Collaborative Research: Fluctuating Hydrodynamics of Suspensions of Rigid Bodies
合作研究:刚体悬架的脉动流体动力学
基本信息
- 批准号:1418672
- 负责人:
- 金额:$ 15.48万
- 依托单位:
- 依托单位国家:美国
- 项目类别:Standard Grant
- 财政年份:2014
- 资助国家:美国
- 起止时间:2014-07-01 至 2018-06-30
- 项目状态:已结题
- 来源:
- 关键词:
项目摘要
Over the last decade there has been rapid progress in the manufacturing and design of materials and devices that employ small-scale active particles to produce novel physical behaviours such as self-organizing flows (e.g., active colloidal suspensions), or to perform specific tasks such as cargo transport (e.g., targeted drug delivery). While much progress has been made experimentally, theoretical and computational modelling lags behind, due to the difficulty in designing suitable numerical algorithms and the lack of public-domain codes capable of capturing the complex multi-physics of active propulsion. In this work we develop novel computational methods for simulating active-particles suspended in fluid, and implement the developed techniques in the public-domain code IBAMR, therefore making them available to applied researchers in physics and engineering. A specific distinguishing aspect of the work is the consistent inclusion of the random Brownian motion necessarily present when dealing with small-scale flows due to the small numbers of molecules involved in the process. Such stochastic effects are important in flows at micro and nano scales typical of nano- and micro-fluidic and microelectromechanical devices, novel materials such as nanofluids, and biological systems such as lipid membranes, Brownian molecular motors, and nanopores. We therefore expect the work to have a broad range of applications in science and engineering, beyond the specific research goals detailed below. The scientific component of this project will be supplemented by an educational and outreach component, including the development and enrichment of new graduate courses, such as Coarse Grained Modeling of Materials, which will include training in statistical mechanics, applied stochastic analysis, fluid dynamics, and high-performance computing.This collaborative project focuses on computational methods for problems involving Brownian rigid and semi-rigid structures immersed in a fluid. Examples include colloidal particles, polymer chains, and macromolecules in a solvent. We aim to develop novel methods for fluid-structure coupling at small Reynolds numbers that consistently include the effects of thermal fluctuations. At small scales, the motion of immersed structures is driven by thermal fluctuations, giving rise to Brownian motion strongly affected by hydrodynamic effects. We plan to develop methods that couple an immersed-boundary Lagrangian representation of rigid bodies to a fluctuating finite-volume fluid solver. Unlike commonly-used methods based on Green's functions, we rely on an explicit-fluid fluctuating hydrodynamics formulation in which we add a stochastic stress tensor to the usual viscous stress tensor. We will handle complex rigid (e.g., synthetic nanorods) and semi-rigid (e.g., short DNA segments) bodies by composing each structure from a collection of spherical particles constrained to move (semi)rigidly. The underlying fluctuating hydrodynamics formulation automatically ensures the correct translational and rotational Brownian motion. The novel methods developed in this project will build upon prior work by the PIs and enable simulations of the long-time diffusive (Brownian) dynamics of the immersed structures. In particular, we will develop, implement, and apply computational methods that: (1) do not employ time splitting and are thus suitable for the steady Stokes (viscous-dominated or low Reynolds number) regime; (2) strictly enforce the rigidity constraint; and, (3) ensure fluctuation-dissipation balance in the overdamped limit even in the presence of nontrivial boundary conditions.
