Marius Paraschivoiu

TL;DR: A domain decomposition finite element technique for efficiently generating lower and upper bounds to outputs which are linear functionals of the solutions to symmetric or nonsymmetric second-order coercive linear partial differential equations in two space dimensions is presented.

TL;DR: In this paper, the authors provide some views on the progress made recently in the areas of wind resource assessment in the urban habitat; the utilization of suitable wind turbines for enhancing the exploitation of these resources; and the significant role of knowledge of building and urban aerodynamics for an optimal arrangement of interfacing augmented wind with its extraction mechanisms.

TL;DR: A technique for generating lower and upper bounds to outputs which are linear functionals of the solutions to (finiteelement discretizations of) symmetric or nonsymmetric coercive linear partial differential equations.

TL;DR: In this paper, a three-dimensional finite element method has been implemented to predict the transmission loss of a packed muffler and a parallel baffle silencer for a given frequency range.

TL;DR: In this article, a flanged diffuser shroud mechanism is proposed to draw the airflow over buildings utilizing its special features such as, cycloidal curve geometry at the inlet and a vortex generating flange at the outlet, to guide and accelerate the airflow inside.