In this paper, hybrid nano-particle (Ag, Al 2 O 3) model is implemented in the time
dependent blood flow equations in order to investigate its effects on the flow pattern of blood …

A theoretical and numerical study of unsteady pulsatile blood flow through an artery with a
combination of stenosis and aneurysm containing nano-particles (Cu, TiO 2, Al 2 O 3) has …

This article examines theoretically and numerically the unsteady two-dimensional blood flow
through a diseased artery featuring an irregular stenosis. An appropriate geometric model is …

Influenced by nano-drug delivery applications, the present article considers the collective
effects of hybrid biocompatible metallic nanoparticles (Silver and Copper), a stenosis and an …

In the present study, effects of hybrid nanoparticles (Au-Al 2 O 3/blood) on hemodynamical
characteristics of unsteady blood flow through a curved artery with stenosis and aneurysm …

Blood flow dynamics contributes an elemental part in the formation and expansion of
cardiovascular diseases in human body. Computational simulation of blood flow in the …

The proposed study aims to examine the numerical modeling of hybrid nanofluid with
nanoparticles such as gold and silver across stenotic artery using Computational fluid …

Stenosis is a tiny plaque-like structure that builds up in the arterial wall owing to the
sediment of cholesterol, fats, and pearly substances. Such inward proliferation in arteries …

In this letter, we have explored the effects of nanoparticles on unsteady pulsatile blood flow
through a curved overlapping stenosed channel. The governing differential equations are …

In the present study, a single and discrete phase model is employed to obtain analytical
solutions of velocity, temperature, and stream function to describe the transport …