DYNAMICAL CHARACTERISTICS OF MAGNETOHYDRODYNAMIC BLOOD FLOW THROUGH HUMAN ARTERIESID: 3518 Abstract :Magnetohydrodynamics (MHD) Has Emerged As A Significant Interdisciplinary Field That Combines Fluid Mechanics, Electromagnetism, And Biomedical Engineering To Investigate The Behavior Of Electrically Conducting Fluids Such As Blood Under The Influence Of Magnetic Fields. Blood, Owing To The Presence Of Iron-containing Hemoglobin And Charged Ions, Exhibits Weak Electrical Conductivity, Making It Responsive To Externally Applied Magnetic Fields. Understanding The Dynamical Characteristics Of MHD Blood Flow Through Human Arteries Is Essential For Improving Diagnostic Imaging, Targeted Drug Delivery, Magnetic Hyperthermia, And Cardiovascular Treatment Planning. This Study Investigates The Influence Of Magnetic Field Strength, Arterial Geometry, Blood Viscosity, Reynolds Number, And Pulsatile Flow Conditions On Blood Velocity, Wall Shear Stress, And Pressure Distribution Within Arteries |
Published:11-7-2026 Issue:Vol. 26 No. 7 (2026) Page Nos:486-496 Section:Articles License:This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. How to CiteInjeti Prasanthi,Dr. David Kumar Swamy Rapaka,Dr. M Kamala Kumari, DYNAMICAL CHARACTERISTICS OF MAGNETOHYDRODYNAMIC BLOOD FLOW THROUGH HUMAN ARTERIES , 2026, International Journal of Engineering Sciences and Advanced Technology, 26(7), Page 486-496, ISSN No: 2250-3676. |