Accurate solution for Acceleration Motion of a Vertically falling Spherical particle in incompressible Newtonian Media

Mohsen Torabi; Hessameddin Yaghoobi

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Accurate solution for Acceleration Motion of a Vertically falling Spherical particle in incompressible Newtonian Media

机译：不可压缩牛顿介质中垂直下落的球形粒子加速运动的精确解

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In this paper, the acceleration motion of a vertically falling spherical particle in incompressible Newtonian media was investigated. The instantaneous velocity and acceleration were carried out using analytical solution technique i.e. the differential transformation method (DTM). Using the DTM, the non-linear constrained governing equations were reduced to recurrence relations and related initial conditions were transformed into a set of algebraic equations. The solutions were subsequently solved by a process of inverse transformation. The results were also compared with those derived from the homotopy perturbation method (HPM), closed-form solution, the established fourth order Runge-Kutta method and experimental data in order to verify the accuracy of the proposed method. It was found that this method can achieve more accurate results compared with the HPM.

机译：本文研究了垂直下落的球形颗粒在不可压缩牛顿介质中的加速运动。瞬时速度和加速度使用解析解技术，即微分变换方法（DTM）进行。使用DTM，将非线性约束控制方程简化为递归关系，并将相关的初始条件转换为一组代数方程。随后通过逆变换过程解决了这些问题。将结果与同伦摄动法，封闭形式解，已建立的四阶Runge-Kutta方法和实验数据进行了比较，以验证该方法的准确性。已经发现，与HPM相比，该方法可以获得更准确的结果。

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《The Canadian Journal of Chemical Engineering》 |2013年第2期|共6页
作者
Mohsen Torabi; Hessameddin Yaghoobi;
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正文语种 eng
中图分类化学工业;
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solid spherical particle; acceleration motion; solid-liquid systems; sedimentation; non-linear differential equation; differential transformation method (DTM); experimental data;

机译：固体球形颗粒;加速运动;固液系统;沉降;非线性微分方程;微分变换法（DTM）;实验数据;

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1. Accurate solution for Acceleration Motion of a Vertically falling Spherical particle in incompressible Newtonian Media [J] . Mohsen Torabi, Hessameddin Yaghoobi The Canadian Journal of Chemical Engineering . 2013,第2期

机译：不可压缩牛顿介质中垂直下落的球形粒子加速运动的精确解
2. X HIGH ACCURACY ANALYSIS FOR ACCELERATION MOTION OF VERTICALLY FALLING SPHERICAL PARTICLES IN INCOMPRESSIBLE NEWTONIAN FLUID BY VARINATIONAL ITERATIONS METHOD [J] . Harpreet Kaur, B.P.Garg Bulletin of Pure and Applied Sciences, Sec. E. Mathematics & statistics . 2018,第2期

机译：X因子迭代法测定牛顿流体垂直下降球形粒子加速运动的高精度分析
3. ACCELERATION MOTION OF A SINGLE VERTICALLY FALLING NON-SPHERICAL PARTICLE IN INCOMPRESSIBLE NON- NEWTONIAN FLUID BY DIFFERENT METHODS [J] . Harpreet Kaur, B.P.Garg Bulletin of Pure and Applied Sciences, Sec. E. Mathematics & statistics . 2018,第2期

机译：不同方法对不可压缩非球形液中的单个垂直下降非球形颗粒的加速运动
4. Bernstein Polynomial Collocation Method for Acceleration Motion of a Vertically Falling Non-spherical Particle [C] . Sudhir Singh, K. Murugesan International Conference on Applications of Fluid Dynamics . 2021

机译：伯尔斯坦多项式搭配用于垂直下降非球形颗粒的加速运动
5. Direct simulations of spherical particle motion in non-Newtonian liquids. [D] . Prashant. 2009

机译：非牛顿液体中球形粒子运动的直接模拟。
6. A Hybrid Approach for the Simulation of the Thermal Motion of a Nearly Neutrally Buoyant Nanoparticle in an Incompressible Newtonian Fluid Medium [O] . B. Uma, R. Radhakrishnan, D. M. Eckmann, -1

机译：模拟不可压缩牛顿流体介质中几乎中性浮力纳米粒子热运动的混合方法
7. An analytical investigation on unsteady motion of vertically falling spherical particles in non-Newtonian fluid by Collocation Method [O] . M. Rahimi-Gorji, O. Pourmehran, M. Gorji-Bandpy, 2015

机译：用配置法分析非牛顿流体中垂直落球形颗粒的非定常运动
8. On Certain Motions with Constant Stretch History and Their Related Velocity Profiles in Incompressible Newtonian and Second Order Fluids [R] . Huilgol, R. R. 1969

机译：不可压缩牛顿和二阶流体中具有恒拉伸历程的某些运动及其相关速度分布

Accurate solution for Acceleration Motion of a Vertically falling Spherical particle in incompressible Newtonian Media

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