http://www.imechanica.org/node/4410 Comments for "Multiple positions in experimants and CFD" en http://www.imechanica.org/node/4410 <p>Multiple, assistant researcher/research scientist/postdoctoral positions are available in a large, 4-year duration, Department of Defense program on &ldquo;Release, Atmospheric Dispersal, and Environmental Fate of Liquid Agents&rdquo;.&nbsp; The effort is aiming to: (a) achieve a basic understanding of the physics of aero-breakup and dispersal of liquid agents in high-speed flows, (b) achieve a basic understanding of impact/spreading/absorption/reaction/evaporation of drops falling on various substrates, and (c) develop and validate computational tools covering the hierarchy of scales involved and purposes (from aiding scientific understanding to fast-running, applications oriented). The scope includes Newtonian as well as Visco-elastic liquids. Pertinent backgrounds and interests are summarized in the following:</p> <p>&nbsp;</p> <p>&nbsp;&nbsp;&nbsp; 1. Experimental fluid dynamics. Background on optics and laser diagnostics is necessary. Experience in high speed gas dynamics (shock tubes, high speed wind tunnels) is desirable. </p> <p>&nbsp;</p> <p>&nbsp;&nbsp;&nbsp; 2. Computational Fluid Dynamics.&nbsp; Direct numerical simulation of interfacial instabilities in high speed flows.&nbsp; Effective-field modeling of multi-fluid flows in supersonic &ldquo;fluidization&rdquo;.&nbsp; Fluid-structure interactions under explosive loads and/or inertial impacts.&nbsp; Strong programming skills, including Godunov-type methods, adaptive mesh refinement, unstructured grid, and parallel processing.</p> <p>&nbsp;</p> <p>&nbsp;&nbsp;&nbsp; 3. Fluid Mechanics and Rheology. Theory and simulations toward interpretation of breakup/fluidization experiments, polymer solution &ldquo;rupturing&rdquo; at high strain rate flows, and solid-liquid interfacial dynamics as pertaining to wetting, reaction and depletion mechanics of liquid drops impacting porous substrates.</p> <p>&nbsp;</p> <p>&nbsp;&nbsp;&nbsp; Those selected will join a strong and collaborative team, and will find a significant infrastructure, including a pulse, supersonic wind-tunnel, a large-scale shock-tube/catch-chamber facility, state-of-the-art visualization instrumentation, an assortment of numerical tools, and a 112-node cluster.&nbsp; Our research environment is flexible so as to maximize one&rsquo;s interests and growth potential, and includes strong collaborative ties with Lawrence Livermore National Laboratory, and NASA&rsquo;s Glen Research Center. </p> <p>&nbsp;</p> <p>Applicants please write to:</p> <p> &nbsp;&nbsp;&nbsp;&nbsp; Prof. Theo Theofanous, <a href="mailto:theo@engr.ucsb.edu">theo@engr.ucsb.edu</a>,</p> <p> &nbsp;&nbsp;&nbsp;&nbsp; Prof. Meng-Sing Liou, <a href="mailto:msliou@engr.ucsb.edu">msliou@engr.ucsb.edu</a>,</p> <p> And</p> <p> &nbsp;&nbsp;&nbsp;&nbsp; Dr. Chih-Hao Chang, <a href="mailto:chchang@engr.ucsb.edu">chchang@engr.ucsb.edu</a></p> <p> Please include your CV with a statement of purpose.&nbsp; The position and remuneration will depend on applicant&rsquo;s qualifications.</p> <br class="clear" /> http://www.imechanica.org/node/4410#comments job CFD; multipahse flows; fluid-structure coupling; Non-Newtonian Fluid Mon, 01 Dec 2008 05:03:45 -0500 chchang 4410 at http://www.imechanica.org