Abstract
Mathematical model for the peristaltic flow of chyme in small intestine along with inserted endoscope is considered. Here, chyme is treated as Williamson fluid, and the flow is considered between the annular region formed by two concentric tubes (i.e., outer tube as small intestine and inner tube as endoscope). Flow is induced by two sinusoidal peristaltic waves of different wave lengths, traveling down the intestinal wall with the same speed. The governing equations of Williamson fluid in cylindrical coordinates have been modeled. The resulting nonlinear momentum equations are simplified using long wavelength and low Reynolds number approximations. The resulting problem is solved using regular perturbation method in terms of a variant of Weissenberg number We. The numerical solution of the problem is also computed by using shooting method, and comparison of results of both solutions for velocity field is presented. The expressions for axial velocity, frictional force, pressure rise, stream function, and axial pressure gradient are obtained, and the effects of various emerging parameters on the flow characteristics are illustrated graphically. Furthermore, the streamlines pattern is plotted, and it is observed that trapping occurs, and the size of the trapped bolus varies with varying embedded flow parameters.
Highlights
The object of this study is to investigate the flow induced by peristaltic action of chyme treated as Williamson fluid in small intestine with an inserted endoscope
Since many physiological fluids behave like a non-Newtonian fluid 1, so chyme in small intestine is assumed to behave like Williamson fluid
The aim of present investigation is to investigate the peristaltic motion of chyme, by treating it as Williamson fluid, in the small intestine with an inserted endoscope
Summary
The object of this study is to investigate the flow induced by peristaltic action of chyme treated as Williamson fluid in small intestine with an inserted endoscope. Peristaltic motion is one of the most characteristics fluid transport mechanism in many biological systems It pumps the fluids against pressure rise. After the pioneering work of Latham 4 , a number of analytical, numerical and experimental studies 5–13 of peristaltic flows of different fluids have been reported under different conditions with reference to physiological and mechanical situations. Srivastava devoted his study to observe the effects of an inserted endoscope on chyme movement in small intestine. The aim of present investigation is to investigate the peristaltic motion of chyme, by treating it as Williamson fluid, in the small intestine with an inserted endoscope. The trapped fluid mass called bolus is found to move with the mean speed equal to that of the wave 9
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