Automated Detection of Features in CFD Datasets

Dusi Venkata, Satya Sridhar

14 December 2001

Typically, computational fluid dynamic (CFD) solutions produce large amounts of data that can be used for analysis. The enormous amount of data produces new challenges for effective exploration. The prototype system EVITA, based on ranked access of application-specific regions of interest, provides an effective tool for this purpose. Automated feature detection techniques are needed to identify the features in the dataset. Automated techniques for detecting shocks, expansion regions, vortices, separation lines, and attachment lines have already been developed. A new approach for identifying the regions of flow separation is proposed. This technique assumes that each pair of separation and attachment lines has a vortex core associated with it. It is based on the velocity field in the plane perpendicular to the vortex core. The present work describes these methods along with the results obtained.

Automated techniques

Feature Detection

Shocks

separation and attachment lines

separation layer

Toward nanofiltration membranes with layer-by-layer assembled and nano-reinforced separation layers / Vers des membranes de nanofiltration avec des couches de separation nano-renforcées et assemblées couche-par-couche

Lin, Xiaofeng

17 June 2016

Ce travail de thèse a été consacré à l'élaboration d'un nouveau type de membranes de nanofiltration efficaces avec des propriétés améliorées (flux élevé et rétention élevée, et de bonnes propriétés mécaniques) en déposant un revêtement assemblé couche-par-couche (LbL) sur des supports poreux. Après avoir systématiquement étudié le mécanisme de croissance des films assemblés couche par couche des polyélectrolytes choisis et la relation entre les structures de ces films et les performances des membranes résultant, nous avons identifié avec succès les meilleures structures multicouches pour la construction de membranes de nanofiltration de référence avec des performances optimales. En outre, en prenant avantage de la technique LbL, nous avons introduit une couche de diffusion latérale assemblée soit de nanofibrilles de cellulose ou de nanotubes de carbone, qui permet d’augmenter le flux de 30% tout en conservant la même rétention par rapport à la membrane de référence. En plus, les films assemblés à base de chitosan et nanofibrils de cellulose ont montré une forte résistance à la traction allant jusqu’à 450 MPa et un module d’Young jusqu’à 50 GPa. / This thesis work was devoted to the development of a novel and efficient nanofiltration membrane with improved properties (high flux and high retention, good mechanical strength) by coating Layer-by-Layer (LbL) assembled films onto porous membrane support. After having systematically studied the growth mechanism of LbL-assembled films of chosen polyelectrolytes and the relationship between the structures of these films and the membrane performance of the resulting NF membranes, we successfully identified the best multilayer structures for constructing nanofiltration membranes (NF) of reference with optimal membrane performance. Furthermore, taking advantages of the LbL-assembly, we successfully introduced LbL-assembled lateral diffusion layer that is made of either cellulose nanofibrils or carbon nanotubes, which in turn led to membranes with 30% higher flux. In addition, the LbL-assembled films of chitosan and cellulose nanofibrils showed surprisingly strong tensile strength of up to 450 MPa and a high Young modulus of up to 50 GPa.

Membranes de nanofiltration

Assemblage couche-par-couche

Couche de séparation polymère

Nanofibrils de cellulose

Nanotubes de carbone

Nanofiltration membranes

Layer-by-layer assembly

Polymeric separation layer

Fibrillar lateral diffusion layer

Cellulose nanofibrils

Carbon nanotubes

541.3

Pohřební služba a kamenictví / Funeral service and stonework

Trojan, Jan

January 2015

A new building stand two single-storey buildings which will be used for the production, housing, sale and storage of the deceased. Objects have rectangular shapes with external dimensions of 9.9 x 24,25 m and 21.0 x 42.85 m. The structures are designed as a vertical system POROTHERM, SPIROLL ceiling and roofing flat roof. The facade will be dealt with silicate plaster rubbing.