Abstract:Here consideration is given to the peristalsis of magneto-nanoparticles suspended in water. Explicitly 34 Fe O water nanofluid is utilized for two-dimensional flow in channel considered to be symmetric with complaint walls. Uniform magnetic field is applied. Temperature equation is arranged for viscous dissipation. Second order velocity and thermal slip conditions are utilized. Small Grashof number leads to perturbation solution. Examination of entropy generation is also carried out in this study. Maxwell an… Show more
“…The conservation laws for the model are yet to be extracted. A wide variety of rich mathematical methodologies are available for implementation [12][13][14][15][16][17][18][19][20][21][22][23][24][25]. Thus, there are plentiful issues that need to be addressed with the dynamics of embedded solitons.…”
This paper recovers optical soliton solutions with χ (2) -nonlinear susceptibility. Bright, dark, singular, brightdark combo solitons are recovered. A variety of algorithms are implemented. These include the Riccati equation approach, exp-function expansion method, modified simple equation algorithm, sine-Gordon equation scheme, F -expansion approach, trial function method and functional variable algorithm.
“…The conservation laws for the model are yet to be extracted. A wide variety of rich mathematical methodologies are available for implementation [12][13][14][15][16][17][18][19][20][21][22][23][24][25]. Thus, there are plentiful issues that need to be addressed with the dynamics of embedded solitons.…”
This paper recovers optical soliton solutions with χ (2) -nonlinear susceptibility. Bright, dark, singular, brightdark combo solitons are recovered. A variety of algorithms are implemented. These include the Riccati equation approach, exp-function expansion method, modified simple equation algorithm, sine-Gordon equation scheme, F -expansion approach, trial function method and functional variable algorithm.
“…Shashikumar et al [ 38 ] studied slip effects and performed an entropy generation study for the flow of a nanofluid in a microchannel employing aluminium and titanium alloy nanoparticles. Entropy-generating processes are investigated in a number of energy-related applications, including geothermal energy and modern refrigeration equipment [ 39 , 40 , 41 , 42 , 43 , 44 ].…”
This study discusses entropy generation analysis for a peristaltic flow in a rotating medium with generalized complaint walls. The goal of the current analysis is to understand the fluid flow phenomena particular to micro devices. Nano materials with a size less than 100 nm have applications in micro heat exchangers to cool electronic circuits, blood analyzers, biological cell separations, etc. For this study, we considered the effects of radiation, viscous dissipation and heat flux on the flow of nanomaterial inside a cylindrical micro-channel. To investigate the slip effects on the flow, the second order slip condition for axial velocity, the first order slip condition for secondary velocity and the thermal slip conditions were used. The flow was governed by partial differential equations (PDE’s), which were turned into a system of coupled ordinary differential equations (ODE’s) that were highly non-linear and numerically solved using the NDSolve command in Mathematica. The impacts of different involved parameters on the flow field were investigated with the aid of graphical illustrations. Entropy generation and the Bejan number were given special attention, and it was found that they decreased as the Hartman number, rotation, and radiation parameters increased.
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