C
Christopher J. Elkins
Researcher at Stanford University
Publications - 122
Citations - 3150
Christopher J. Elkins is an academic researcher from Stanford University. The author has contributed to research in topics: Turbulence & Vortex. The author has an hindex of 28, co-authored 118 publications receiving 2864 citations. Previous affiliations of Christopher J. Elkins include University of Texas System.
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Three-Dimensional Velocity and Scalar Field Measurements of an Airfoil Trailing Edge With Slot Film Cooling: The Effect of an Internal Structure in the Slot
TL;DR: In this paper, the authors measured the 3D velocity and concentration fields using magnetic resonance imaging for a pressure-side cutback film cooling experiment, which consisted of rectangular slots separated by straight lands; inside each of the slots was an airfoil-shaped blockage.
Numerical and Experimental Investigation of the Turbulent Flow in a Ribbed Serpentine Passage
TL;DR: In this paper, the turbulent flow in a serpentine with oblique ribs is investigated experimentally and by numerical simulations using Magnetic Resonance Velocimetry (MRV) and the IMB technique.
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Three-dimensional velocity measurements in annular diffuser segments including the effects of upstream strut wakes
TL;DR: In this article, the authors provided 3D velocity data for CFD validation on the flow in two annular diffuser segments with straight inner walls and angled outer walls and examined the sensitivity of these flows to inlet condition perturbations.
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3D MRI measurements of the effects of wind direction on flow characteristics and contaminant dispersion in a model urban canopy
TL;DR: In this paper, the influence of tall buildings and wind orientation within an urban canopy was studied to examine how mass and momentum are transported downward into the building canopy using magnetic resonance velocimetry and magnetic resonance concentration methods.
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In Vitro Assessment of Right Ventricular Outflow Tract Anatomy and Valve Orientation Effects on Bioprosthetic Pulmonary Valve Hemodynamics
TL;DR: The compound effects of geometry and orientation on bioprosthetic valve hemodynamics illustrated in this study could have a crucial impact on long-term valve performance.