Method for quantitatively investigating the impact            of thermo-phoresis, Brownian motion, and bio-convection            caused by gyrotactic bacteria on two-dimensional,            unsteady blood flow for treating Hematologic            malignancy, involves developing governing equations            based on Casson fluid model

	Method for quantitatively investigating the impact of thermo-phoresis, Brownian motion, and bio-convection caused by gyrotactic bacteria on two-dimensional, unsteady blood flow for treating Hematologic malignancy, involves developing governing equations based on Casson fluid model
	MEHTA A; MEHTA T; MEHTA R; TANWAR M
	2025-03-26
专利权人	UNIV MANIPAL JAIPUR (UYMA-Non-standard)
申请日期	2025-03-26
专利号	IN202511028306-A
成果简介	NOVELTY - The method involves developing governing equations based on a Casson fluid model to characterize blood flow dynamics, incorporating thermophoresis, Brownian motion, and bio-convection effects. The numerical solutions are obtained for the modeled system of ordinary differential equations by utilizing the bvp4c solver in MATLAB(RTM: Computer programming and design application). The figures, diagrams, and tables are constructed using MATLABto visualize the results and analyze key blood flow parameters, including velocity, temperature, and concentration distributions. The higher heat dissipation is achieved when the thickness of the thermal boundary layer decreases with increasing values of the Brownian motion parameter, thermophoretic effect, and Prandtl number. USE - Method for quantitatively investigating the impact of thermo-phoresis, Brownian motion, and bio-convection caused by gyrotactic bacteria on two-dimensional, unsteady blood flow for treating Hematologic malignancy i.e. blood cancers, magnetic therapies, and Doppler optical imaging. ADVANTAGE - The method enables to quantitatively investigate the impact of thermophoresis, Brownian motion, and bioconvection caused by gyrotactic bacteria on two-dimensional, unsteady blood flow. The optimal asymptotic boundary condition is established to ensure accurate and stable mathematical solutions within a computational framework. The thermophoresis parameter values are raised to produce a force that causes the micro-polar fluid particles to migrate from the region with higher temperatures to the region with lower temperatures, where heat transfer rates are improved. DESCRIPTION OF DRAWING(S) - The drawing shows a graphical representation of the geometry of the physical model.
IPC 分类号	E21B-044/00 ; G06F-111/10 ; G06F-017/13 ; G06F-030/23 ; G06F-030/28
国家	印度
专业领域	信息技术
语种	英语
成果类型	专利
文献类型	科技成果
条目标识符	http://119.78.100.226:8889/handle/3KE4DYBR/13501
专题	中国科学院新疆生态与地理研究所
作者单位	UNIV MANIPAL JAIPUR (UYMA-Non-standard)
推荐引用方式 GB/T 7714	MEHTA A,MEHTA T,MEHTA R,et al. Method for quantitatively investigating the impact of thermo-phoresis, Brownian motion, and bio-convection caused by gyrotactic bacteria on two-dimensional, unsteady blood flow for treating Hematologic malignancy, involves developing governing equations based on Casson fluid model. IN202511028306-A[P]. 2025.

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