Fluid Mechanics 10.6 - Similitude and Modeling; Scaled Model

In this segment, we go over the geometric, kinematic, and dynamic similarity requirements and establish the modeling requirements for a scaled-down (or up) model of the prototype. Table of Contents: 2:57 - Geometric Similarity 4:14 - Kinematic Similarity 5:05 - Dynamic Similarity 5:59 - Modeling 8:50 - Similarity Requirements 9:22 - Prediction Equation Module 10: Dimensional Analysis, Similitude and Modeling This module covers how to minimize the amount of effort and time on experimentation to obtain fluid flow characteristics. To accomplish this, we go over the Buckingham Pi theorem, show how to obtain Pi terms by using established steps. We then discuss similarity requirements and prediction equations to relate fluid flow characteristics between a prototype and scaled-down (or sometimes up) model. Student Learning Outcomes After completing this module, you should be able to: 1) apply the Buckingham Pi theorem 2) develop a set of dimensionless groups, called Pi terms, for a given fluid flow phenomenon 3) recognize and take advantage of common dimensionless groups in fluid mechanics 4) apply the concept of modeling and similitude to relate fluid flow between the prototype and the model This material is based upon work supported by the National Science Foundation under Grant No. 2019664. Any opinions, findings, and conclusions, or recommendations expressed in this material are those of the author and do not necessarily reflect the views of the National Science Foundation.