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MHD hybrid nanofluid flow comprising the medication through a blood artery
by
Alsubie, Abdelaziz
, Gul, Taza
, Kumam, Poom
, Saeed, Anwar
, Alghamdi, Wajdi
in
639/166
/ 639/705
/ 639/925
/ Blood flow
/ Boundary conditions
/ Circulatory system
/ Copper
/ Differential equations
/ Drug delivery
/ Energy equation
/ Humanities and Social Sciences
/ Magnetic fields
/ multidisciplinary
/ Partial differential equations
/ Pressure distribution
/ Science
/ Science (multidisciplinary)
/ Temperature distribution
/ Velocity
2021
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MHD hybrid nanofluid flow comprising the medication through a blood artery
by
Alsubie, Abdelaziz
, Gul, Taza
, Kumam, Poom
, Saeed, Anwar
, Alghamdi, Wajdi
in
639/166
/ 639/705
/ 639/925
/ Blood flow
/ Boundary conditions
/ Circulatory system
/ Copper
/ Differential equations
/ Drug delivery
/ Energy equation
/ Humanities and Social Sciences
/ Magnetic fields
/ multidisciplinary
/ Partial differential equations
/ Pressure distribution
/ Science
/ Science (multidisciplinary)
/ Temperature distribution
/ Velocity
2021
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
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MHD hybrid nanofluid flow comprising the medication through a blood artery
by
Alsubie, Abdelaziz
, Gul, Taza
, Kumam, Poom
, Saeed, Anwar
, Alghamdi, Wajdi
in
639/166
/ 639/705
/ 639/925
/ Blood flow
/ Boundary conditions
/ Circulatory system
/ Copper
/ Differential equations
/ Drug delivery
/ Energy equation
/ Humanities and Social Sciences
/ Magnetic fields
/ multidisciplinary
/ Partial differential equations
/ Pressure distribution
/ Science
/ Science (multidisciplinary)
/ Temperature distribution
/ Velocity
2021
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MHD hybrid nanofluid flow comprising the medication through a blood artery
Journal Article
MHD hybrid nanofluid flow comprising the medication through a blood artery
2021
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Overview
The current study focuses on the laminar flow of copper and copper oxide (
Cu/blood
and
Cu
+
CuO/blood
) hybrid nanoliquid, considering blood as a carrier fluid in a rectangular domain between two permeable channels. This study may manipulate for the purpose such as the drug delivery process, flow dynamic mechanism of the micro-circulatory system. In the proposed model, MHD and heat source/sink on the flow pattern have been studied. Furthermore, the sides of each channel are permeable, allowing the nanoliquid to escape, filter, squeezing and dilating with a fixed velocity. Appropriate transformations are incorporated to convert the governing partial differential equations and the boundary conditions suitable for computation. The elegant homotopy analysis method (HAM) is used to obtain analytic approximations for the resulting system of nonlinear differential equations. The features of flow characteristics such as velocity, and temperature profiles in response to the variations of the emerging parameters are simulated and examined with a physical explanation. The magnetic field plays a vital role in the blood flow and therefore the existing literature has been extending with the addition of magnetic field. Among the many outputs of the study, it is found that the pressure distribution decline with the accumulated values of the magnetic parameter at the center of the flow regime. The augmentation in the temperature distribution estimates the pH values and electric conductivity. Therefore, the
Cu
and
CuO
hybrid nanofluids are used in this study for medication purposes. The magnetic field has an important role in the blood flow and therefore the extending study has been extending using the magnetic field. The heat emission/absorption term is added to the energy equation to maintain the homogeneous temperature for the blood flow. We expect that this work will provide efficient outputs for medical purposes such as drug delivery.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
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