Generalized Model of Blood Flow in a Vertical Tube with Suspension of Gold Nanomaterials: Applications in the Cancer Therapy

作     者：Anees Imtiaz Oi-Mean Foong Aamina Aamina Nabeel Khan Farhad Ali Ilyas Khan 

作者机构：Department of MathematicsCity University of Science and Information TechnologyPeshawarPakistan Computer and Information Sciences DepartmentUniversiti Teknologi PETRONASSeri IskandarMalaysia Computational Analysis Research GroupTon Duc Thang UniversityHo Chi MinhVietnam Faculty of Mathematics and StatisticsTon Duc Thang UniversityHo Chi MinhVietnam Department of MathematicsCollege of Science Al-ZulfiMajmaah UniversityAl-Majmaah11952Saudi Arabia 

出 版 物：《Computers, Materials & Continua》 (计算机、材料和连续体（英文）)

年 卷 期：2020年第65卷第10期

页      面：171-192页

核心收录：

学科分类：07[理学] 0701[理学-数学] 070101[理学-基础数学] 

基　　金：The research is supported by Universiti Teknologi PETRONAS YUTP Grant(Cost Center 015LC0-173) 

主　　题：Gold nanoparticles heat transfer enhancement blood flow Casson fluid AB CF fractional derivatives 

摘      要：Gold metallic nanoparticles are generally used within a lab as a tracer,to uncover on the presence of specific proteins or DNA in a sample,as well as for the recognition of various *** are bio companionable and have properties to carry thermal energy to tumor cells by utilizing different clinical *** the cancer cells are very smaller so for the infiltration,the properly sized nanoparticles have been injected in the *** this reason,gold nanoparticles are very *** in mind the above applications,in the present work a generalized model of blood flow containing gold nanoparticles is considered in this *** blood motion is considered in a cylindrical tube under the oscillating pressure gradient and magnetic *** problem formulation is done using two types of fractional approaches namely CF(Caputo Fabrizio)and AB(Atangana-Baleanue)derivatives,whereas blood is considered as a counter-example of Casson *** solutions of the problem are obtained using joint Laplace and Hankel transforms,and a comparative analysis is made between CF and *** are computed in tables and shown in various plots for embedded parameters and *** is found that adding 0.04-unit gold nanoparticles to blood,increase its heat transfer rate by 4 percent compared to regular *** is also noted that the heat transfer can be enhanced in the blood with memory.