A
Amable Liñán
Researcher at Technical University of Madrid
Publications - 39
Citations - 1501
Amable Liñán is an academic researcher from Technical University of Madrid. The author has contributed to research in topics: Laminar flow & Reynolds number. The author has an hindex of 15, co-authored 38 publications receiving 1402 citations. Previous affiliations of Amable Liñán include Polytechnic University of Puerto Rico & Instituto Nacional de Técnica Aeroespacial.
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The asymptotic structure of counterflow diffusion flames for large activation energies
TL;DR: In this paper, the structure of steady state diffusion flames is investigated by analyzing the mixing and chemical reaction of two opposed jets of fuel and oxidizer as a particular example, and an Arrhenius one-step irreversible reaction in the realistic limit of large activation energies.
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A priori testing of subgrid models for chemically reacting non-premixed turbulent shear flows
TL;DR: In this paper, the β-assumed p.d. approximation of Cook & Riley (1994) is tested as a subgrid model for the LES computation of non-premixed turbulent reacting flows, in the limit of infinitely fast chemistry, for two plane constant-density turbulent mixing layers with different degrees of intermittency.
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On the dynamics of buoyant and heavy particles in a periodic Stuart vortex flow
TL;DR: In this paper, the dynamics of small, spherical, rigid particles in a spatially finite array of Stuart vortices given by a steady-state solution to the two-dimensional incompressible Euler equation were studied analytically by using a perturbation scheme.
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Ignition, Liftoff, and Extinction of Gaseous Diffusion Flames
TL;DR: In this article, a review of the fluid dynamics of non-premixed combustion is presented, including diffusion-controlled flames, edge flames, triple flames and their role as ignition fronts, and flame-vortex interactions.
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The virtual origin as a first-order correction for the far-field description of laminar jets
TL;DR: In this article, a perturbative analysis of the point-source solution of the far-field velocity and composition fields of a submerged laminar jet is presented, showing that this virtual origin is in fact a first-order correction to the leading-order description.