetic nanoparticles trajectory: A physiological aspects of drug targeting
  6. Mathematical modeling of graphene–PDMS Maxwell nanofluid flow over a stretching surface: A study on the efficient energy management †
  7. Anisotropic property of turbulent flow control through multiple stenosed microtubes
  8. Effects of diffusive Reynolds number on electro-osmotic pulsating nanofluid flow
  9. Entropy analysis of unsteady magnetohydrodynamic thin liquid film flow of Maxwell nanofluids with variable fluid properties
  10. Mathematical modeling of electrothermal couple stress nanofluid flow and entropy in a porous microchannel under injection process
  11. Entropy analysis of thermo-solutal stratification of nanofluid flow containing gyrotactic microorganisms over an inclined radiative stretching cylinder
  12. Entropy analysis on unsteady MHD biviscosity nanofluid flow with convective heat transfer in a permeable radiative stretchable rotating disk
  13. Entropy analysis of unsteady MHD three‐dimensional flow of Williamson nanofluid over a convectively heated stretching sheet
  14. Computational modeling of the effect of blood flow and dual phase lag on tissue temperature during tumor treatment by magnetic hyperthermia
  15. Spatio-temporal evolution of magnetohydrodynamic blood flow and heat dynamics through a porous medium in a wavy-walled artery
  16. Thermo-fluidic transport of electromagnetohydrodynamic flow in a corrugated porous medium microchannel
  17. Fractional order model for thermochemical flow of blood with Dufour and Soret effects under magnetic and vibration environment
  18. DPL Model for Hyperthermia Treatment of Cancerous Cells Using Laser Heating Technique: A Numerical Study
  19. Electrothermal analysis in two-layered couple stress fluid flow in an asymmetric microchannel via peristaltic pumping
  20. Electroosmotic flow of a fractional second‐grade fluid with interfacial slip and heat transfer in the microchannel when exposed to a magnetic field
  21. Modeling and simulation of blood flow with magnetic nanoparticles as carrier for targeted drug delivery in the stenosed artery
  22. Caputo–Fabrizio fractional order model on MHD blood flow with heat and mass transfer through a porous vessel in the presence of thermal radiation
  23. Mathematical model to verify the role of magnetic field on blood flow and its impact on thermal behavior of biological tissue for tumor treatment
  24. Entropy Analysis on Unsteady MHD Flow of Casson Nanofluid over a Stretching Vertical Plate with Thermal Radiation Effect
  25. Pulsatile flow and heat transfer of blood in an overlapping vibrating atherosclerotic artery: A numerical study
  26. Entropy generation on electromagnetohydrodynamic flow through a porous asymmetric micro-channel
  27. Peristaltically Induced Electroosmotic Flow of Jeffrey Fluid with Zeta Potential and Navier-Slip at the Wall
  28. Entropy generation and Joule heating of two layered electroosmotic flow in the peristaltically induced micro-channel
  29. Differential Transform Method for Unsteady Magnetohydrodynamic Nanofluid Flow in the Presence of Thermal Radiation
  30. Electro-osmotic flow and heat transfer in a slowly varying asymmetric micro-channel with Joule heating effects
  31. Magnetic field interaction with blood flow and heat transfer through diseased artery having Abdominal Aortic Aneurysm
  32. Mathematical modeling of heat and mass transfer effects on MHD peristaltic propulsion of two-phase flow through a Darcy-Brinkman-Forchheimer porous medium
  33. Joule heating and zeta potential effects on peristaltic blood flow through porous micro vessels altered by electrohydrodynamic
  34. Computational modeling of MHD flow of blood and heat transfer enhancement in a slowly varying arterial segment
  35. Non-Newtonian flow of blood in a catheterized bifurcated stenosed artery
  36. Transport of magneto-nanoparticles during electro-osmotic flow in a micro-tube in the presence of magnetic field for drug delivery application
  37. Transportation of ionic liquids in a porous micro-channel induced by peristaltic wave with Joule heating and wall-slip conditions
  38. Joule heating effects on electromagnetohydrodynamic flow through a peristaltically induced micro-channel with different zeta potential and wall slip
  39. Entropy generation on electro-osmotic flow pumping by a uniform peristaltic wave under magnetic environment
  40. Entropy generation on MHD flow and convective heat transfer in a porous medium of exponentially stretching surface saturated by nanofluids
  41. ADOMIAN DECOMPOSITION METHOD FOR MAGNETOHYDRODYNAMIC FLOW OF BLOOD INDUCED BY PERISTALTIC WAVES
  42. Numerical investigation of MHD flow of blood and heat transfer in a stenosed arterial segment
  43. Electro-osmotic flow of power-law fluid and heat transfer in a micro-channel with effects of Joule heating and thermal radiation
  44. Two-layer electro-osmotic flow and heat transfer in a hydrophobic micro-channel with fluid–solid interfacial slip and zeta potential difference
  45. Effect of heat transfer on unsteady MHD flow of blood in a permeable vessel in the presence of non-uniform heat source
  46. Role of slip velocity on peristaltic transport of couple stress fluid through an asymmetric non-uniform channel: Application to digestive system
