Optimization of Magnet System for Improvement of Capture Efficiency of Nanoparticles in Magnetic Drug Targeting
Keywords:
Abstract
simulation of magnetic particles in blood was developed to show the effect of magnetic field in magnetic drug targeting. Blood flow in the vessel follows Incompressible Navier Stoke#x2019;s equations and magnetic field is created using permanent magnet. Finite element method is used to solve fluid flow and magnetic field Capture efficiency of nanoparticles with respect to different shape of magnet is observed.
Downloads
- Article PDF
- TEI XML Kaleidoscope (download in zip)* (Beta by AI)
- Lens* NISO JATS XML (Beta by AI)
- HTML Kaleidoscope* (Beta by AI)
- DBK XML Kaleidoscope (download in zip)* (Beta by AI)
- LaTeX pdf Kaleidoscope* (Beta by AI)
- EPUB Kaleidoscope* (Beta by AI)
- MD Kaleidoscope* (Beta by AI)
- FO Kaleidoscope* (Beta by AI)
- BIB Kaleidoscope* (Beta by AI)
- LaTeX Kaleidoscope* (Beta by AI)
How to Cite
Abul Hasanat. (2016). Optimization of Magnet System for Improvement of Capture Efficiency of Nanoparticles in Magnetic Drug Targeting. Global Journals of Research in Engineering, 16(J1), 1–4. Retrieved from https://engineeringresearch.org/index.php/GJRE/article/view/1417
Published
2016-01-15
Issue
Section
Articles
License
Copyright (c) 2015 Authors and Global Journals Private Limited
This work is licensed under a Creative Commons Attribution 4.0 International License.