Journal of Applied Fluid MechanicsJAFMMechanical Engineeringhttp://jafmonline.net1admin173535721735364510.29252/jafmenjalali139479gregorian201510184online1fulltexten10.29252/jafm.08.04.23336Mathematical Analysis of Single and Two-Phase Flow of Blood in Narrow Arteries with Multiple ContrictionsgeneralResearchThe pulsatile flow of blood in narrow arteries with multiple-stenoses under body acceleration is analyzed mathematically, treating blood as (i) single-phase Herschel-Bulkley fluid model and (ii) two-phase Herschel- Bulkley fluid model. The expressions for various flow quantities obtained by Sankar and Ismail (2010) for single-phase Herschel-Bulkley fluid model and Sankar (2010c) for two-phase Herschel-Bulkley fluid model are used to compute the data for comparing these fluid models in a new flow geometry. It is noted that the plug core radius, wall shear stress and longitudinal impedance to flow are marginally lower for two-phase HB fluid model than those of the single-phase H-B fluid model. It is found that the velocity decreases significantly with the increase yield stress of the fluid and the reverse behavior is noticed for longitudinal
impedance to flow. It is also noticed that the velocity distribution and flow rate are higher for two-phase Herschel-Bulkley fluid model than those of the single-phase Herschel-Bulkley fluid model. It is also recorded that the estimates of the mean velocity increase with the increase of the body acceleration and this behavior is reversed when the stenosis depth increases.Blood flow; Single-phase fluid flow; Two-phase fluid flow; Body acceleration; Multiplestenoses; Comparative study.871883http://jafmonline.net/JournalArchive/download?file_ID=38045&issue_ID=223DSSankardssankar100@gmail.com`YesVIT University, Chennai Campus`

`Atulya KNagarnagara@hope.ac.uk``NoLiverpool Hope University, UK`

`AVanav kumarvanav_a@yahoo.co.in``NoVIT University, Chennai Campus`