  47. Solution to the Riemann problem for a five-equation model of multiphase flows in non-conservative form
  48. Electro-magnetohydrodynamic Flow of Biofluid Induced by Peristaltic Wave: A Non-newtonian Model
  49. Electro-osmotically driven MHD flow and heat transfer in micro-channel
  50. EFFECT OF INDUCED MAGNETIC FIELD ON BLOOD FLOW THROUGH A CONSTRICTED CHANNEL: AN ANALYTICAL APPROACH
  51. The Riemann problem for non-ideal isentropic compressible two phase flows
  52. Study of galactic rotation curves in wormhole spacetime
  53. Effects of slip velocity on rotating electro-osmotic flow in a slowly varying micro-channel
  54. Could wormholes form in dark matter galactic halos?
  55. Temperature Response in a Living Tissue with Different Heating Source at the Skin Surface Under Relaxation Time
  56. Effect of heat transfer on rotating electroosmotic flow through a micro-vessel: haemodynamical applications
  57. Gravitational collapse of a circularly symmetric star in an anti-de Sitter spacetime
  58. Peristaltic transport of MHD flow and heat transfer in an asymmetric channel: Effects of variable viscosity, velocity-slip and temperature jump
  59. Convective Heat Transfer and MHD Viscoelastic Nanofluid Flow Induced by a Stretching Sheet
  60. Pulsatile flow of blood and heat transfer with variable viscosity under magnetic and vibration environment
  61. Electromagnetohydrodynamic flow of blood and heat transfer in a capillary with thermal radiation
  62. Effect of thermal relaxation time on heat transfer in a two layer composite system of living tissues
  63. Oscillatory blood flow through a capillary in presence of thermal radiation
  64. Modeling of Blood Flow in a Constricted Porous Vessel Under Magnetic Environment: An Analytical Approach
  65. Hydromagnetic effect on inclined peristaltic flow of a couple stress fluid
  66. Effect of Slip Velocity on Peristaltic Transport of a Magneto-Micropolar Fluid Through a Porous Non-uniform Channel
  67. A new deterministic model of strange stars
  68. Electroosmotic oscillatory flow of micropolar fluid in microchannels: application to dynamics of blood flow in microfluidic devices
  69. Role of Slip Velocity on the Oscillatory Flow of Blood Through a Porous Vessel in the Presence of Heat Source and Chemical Reaction
  70. Unsteady Flow and Heat Transfer of a MHD Micropolar Fluid Over a Porous Stretching Sheet in the Presence of Thermal Radiation
  71. THERMODYNAMIC AND MAGNETOHYDRODYNAMIC ANALYSIS OF BLOOD FLOW CONSIDERING ROTATION OF MICRO-PARTICLES OF BLOOD
  72. Computational Modelling of Blood Flow Development and Its Characteristics in Magnetic Environment
  73. A NUMERICAL MODEL FOR THE MAGNETOHYDRODYNAMIC FLOW OF BLOOD IN A POROUS CHANNEL
  74. Effects of thermal radiation on MHD viscous fluid flow and heat transfer over nonlinear shrinking porous sheet
  75. Electro-osmotic flow of a viscoelastic fluid in a channel : Applications to physiological fluid mechanics
  76. MATHEMATICAL MODELING OF BLOOD FLOW IN A POROUS VESSEL HAVING DOUBLE STENOSES IN THE PRESENCE OF AN EXTERNAL MAGNETIC FIELD
  77. PULSATILE FLOW AND HEAT TRANSFER OF A MAGNETO-MICROPOLAR FLUID THROUGH A STENOSED ARTERY UNDER THE INFLUENCE OF BODY ACCELERATION
  78. Thermal radiation and hall effect on MHD flow, heat and mass transfer over an inclined permeable stretching sheet
  79. Flow of a biomagnetic viscoelastic fluid: application to estimation of blood flow in arteries during electromagnetic hyperthermia, a therapeutic procedure for cancer treatment
  80. Effect of induced magnetic field on peristaltic flow of a micropolar fluid in an asymmetric channel
  81. Hydromagnetic flow and heat transfer of a second-grade viscoelastic fluid in a channel with oscillatory stretching walls: application to the dynamics of blood flow
  82. Flow of a Biomagnetic Visco-Elastic Fluid in a Channel With Stretching Walls
  83. Biomagnetic viscoelastic fluid flow over a stretching sheet
  84. PERISTALTIC TRANSPORT OF A PHYSIOLOGICAL FLUID IN AN ASYMMETRIC POROUS CHANNEL IN THE PRESENCE OF AN EXTERNAL MAGNETIC FIELD
  85. MATHEMATICAL ANALYSIS OF BLOOD FLOW THROUGH AN ARTERIAL SEGMENT WITH TIME‐DEPENDENT STENOSIS
  86. THEORETICAL ANALYSIS OF BLOOD FLOW THROUGH AN ARTERIAL SEGMENT HAVING MULTIPLE STENOSES
  87. Flow and heat transfer of a MHD viscoelastic fluid in a channel with stretching walls: Some applications to haemodynamics
  88. Blood flow through arteries in a pathological state: A theoretical study