Echanges de Modèles

Click on the Title, Author or Picture to open an Entry

Displaying entries 41-46 out of 46.

A Finite Element Analysis on the Modeling of Heat Release Rate, as Assessed by a Cone Calorimeter, of Char Forming Polycarbonate

D. Statler, Mid-Atlantic Technology, Research and Innovation Center, and R. Gupta, West Virginia University
Last updated: April 30, 2009

Not rated

During the pyrolysis and combustion of polymers, heat is released and is typically measured with a cone calorimeter to better assess the polymer’s flammability. Modeling heat release rate, as...

Study of Compliance Mismatch within a Stented Artery

Kefu Liu and Gianmarc Coppola, Lakehead University
Last updated: April 30, 2009

1 review

The objective of this paper is to study the effects of compliance mismatch in a stented artery. COMSOL Multiphysics is used to tackle this challenging problem involving fluid-structure...

Heat, Air and Moisture Transport - part 2/2 (3D)

A.W.M. (Jos) van Schijndel, Eindhoven University of Technology
Last updated: February 3, 2009

10 reviews

This work presents a first modeling guide for the modeling and simulation of up to full 3D dynamic Heat, Air & Moisture (HAM) transport of building constructions using COMSOL. PART 2/2: HAM...

Heat, Air and Moisture Transport - part 1/2 (2D)

A.W.M. (Jos) van Schijndel, Eindhoven University of Technology
Last updated: February 3, 2009

5 reviews

This work presents a first modeling guide for the modeling and simulation of up to full 3D dynamic Heat, Air & Moisture (HAM) transport of building constructions using COMSOL. PART 1/2 : HAM...

Heat and Moisture Benchmark

A.W.M. (Jos) van Schijndel, Eindhoven University of Technology
Last updated: January 29, 2009

4 reviews

Benchmarks are important tools to verify computational models. In the research area of building physics, the so-called HAMSTAD (Heat, Air and Moisture STAnDardization) project is a very well known...

Middle Cerebral Artery Segment with Vasospasm

Steven Conrad, LSU Health Sciences Center
Last updated: December 19, 2008

6 reviews

This model represents a stenosis due to vasospasm in the M1 segment of the middle cerebral artery, as might occur following subarachnoid hemorrhage. The model is intended to simulate blood flow at...