Slip and Hall Current Effects on Jeffrey Fluid Suspension Flow in a Peristaltic Hydromagnetic Blood Micropump

Ali N, Hussain Q, Hayat T, Asghar S (2008) Slip effects on the peristaltic transport of MHD fluid with variable viscosity. Phys Lett A 372:1477–1489

Bahiraei M (2014) A comprehensive review on different numerical approaches for simulation in nanofluids: traditional and novel techniques. J Dispers Sci Technol 35(7):984–996

Bahiraei M (2016a) Particle migration in nanofluids: a critical review. Int J Therm Sci 109:90–113

Bahiraei M (2016b) A numerical study of heat transfer characteristics of CuO–water nanofluid by Euler–Lagrange approach. J Therm Anal Calorim 123(2):1591–1599

Bahiraei M, Mazaheri N, Alighardashi M (2017a) Development of chaotic advection in laminar flow of a non-Newtonian nanofluid: a novel application for efficient use of energy. Appl Therm Eng 124:1213–1223

Bahiraei M, Gharagozloo K, Alighardashi M, Mazaheri N (2017b) CFD simulation of irreversibilities for laminar flow of a power-law nanofluid within a minichannel with chaotic perturbations: an innovative energy-efficient approach. Energy Convers Manag 144:374–387

Bahiraei M, Khosravi R, Heshmatian S (2017c) Assessment and optimization of hydrothermal characteristics for a non-Newtonian nanofluid flow within miniaturized concentric-tube heat exchanger considering designer’s viewpoint. Appl Therm Eng 123:266–276

Bég OA, Sim L, Zueco J, Bhargava R (2010a) Numerical study of magnetohydrodynamic viscous plasma flow in rotating porous media with Hall currents and inclined magnetic field influence. Commun Nonlinear Sci Numer Simul 15:345–359

Bég OA, Zueco J, Lopez-Ochoa L (2010b) Network numerical analysis of optically thick hydromagnetic slip flow from a porous spinning disk with radiation flux, variable thermophysical properties, and surface injection effects. Chem Eng Commun 198:360–384

Bég T, Rashidi M, Bég OA, Rahimzadeh N (2013) Differential transform semi-numerical analysis of biofluid-particle suspension flow and heat transfer in non-Darcian porous media. Comput Methods Biomech Biomed Eng 16:896–907

Bég OA, Basir MF, Uddin M, Ismail AM (2016) Numerical study of slip effects on unsteady asymmetric bioconvective nanofluid flow in a porous microchannel with an expanding/contracting upper wall using Buongiorno’s model. J Mech Med Biol 17:1750059

Bhatti MM, Zeeshan A (2017) Heat and mass transfer analysis on peristaltic flow of particle–fluid suspension with slip effects. J Mech Med Biol 17:1750028

Bhatti MM, Zeeshan A, Ellahi R (2016) Study of heat transfer with nonlinear thermal radiation on sinusoidal motion of magnetic solid particles in a dusty fluid. J Theor Appl Mech 46(3):75–94

Bhatti MM, Zeeshan A, Ellahi R (2017a) Simultaneous effects of coagulation and variable magnetic field on peristaltically induced motion of Jeffrey nanofluid containing gyrotactic microorganism. Microvasc Res 110:32–42

Bhatti MM, Sheikholeslami M, Zeeshan A (2017b) Entropy analysis on electro-kinetically modulated peristaltic propulsion of magnetized nanofluid flow through a microchannel. Entropy 19:481

Bhatti MM, Zeeshan A, Ellahi R (2017c) Heat transfer with thermal radiation on MHD particle–fluid suspension induced by metachronal wave. Pramana 89:48

Bhatti M, Zeeshan A, Ijaz N, Bég OA, Kadir A (2017d) Mathematical modelling of nonlinear thermal radiation effects on EMHD peristaltic pumping of viscoelastic dusty fluid through a porous medium duct. Eng Sci Technol Int J 20:1129–1139

Bird R, Armstrong RC, Hassager O (1987) Dynamics of polymeric liquids, vol 1. Wiley, New York

Charm SE, Kurland GS (1974) Blood flow and microcirculation. Am Heart J 88:815

Chhabra S, Prasad AK (2010) Flow and particle dispersion in a pulmonary alveolus—part II: effect of gravity on particle transport. J Biomech Eng 132:051010

Chien S (1975) Biophysical behavior of red cells in suspensions. Red Blood Cell 2:1031–1133

