UNS: Collaborative Research: Crossing the boundary: motion of solid objects across air-liquid interfaces

UNS：协作研究：跨越边界：固体物体跨气液界面的运动

• 批准号: 1509071
• 负责人: Fotis Sotiropoulos
• 金额: $ 20万
• 依托单位: University of Minnesota-Twin Cities
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-07-01 至 2016-01-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1509071&HistoricalAwards=false
• 关键词: UNS; Collaborative; Research; Crossing; boundary

1512192(Kanso) & 1509071(Sotiropoulos)The goal of the proposed research is to investigate, experimentally and numerically, the motion of irregularly shaped objects as they cross fluid-air interfaces and the phenomena that occur at the interface and the bulk of the fluid because of the presence of the object. Understanding the underlying phenomena could lead to controlling the process by controlling the object shape or controlling the type of fluid. Results from this research can have implications for the design of small robotic vehicles that move across fluid-air interfaces or the design of off-shore wind turbines or oil platforms. This problem of object entry is generally complex, even for regularly shaped objects, such as spheres and discs, but is particularly interesting for objects with sharp leading geometries, such as cone- or pyramid-shaped objects, where the interplay between the body geometry and the complex vortical flows that develop at and near the fluid-air interface could help to dissipate the impact energy away from the body crossing the fluids' boundary. This proposal will analyze the fluid-structure interactions of objects moving in and across multi-phase incompressible fluids, and will particularly explore how the interplay between the object's geometry and material properties and the complex flow structures (waves and vortices) that develop at and near the fluid interfaces can be exploited to hinder or facilitate the motion of the solid object. During this project, carefully designed experiments as well as through mathematical and computational models will be used to investigate the following two problems: (i) Forward problem: for a given multi-phase fluid medium and shape/material properties of the object, what is the forward dynamics of the body and the surrounding fluids? (ii) Inverse problem: two types of problems: a. For a desired response such as aiding the motion of the solid object in a given fluid environment, what geometric/materials design principles should the object fulfill? b. For a desired response such as hindering the motion of the solid object, what properties should the fluid medium have? Activities are also proposed that involve undergraduate curriculum development at USC and at the University of Minnesota, as well as outreach efforts to K-12 students in the greater LA area through the USC VAST program and the Cabrillo Aquarium in San Pedro.

1512192（Kanso）1509071（Sotiropoulos）拟议研究的目标是通过实验和数值方法研究不规则形状物体穿过流体-空气界面时的运动，以及由于物体的存在而在界面和流体体积处发生的现象。了解潜在的现象可以通过控制物体形状或控制流体类型来控制过程。这项研究的结果可能对设计在流体-空气界面上移动的小型机器人车辆或离岸风力涡轮机或石油平台的设计产生影响。物体进入的这个问题通常是复杂的，即使对于规则形状的物体，例如球体和圆盘，但是对于具有尖锐的引导几何形状的物体，例如圆锥形或椭圆形物体，在这种情况下，物体几何形状和在流体处和附近发展的复杂涡流之间的相互作用-空气界面可以帮助穿过流体边界从身体消散冲击能量。该提案将分析在多相不可压缩流体中移动的物体的流体-结构相互作用，并将特别探索如何利用物体的几何形状和材料特性以及在流体界面处和附近发展的复杂流动结构（波和涡流）之间的相互作用来阻碍或促进固体物体的运动。在这一项目中，精心设计的实验以及通过数学和计算模型将用于研究以下两个问题：（一）前向问题：对于给定的多相流体介质和物体的形状/材料特性，物体和周围流体的前向动力学是什么？(ii)逆问题：两种类型的问题：a。对于所需的响应，例如帮助固体物体在给定的流体环境中运动，物体应该满足什么几何/材料设计原则？ B.为了获得所需的响应，例如阻碍固体物体的运动，流体介质应该具有什么性质？ 还提出了涉及南加州大学和明尼苏达大学本科课程开发的活动，以及通过南加州大学VAST项目和圣佩德罗的卡布里洛水族馆向大洛杉矶地区K-12学生开展的外联工作。