Abstract
The present study gives a remedy for the malign tissues, cells, or clogged arteries of the heart by means of permeating a slim tube (i.e., catheter) in the body. The tiny size gold particles drift in free space of catheters having flexible walls with couple stress fluid. To improve the efficiency of curing and speed up the process, activation energy has been added to the process. The modified Arrhenius function and Buongiorno model, respectively, moderate the inclusion of activation energy and nanoparticles of gold. The effects of chemical reaction and activation energy on peristaltic transport of nanofluids are also taken into account. It is found that the golden particles encapsulate large molecules to transport essential drugs efficiently to the effected part of the organ.
Highlights
In any living organism peristaltic motion is mainly caused by the contraction and expansion of some flexible organs
Regardless of many other uses of nanofluids in industrial and practical settings, the primary objective of nanoparticles is the enhancement of heat transfer [1]
In view of thedamaged existing literature, feel theAs application of nanotechnology in medical science opens a new dimension for researchers to turn their attention towards the effective role of inspecting the simultaneous effects of chemical reaction and activation energy for the peristaltic flow chemical reaction and activation energy [29,30,31], since nanoparticles help in treating different diseases of couple stress nanofluids in a single model, which is yet not available in literature, and could have by means of the peristaltic movement of blood
Summary
In any living organism peristaltic motion is mainly caused by the contraction and expansion of some flexible organs. Krishana [4] have studied the physiological flow of thebase blood fluid, in the micro is considered Swarnalathamma as the function thermal conductivity of nanoparticles, and interfacial circulatory system by taking account of the particle size effect They considered couple stress fluid shell properties bygiven considering temperature as the mostbyeffective of parameters involved in the for the peristaltic analysis, which is further affected magnetic fields. In view of thedamaged existing literature, feel theAs application of nanotechnology in medical science opens a new dimension for researchers to turn their attention towards the effective role of inspecting the simultaneous effects of chemical reaction and activation energy for the peristaltic flow chemical reaction and activation energy [29,30,31], since nanoparticles help in treating different diseases of couple stress nanofluids in a single model, which is yet not available in literature, and could have by means of the peristaltic movement of blood. The inner tube is of a rigid configuration, while the outer tube is flexible in nature as shown in
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