Datta N, Jana RN (1977) Hall effects on hydromagnetic convective flow through a channel with conducting walls. Int J Eng Sci 15:561–567

Dehkordi EA, Moghadam ME, Shafii MB (2008) A novel hydro magnetic micro-pump and flow controller. In: ASME 2008 6th international conference on nanochannels, microchannels, and minichannels. American Society of Mechanical Engineers, pp 1537–1544

El-Shehawy E, El-Dabe N, El-Desoky I (2006) Slip effects on the peristaltic flow of a non-Newtonian Maxwellian fluid. Acta Mech 186:141–159

Fung Y (1990) Biomechanical aspects of growth and tissue engineering. Biomechanics. Springer, New York, pp 499–546

Gutierrez-Lemini D (2014) Engineering viscoelasticity. Springer, New York

Hasan MI, Ali AJF, Tufah RS (2017) Numerical study of the effect of channel geometry on the performance of Magnetohydrodynamic micro pump. Eng Sci Technol Int J 20:982–989

Hayat T, Aslam N, Rafiq M, Alsaadi FE (2017) Hall and Joule heating effects on peristaltic flow of Powell–Eyring liquid in an inclined symmetric channel. Results Phys 7:518–528

Homsy A, Koster S, Eijkel JC, Van Den Berg A, Lucklum F, Verpoorte E, De Rooij NF (2005) A high current density DC magnetohydrodynamic (MHD) micropump. Lab Chip 5:466–471

Ijaz N, Zeeshan A, Bhatti MM, Ellahi R (2018) Analytical study on liquid-solid particles interaction in the presence of heat and mass transfer through a wavy channel. J Mol Liquids 250:80–87

Jaggy C, Lachat M, Leskosek B, Zünd G, Turina M (2000) Affinity pump system: a new peristaltic blood pump for cardiopulmonary bypass. Perfusion 15:77–83

Jian Y, Si D, Chang L, Liu Q (2015) Transient rotating electromagnetohydrodynamic micropumps between two infinite microparallel plates. Chem Eng Sci 134:12–22

Jiménez-Lozano J et al (2011) Analysis of peristaltic two-phase flow with application to ureteral biomechanics. Acta Mech 219:91–109

Kabbani HS, Mack MJ, Joo SW, Qian S (2008) Analytical prediction of flow field in magnetohydrodynamic-based microfluidic devices. J Fluids Eng 130:091204

Kamel MH, Eldesoky IM, Maher BM, Abumandour RM (2015) Slip effects on peristaltic transport of a particle-fluid suspension in a planar channel. Appl Bionics Biomech 2015:703574

Kothandapani M, Srinivas S (2008) On the influence of wall properties in the MHD peristaltic transport with heat transfer and porous medium. Phys Lett A 372:4586–4591

Lemoff AV, Lee AP (2000) An AC magnetohydrodynamic micropump. Sens Actuators B Chem 63:178–185

Medhavi A, Singh UK (2008) A two-layered suspension flow induced by peristaltic waves. Int J Fluid Mech Res 35(3):258–272

Mekheimer KS (2004) Peristaltic flow of blood under effect of a magnetic field in a non-uniform channels. Appl Math Comput 153:763–777

Mekheimer KS, Abd elmaboud Y (2008) Peristaltic transport of a particle-fluid suspension through a uniform and non-uniform annulus. Applied Bionics Biomech 5(2):47–57

Montoya JP, Merz SI, Bartlett RH (1991) Laboratory experience with a novel, non-occlusive, pressure-regulated peristaltic blood pump. ASAIO J (American Society for Artificial Internal Organs: 1992) 38:M406–M411

Mooney V (1990) A randomized double-blind prospective study of the efficacy of pulsed electromagnetic fields for interbody lumbar fusions. Spine 15:708–712

Motta M, Haik Y, Gandhari A, Chen C-J (1998) High magnetic field effects on human deoxygenated hemoglobin light absorption. Bioelectrochem Bioenerg 47:297–300

Naceur S, Kadid FZ, Abdessemed R (2016) The study of the electroconductive liquids flow in a conduction magnetohydrodynamic pump. Trans Electr Electr Mater 17:252–256

Natarajan S, Mokhtarzadeh-Dehghan M (2000) Numerical prediction of flow in a model of a (potential) soft acting peristaltic blood pump. Int J Numer Methods Fluids 32:711–724

