557 research outputs found
Integral jump conditions for singular problems – applied to Debye‐layer phenomena
Get PDFIn numerical simulations boundary layers can be treated as jump conditions inheriting detailed physical effects that emerge inside the thin layer. The presented approach, first applied by Class et al. [3], is used to determine such jump conditions in integral form. It is applied to an electro-hydrodynamic problem with a Debye-layer in direct vicinity to a charged solid wall
Catalyst Old River Hydroelectric Limited Partnership v. Ingram Barge Co. United States Court of Appeals, Fifth Circuit 639 F.3d 207 (Decided April 15, 2011)
Get PDFMessung der Brennstab-Huellrohrtemperatur mit LOFT-typischen Thermoelementen unter Blowdown-Bedingungen in COSIMA. Measurements of clad temperatures with LOFT-typical thermocouples in the COSIMA facility under blowdown conditions
Get PDFTerry v. Carnival Corp. 3 F. Supp. 3d 1363 United States District Court for the Southern District of Florida, Miami Division (Decided January 16, 2014)
Get PDFAuto-ignition during instationary jet evolution of dimethyl ether (DMR) in a high-pressure atmosphere
Get PDFNote from Pioneers of School 66, 4th class G (see translation)
Get PDFhttps://dh.howard.edu/probeson_russia/1002/thumbnail.jp
On the statistical evaluation of bubbly flows using Voronoi cells grouped in clusters with fixed cell count
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