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[Savannah-register-public] [task #12242] Submission of strongly coupled

From: Uwe
Subject: [Savannah-register-public] [task #12242] Submission of strongly coupled hygrothermal solver for wood
Date: Tue, 11 Sep 2012 08:28:27 +0000
User-agent: Mozilla/5.0 (X11; Ubuntu; Linux x86_64; rv:15.0) Gecko/20100101 Firefox/15.0


                 Summary: Submission of strongly coupled hygrothermal solver
for wood
                 Project: Savannah Administration
            Submitted by: hotzplotz
            Submitted on: Di 11 Sep 2012 10:28:26 CEST
         Should Start On: Di 11 Sep 2012 00:00:00 CEST
   Should be Finished on: Fr 21 Sep 2012 00:00:00 CEST
                Category: Project Approval
                Priority: 5 - Normal
                  Status: None
                 Privacy: Public
        Percent Complete: 0%
             Assigned to: None
             Open/Closed: Open
         Discussion Lock: Any
                  Effort: 0.00



A new project has been registered at Savannah 
This project account will remain inactive until a site admin approves or
discards the registration.

= Registration Administration =

While this item will be useful to track the registration process, *approving
or discarding the registration must be done using the specific Group
<> page*,
accessible only to site administrators, effectively *logged as site
administrators* (superuser):

* Group Administration

= Registration Details =

* Name: *strongly coupled hygrothermal solver for wood*
* System Name:  *xtwoodsim*
* Type: non-GNU software & documentation
* License: GNU General Public License v2 or later


==== Description: ====
The solver calculates the strongly coupled heat and moisture field for wood
and is based on the finite element software elmer
( and extends it with special
user-functions for wood specific nonlinear material parameters and the
possibility to simulate the sorret-effect and heat change due to evaporation.
It is based on diffusion equations for heat and moisture. That's why it is not
useful above the fiber saturation point. Furthermore the influence of pressure
gradients is considered negligible. This results in a low accuracy above
The model also supports relative humidity as an extension to the classic
dirichlet, neuman and cauchy boundary conditions.

It contains several files. To compile run make in XTwoodSim/MyLibrary
and the command "ElmerSolver" per command line in XTwoodSim/. A simple 
test case will be calculated with the results saved in XTwoodSim/cube/post/

For further inspiration, questions, bug report and other issues contact
me under 


The code is written entirely in Fortran95 and Fortran2000 and makes use of the
object-oriented possibilities offered by those languages.

==== Other Software Required: ====
Elmer + GPL +

==== Other Comments: ====
The code and documentation are written in german!

Is it possible to use git?

==== Tarball URL: ====


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