Introduction
Supercomputers and smarter software are providing a clearer picture of the chaotic eddies and vortexes that make up turbulence, as in this computer simulation of turbulent burning and mixing inside a commercial jet engine combustor.
— Bryn Nelson"; Tech_Frontiers_Turbulence080922[i++] = new Array("","Go with the flow","","http://msnbcmedia.msn.com/j/msnbc/Components/Photo/_new/080915_Turbulence-1.hmedium.jpg","","Image: jet engine turbulence", "", "", "", "", "", "", "Courtesy of Stanford University Center for Turbulence Research", "273", "342", "#000000", "", "", "", ""); Tech_Frontiers_Turbulence080922[i-1].body = "
Go with the flow
A computer simulation depicts the flow of fuel through a complete jet engine, including the fan, compressor, combustor, turbine and nozzle. Such a visual feat was considered untenable even a few years ago."; Tech_Frontiers_Turbulence080922[i++] = new Array("","Transonic flow","","http://msnbcmedia.msn.com/j/msnbc/Components/Photo/_new/080915_Turbulence-2.vmedium.jpg","","Image: turbulence", "", "", "", "", "left", "", "Courtesy of Stanford University Center for Turbulence Research", "197", "198", "#000000", "", "", "", ""); Tech_Frontiers_Turbulence080922[i-1].body = "
Transonic flow
A colorized computer simulation depicts a transonic flow (traveling near the speed of sound) over a circular cylinder with an interacting turbulent wake and shocks. Acoustic wave fronts, or sound waves, are visible propagating away from the cylinder and wake."; Tech_Frontiers_Turbulence080922[i++] = new Array("","Influence of magnetic fields","","http://msnbcmedia.msn.com/j/msnbc/Components/Photo/_new/080915_Turbulence-3.hmedium.jpg","","Image: turbulence", "", "", "", "", "left", "", "Courtesy of Lawrence Berkeley National Lab Visualization Group", "273", "273", "#000000", "", "", "", ""); Tech_Frontiers_Turbulence080922[i-1].body = "
Influence of magnetic fields
A visualization project from 2005 shows a simulation of how magnetic fields can cause turbulence to develop in disks of gas and other matter that swirl around central objects such as newly formed stars. From flying golf balls to galactic disks, turbulence is ubiquitous in nature."; Tech_Frontiers_Turbulence080922[i++] = new Array("","Fluid turbulence","","http://msnbcmedia.msn.com/j/msnbc/Components/Photo/_new/080915_Turbulence-4.hmedium.jpg","","Image: turbulence", "", "", "", "", "", "", "San Diego Supercomputer Center", "273", "312", "#000000", "", "", "", ""); Tech_Frontiers_Turbulence080922[i-1].body = "
Fluid turbulence
A detailed three-dimensional rendering of fluid turbulence shows the topology of high-activity regions where the most intense turbulent mixing and chemical reaction is expected, indicated by darker colors."; Tech_Frontiers_Turbulence080922[i++] = new Array("","Flow-generated noise","","http://msnbcmedia.msn.com/j/msnbc/Components/Photo/_new/080915_Turbulence5.hmedium.jpg","","Image: flow around side-view mirror", "", "", "", "", "", "", "Courtesy of Stanford University Center for Turbulence Research", "273", "364", "#000000", "", "", "", ""); Tech_Frontiers_Turbulence080922[i-1].body = "
Flow-generated noise
Computer simulation of the flow around an automobile side-view mirror to understand and compute sources of flow-generated noise. The flow is visualized using contours of stream-wise velocity."; // END editorial data