HIPRO: High Reynolds Number Prolate Spheroid - Laboratory for Experimental Fluid Dynamics

1.0Laboratory for Experimental Fluid Dynamicshttps://engineering.jhu.edu/lefdHIPRO: High Reynolds Number Prolate Spheroid - Laboratory for Experimental Fluid Dynamicsrich600338<blockquote class="wp-embedded-content" data-secret="qJSHeRD7Ae"><a href="https://engineering.jhu.edu/lefd/hipro-high-reynolds-number-prolate-spheroid/">HIPRO: High Reynolds Number Prolate Spheroid</a></blockquote><iframe sandbox="allow-scripts" security="restricted" src="https://engineering.jhu.edu/lefd/hipro-high-reynolds-number-prolate-spheroid/embed/#?secret=qJSHeRD7Ae" width="600" height="338" title="“HIPRO: High Reynolds Number Prolate Spheroid” — Laboratory for Experimental Fluid Dynamics" data-secret="qJSHeRD7Ae" frameborder="0" marginwidth="0" marginheight="0" scrolling="no" class="wp-embedded-content"></iframe><script> /*! This file is auto-generated */ !function(d,l){"use strict";l.querySelector&&d.addEventListener&&"undefined"!=typeof URL&&(d.wp=d.wp||{},d.wp.receiveEmbedMessage||(d.wp.receiveEmbedMessage=function(e){var t=e.data;if((t||t.secret||t.message||t.value)&&!/[^a-zA-Z0-9]/.test(t.secret)){for(var s,r,n,a=l.querySelectorAll('iframe[data-secret="'+t.secret+'"]'),o=l.querySelectorAll('blockquote[data-secret="'+t.secret+'"]'),c=new RegExp("^https?:$","i"),i=0;i<o.length;i++)o[i].style.display="none";for(i=0;i<a.length;i++)s=a[i],e.source===s.contentWindow&&(s.removeAttribute("style"),"height"===t.message?(1e3<(r=parseInt(t.value,10))?r=1e3:~~r<200&&(r=200),s.height=r):"link"===t.message&&(r=new URL(s.getAttribute("src")),n=new URL(t.value),c.test(n.protocol))&&n.host===r.host&&l.activeElement===s&&(d.top.location.href=t.value))}},d.addEventListener("message",d.wp.receiveEmbedMessage,!1),l.addEventListener("DOMContentLoaded",function(){for(var e,t,s=l.querySelectorAll("iframe.wp-embedded-content"),r=0;r<s.length;r++)(t=(e=s[r]).getAttribute("data-secret"))||(t=Math.random().toString(36).substring(2,12),e.src+="#?secret="+t,e.setAttribute("data-secret",t)),e.contentWindow.postMessage({message:"ready",secret:t},"*")},!1)))}(window,document); //# sourceURL=https://engineering.jhu.edu/lefd/wp-includes/js/wp-embed.min.js </script> Objectives Characterize experimentally the 3D separated flow structure and wall shear stresses around the body Introduce and demonstrate technologies that could be implemented regularly in Navy testing Currently Limited data on the flow structure at high Reynolds numbers Essentially no … Continue reading →https://engineering.jhu.edu/lefd/wp-content/uploads/2026/05/Capture.png1405637