Thermal and physical impact of viscoplastic nanoparticles in a complex divergent channel due to peristalsis phenomenon: Heat generation and multiple slip effects

[1]  Humaira Yasmin,et al.  Analysis of Motile Gyrotactic Micro-Organisms for the Bioconvection Peristaltic Flow of Carreau–Yasuda Bionanomaterials , 2023, Coatings.

[2]  A. Ali,et al.  Electrothermal blood streaming conveying hybridized nanoparticles in a non-uniform endoscopic conduit , 2022, Medical & Biological Engineering & Computing.

[3]  Muhammad Asif Gondal,,et al.  Electro-osmotically driven generalized Newtonian blood flow in a divergent micro-channel , 2021, Alexandria Engineering Journal.

[4]  Y. Akbar,et al.  MHD peristaltic transportation of radiative MWCNT-Ag/C2H6O2 hybrid nanofluid with variable characteristics , 2021 .

[5]  K. Saeed,et al.  Hybrid impact of thermal and concentration convection on peristaltic pumping of Prandtl nanofluids in non-uniform inclined channel and magnetic field , 2021 .

[6]  M. Raza,et al.  MHD flow study of viscous fluid through a complex wavy curved surface due to bio-mimetic propulsion under porosity and second-order slip effects , 2021 .

[7]  C. Rajashekhar,et al.  Channel flow of MHD bingham fluid due to peristalsis with multiple chemical reactions: an application to blood flow through narrow arteries , 2021, SN Applied Sciences.

[8]  N. Krishna,et al.  Heat generation and chemical reaction in flow propagated by peristalsis incidence of radiation in MHD Jeffrey nanofluid , 2020 .

[9]  D. Tripathi,et al.  Entropy and exergy analysis on peristaltic pumping in a curved narrow channel , 2020, Heat Transfer.

[10]  Aamir Ali,et al.  Investigation on TiO2–Cu/H2O hybrid nanofluid with slip conditions in MHD peristaltic flow of Jeffrey material , 2020, Journal of Thermal Analysis and Calorimetry.

[11]  K. Javid,et al.  Biomechanics of electro-kinetically modulated peristaltic motion of bio-fluid through a divergent complex wavy channel , 2020 .

[12]  Dharmendra Tripathi,et al.  Nanofluids flow driven by peristaltic pumping in occurrence of magnetohydrodynamics and thermal radiation , 2019, Materials Science in Semiconductor Processing.

[13]  F. M. Abbasi,et al.  Peristalsis of nanofluid through curved channel with Hall and Ohmic heating effects , 2019, Journal of Central South University.

[14]  G. Sankad,et al.  Simultaneous Chemical Reactions Effect on Dispersion of a Solute in Peristaltic Propulsion of a Newtonian Fluid in an Inclined Channel with Wall Properties , 2019, International Journal of Applied Mechanics and Engineering.

[15]  F. M. Abbasi,et al.  Numerical study for peristalsis of Carreau-Yasuda nanomaterial with convective and zero mass flux condition , 2018 .

[16]  Dharmendra Tripathi,et al.  MHD dissipative flow and heat transfer of Casson fluids due to metachronal wave propulsion of beating cilia with thermal and velocity slip effects under an oblique magnetic field , 2016 .

[17]  T. Hayat,et al.  Peristaltic transport of Powell–Eyring fluid in a curved channel with heat/mass transfer and wall properties , 2016 .

[18]  M. Awais,et al.  Velocity, thermal and concentration slip effects on a magneto-hydrodynamic nanofluid flow , 2016 .

[19]  Mohammad Mehdi Rashidi,et al.  Numerical Simulation of Entropy Generation with Thermal Radiation on MHD Carreau Nanofluid towards a Shrinking Sheet , 2016, Entropy.

[20]  Gnaneswara Reddy Machireddy,et al.  Impact of velocity slip and joule heating on MHD peristaltic flow through a porous medium with chemical reaction , 2016 .

[21]  S. Nadeem,et al.  Mathematical Analysis for Peristaltic Flow of Two Phase Nanofluid in a Curved Channel , 2015 .

[22]  Noreen Sher Akbar,et al.  Influence of magnetic field on peristaltic flow of a Casson fluid in an asymmetric channel: Application in crude oil refinement , 2015 .

[23]  A. A. Farooq,et al.  A Mathematical Model for the Flow of a Casson Fluid due to Metachronal Beating of Cilia in a Tube , 2015, TheScientificWorldJournal.

[24]  Morteza Khoshvaght-Aliabadi,et al.  An experimental study of Cu–water nanofluid flow inside serpentine tubes with variable straight-section lengths , 2015 .

[25]  Fuad E. Alsaadi,et al.  Hall effects on peristaltic flow of couple stress fluid in an inclined asymmetric channel , 2014 .

[26]  N. Akbar,et al.  Exact solution of peristaltic flow of biviscosity fluid in an endoscope: A note , 2014 .

[27]  Tasawar Hayat,et al.  Peristaltic Motion of Nanofluid in a Curved Channel , 2014 .

[28]  Dharmendra Tripathi,et al.  A study on peristaltic flow of nanofluids: Application in drug delivery systems , 2014 .

[29]  Kee-Joe Lim,et al.  Fabrication and Characteristics of Ring Type Valveless Piezoelectric Micro-Pump using Peristaltic Motion , 2010 .

[30]  T. Hayat,et al.  Long Wavelength Flow Analysis in a Curved Channel , 2010 .

[31]  H. H. Kim,et al.  Design and Modeling of Piezoelectric Pump for Microfluid Devices , 2009 .

[32]  Davood Domiri Ganji,et al.  ASSESSMENT OF HOMOTOPY-PERTURBATION AND PERTURBATION METHODS IN HEAT RADIATION EQUATIONS , 2006 .

[33]  Mir Majid Teymoori,et al.  Design and simulation of a novel electrostatic peristaltic micromachined pump for drug delivery applications , 2005 .

[34]  By J. C. Burns Peristaltic motion , 1967, Journal of Fluid Mechanics.

[35]  S. Sreenadh,et al.  MHD peristaltic flow of biviscosity fluid with Saffman slip condition at the wall , 2020 .

[36]  N. Ali,et al.  Numerical solution of hydromagnetic peristaltic flow in a porous-saturated heated channel , 2019, Thermal Science.

[37]  N. Ali,et al.  Simultaneous effects of viscoelasticity and curvature on peristaltic flow through a curved channel , 2016 .

[38]  V. Narla,et al.  Peristaltic Transport of Jeffrey NanoFluid in Curved Channels , 2015 .

[39]  M. R. Kaimal,et al.  On Peristaltic Pumping , 1978 .