在过去的十年中,材料和设备的制造和设计取得了快速进展,这些材料和设备使用小规模活性颗粒来产生新的物理行为,如自组织流动(例如,活性胶体悬浮液),或执行特定任务,如货物运输(例如,靶向药物递送)。虽然在实验上取得了很大的进展,但由于设计合适的数值算法的困难和缺乏能够捕获主动推进的复杂多物理场的公共领域代码,理论和计算建模滞后。在这项工作中,我们开发了新的计算方法来模拟悬浮在流体中的活性粒子,并在公共领域代码IBAMR中实现了所开发的技术,从而使它们可供物理和工程领域的应用研究人员使用。这项工作的一个独特的方面是,在处理小尺度流动时,由于参与过程的分子数量少,必然会出现随机布朗运动。这种随机效应在微纳米尺度的流动中是重要的,典型的是纳米和微流体和微机电装置,新型材料,如纳米流体,生物系统,如脂质膜,布朗分子马达和纳米孔。因此,我们期望这项工作在科学和工程方面有广泛的应用,超出下面详细说明的具体研究目标。该项目的科学部分将辅以教育和推广部分,包括开发和丰富新的研究生课程,如材料的粗粒度建模,其中将包括统计力学、应用随机分析、流体动力学和高性能计算方面的培训。这个合作项目的重点是涉及浸入流体中的布朗刚性和半刚性结构问题的计算方法。例子包括溶剂中的胶体颗粒、聚合物链和大分子。我们的目标是开发新的方法流固耦合在小雷诺数,始终包括热波动的影响。在小尺度上,浸没结构的运动是由热波动驱动的,产生受水动力效应强烈影响的布朗运动。我们计划开发一种方法,将刚体的浸入边界拉格朗日表示与波动有限体积流体求解器相结合。与基于格林函数的常用方法不同,我们依赖于显式流体波动流体力学公式,其中我们在通常的粘性应力张量中添加随机应力张量。我们将处理复杂的刚性(例如,合成纳米棒)和半刚性(例如,短DNA片段)的身体组成每个结构从球形粒子的集合约束移动(半)刚性。潜在的波动流体力学公式自动确保正确的平移和旋转布朗运动。本项目开发的新方法将建立在pi先前工作的基础上,并能够模拟浸入结构的长时间扩散(布朗)动力学。特别是,我们将开发、实现和应用以下计算方法:(1)不使用时间分裂,因此适用于稳定斯托克斯(粘性主导或低雷诺数)状态;(2)严格执行刚性约束;(3)即使存在非平凡边界条件,也能保证在过阻尼极限处的涨落耗散平衡。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Neelesh Patankar其他文献
A stencil penalty method for improving accuracy of constraint immersed boundary method
一种提高约束浸入边界法精度的模板惩罚方法
- DOI:
- 发表时间:
2016 - 期刊:
- 影响因子:0
- 作者:
Rahul Bale;Niclas Jansson;Keiji Onishi;Makoto Tsubokura;Neelesh Patankar - 通讯作者:
Neelesh Patankar
Study Biophysics of Esophageal Transport by Combining Simulation, Modeling and Bio-Mechanical Analysis Based on In-Vivo Data
- DOI:
10.1016/j.bpj.2019.11.1501 - 发表时间:
2020-02-07 - 期刊:
- 影响因子:
- 作者:
Wenjun Kou;Shashank Acharya;Sourav Halder;Neelesh Patankar;John Pandolfino - 通讯作者:
John Pandolfino
Neelesh Patankar的其他文献
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{{ truncateString('Neelesh Patankar', 18)}}的其他基金
Collaborative Research: Frameworks: Multiphase Fluid-Structure Interaction Software Infrastructure to Enable Applications in Medicine, Biology, and Engineering
合作研究:框架:支持医学、生物学和工程应用的多相流固耦合软件基础设施
- 批准号:
1931372 - 财政年份:2020
- 资助金额:
$ 15.48万 - 项目类别:
Standard Grant
SI2-SSI: Collaborative Research: Scalable Infrastructure for Enabling Multiscale and Multiphysics Applications in Fluid Dynamics, Solid Mechanics, and Fluid-Structure Interaction
SI2-SSI:协作研究:可扩展基础设施,支持流体动力学、固体力学和流固耦合中的多尺度和多物理场应用
- 批准号:
1450374 - 财政年份:2015
- 资助金额:
$ 15.48万 - 项目类别:
Standard Grant
Using Biofluiddynamics to Interrogate the Spinal Circuitry Controlling Movements
使用生物流体动力学询问控制运动的脊髓回路
- 批准号:
1066575 - 财政年份:2011
- 资助金额:
$ 15.48万 - 项目类别:
Standard Grant
Fully resolved simulation of self-propelling fish
自航鱼的完全解析模拟
- 批准号:
0828749 - 财政年份:2008
- 资助金额:
$ 15.48万 - 项目类别:
Standard Grant
CAREER: Computational Techniques for Sub-Micron/Nanoscale Fluid Dynamics
职业:亚微米/纳米级流体动力学计算技术
- 批准号:
0134546 - 财政年份:2002
- 资助金额:
$ 15.48万 - 项目类别:
Continuing Grant
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