Documentation for "Effect of particle entrainment on the runout of pyroclastic density currents"
08 Sep 2016 | Contributor(s): Kristen Fauria, Michael Manga, Michael Chamberlain
This is a repository for the data and script used in, "Effect of particle entrainment on the runout of pyroclastic density currents."Here you will find:1. A compilation of splash function experimental data from this study and data that was extracted from seven other studies:...
Titan2D Hazard Map Emulator Workflow Tool
24 Nov 2015 | *Tools | Contributor(s): Renette Jones-Ivey, bing zhang
Titan2D Hazard Map Emulator Workflow Tool
14 Aug 2015 | Offline Tools | Contributor(s): Matteo Cerminara, Tomaso Esposti Ongaro
A fluid-dynamic model is developed to numerically simulate the non-equilibrium dynamics of polydisperse gas-particle mixtures forming volcanic plumes. Starting from the three-dimensional N-phase Eulerian transport equations for a mixture of gases and solid particles, we adopt an asymptotic...
Pyroclastic density currents and local topography as seen with the conveyer model
15 Apr 2014 | Publications | Contributor(s): Domenico M. Doronzo
Pyroclastic density currents (PDCs) are multiphase flows generated during explosive volcanic eruptions, and they move down the volcano, and over the surrounding topography. The flow-topography interaction can play a fundamental role in the sedimentary processes, and in the resulting deposit...
Implementation of material maps into the Titan2D simulation tool
29 Dec 2013 | Presentations | Contributor(s): Sylvain Charbonnier
These powerpoint slides describe how to create and use a GIS-classified map with varying basal friction angles with the Titan2d simulation tool. Users can also refer to the Titan user manual for additional information.
Purace Titan2d Ang Basal 14
29 May 2013 | *Data Sets/Collections | Contributor(s): Paola Andrea Narvaez
Simulación para el volcán Puracé del por medio de Titan2d, con un ángulo basal de valor de 14.
26 Jun 2011 | *Tools | Contributor(s): Jose Luis Palma
A viewer of the simulation results saved by Titan2D
Tutorial for using Titan2D on VHub
25 Jun 2011 | Educational Materials | Contributor(s): Sylvain Charbonnier
During this tutorial, we will go through a stock example and (1) learn how to enter the different input parameters for running a Titan2D simulation on Vhub, (2) run the simulation and (3) visualize the results using the freely available Paraview software.
DEM converter for Titan2D
15 Apr 2011 | *Tools | Contributor(s): Jose Luis Palma
Convert a Digital Elevation Model (DEM) in ASCII format to a Titan2D readable format
Mount St Helens 1980-6 Activity summary
27 Apr 2011 | Educational Materials | Contributor(s): William I Rose
This series of two lectures summarizes the sequence of events asssociated with the 1980-86 eruptions of Mount St Helens, Washington State, USA. It is intended as a refresher for students and researchers.Lipman, Peter W., and Mullineaux, Donal R. (eds.), 1981, The 1980 Eruptions of Mount St....
Modeling volcanic eruptions: Practical experience from large-scale experiments
29 Jan 2011 | Presentations | Contributor(s): Pierfrancesco Dellino
This lecture is part of the Large-scale Experiments Workshop held in September, 2010.
Titan2d user manual (spanish)
28 Jan 2011 | Educational Materials | Contributor(s): Michael Sheridan
This is a translation of the Titan2D user manual by Teresita del Pilar Argoty.
22 Jan 2011 | Educational Materials | Contributor(s): Sarah Elizabeth Ogburn
Contains a list of references about TITAN2D, specifically a list of volcanoes and types of flows for which it has been used.
TITAN2D User Guide, Release 2.0, 2007
07 Jan 2011 | Educational Materials | Contributor(s): Abani Patra, E Bruce Pitman
This is a user guide for TITAN2D, Mass Flow Simulation Tool, created by the Geophysical Mass Flow Group (GMFG), University at Buffalo. Although this user guide describes the use of Titan2D via a python-built graphical user interface (GUI) that runs on linux machines (release 2.0, July 2007), this...
04 Aug 2010 | Publications | Contributor(s): E Bruce Pitman, Abani Patra
This tutorial presents a derivation of the governing equations solved by TITAN2D, and the numerical method employed.
Titan2D Mass-Flow Simulation Tool
22 Mar 2010 | *Tools
Simulate mass flows on realistic terrains using adaptive mesh refinement.
24 Feb 2010 | Miscellaneous | Contributor(s): Shawn Rice, Nicholas J. Kisseberth
The contribution process is intended to be much like composing an e-mail: You'll start with writing the introduction and main content of your contribution and later attach files to it (video, PDFs, etc).The abstract is typically a one or two paragraph description of your contribution.