Pal S, Datta A, Sen S, Mukhopdhyay A, Bandopadhyay K, Ganguly R (2011) Characterization of a ferrofluid-based thermomagnetic pump for microfluidic applications. J Magn Magn Mater 323:2701–2709

Pan T, Kai E, Stay M, Barocas V, Ziaie B (2004) A magnetically driven PDMS peristaltic micropump. In: Engineering in Medicine and Biology Society, 2004. IEMBS’04. 26th annual international conference of the IEEE. IEEE, pp 2639–2642

Patel V, Kassegne SK (2007) Electroosmosis and thermal effects in magnetohydrodynamic (MHD) micropumps using 3D MHD equations. Sens Actuators B Chem 122:42–52

Pauling L, Coryell CD (1936) The magnetic properties and structure of hemoglobin, oxyhemoglobin and carbonmonoxyhemoglobin. Proc Natl Acad Sci 22:210–216

Qian K, Zeng P, Ru W, Yuan H (2006) New concepts and new design of permanent maglev rotary artificial heart blood pumps. Med Eng Phys 28:383–388

Rashidi S, Esfahani JA, Maskaniyan M (2017) Applications of magnetohydrodynamics in biological systems—a review on the numerical studies. J Magn Magn Mater 439:358–372

Rivero M, Cuevas S (2012) Analysis of the slip condition in magnetohydrodynamic (MHD) micropumps. Sens Actuators B Chem 166:884–892

Rubin CT, McLeod KJ, Lanyon LE (1989) Prevention of osteoporosis by pulsed electromagnetic fields. J Bone Joint Surg 71:411–417

Shahidian A, Ghassemi M, Khorasanizade S, Abdollahzade M, Ahmadi G (2009) Flow analysis of non-Newtonian blood in a magnetohydrodynamic pump. IEEE Trans Magn 45:2667–2670

Shapiro AH, Jaffrin MY, Weinberg SL (1969) Peristaltic pumping with long wavelengths at low Reynolds number. J Fluid Mech 37:799–825

Sharrard W (1990) A double-blind trial of pulsed electromagnetic fields for delayed union of tibial fractures. J Bone Joint Surg 72:347–355

Sinatra FL (2010) Understanding the interaction between blood flow and an applied magnetic field. Graduate Theses and Dissertation

Srivastava L, Srivastava V (1989) Peristaltic transport of a particle-fluid suspension. J Biomech Eng 111:157–165

Srivastava V, Srivastava L (1995) Effects of Poiseuille flow on peristaltic transport of a particulate suspension. Zeitschrift für Angewandte Mathematik und Physik (ZAMP) 46:655–679

Srinivasacharya D, Shiferaw M (2008) MHD flow of micropolar fluid in a rectangular duct with hall and ion slip effects. J Braz Soc Mech Sci Eng 30:313–318

Sutton GW, Sherman A (1965) Engineering magnetohydrodynamics. McGraw-Hill, New York

Tripathi D, Bég OA (2012) A study of unsteady physiological magneto-fluid flow and heat transfer through a finite length channel by peristaltic pumping. Proc Inst Mech Eng Part H J Eng Med 226:631–644

Tripathi D, Bég OA, Curiel-Sosa JL (2014) Homotopy semi-numerical simulation of peristaltic flow of generalised Oldroyd-B fluids with slip effects. Comput Methods Biomech Biomed Eng 17:433–442

Uddin MJ, Kabir M, Bég OA (2016a) Computational investigation of Stefan blowing and multiple-slip effects on buoyancy-driven bioconvection nanofluid flow with microorganisms. Int J Heat Mass Transf 95:116–130

Uddin MJ, Khan WA, Ismail AIM, Bég OA (2016b) Computational study of three-dimensional stagnation point nanofluid bioconvection flow on a moving surface with anisotropic slip and thermal jump effect. J Heat Transf 138:104502–104507

Wyatt D (1968) The electromagnetic blood flowmeter. J Phys E: Sci Instrum 1:1146

Zeeshan A, Ijaz N, Bhatti MM, Mann AB (2017) Mathematical study of peristaltic propulsion of solid–liquid multiphase flow with a biorheological fluid as the base fluid in a duct. Chin J Phys 55(4):1596–1604

Zhao G, Jian Y, Chang L, Buren M (2015) Magnetohydrodynamic flow of generalized Maxwell fluids in a rectangular micropump under an AC electric field. J Magn Magn Mater 387:111–117