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[Savannah-register-public] [task #15004] Submission of Whammer

From: Anders Andreasen
Subject: [Savannah-register-public] [task #15004] Submission of Whammer
Date: Sat, 28 Jul 2018 07:28:18 -0400 (EDT)
User-agent: Mozilla/5.0 (Windows NT 6.1; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/67.0.3396.99 Safari/537.36


                 Summary: Submission of Whammer
                 Project: Savannah Administration
            Submitted by: andr1976
            Submitted on: Sat 28 Jul 2018 11:28:16 AM UTC
         Should Start On: Sat 28 Jul 2018 12:00:00 AM UTC
   Should be Finished on: Tue 07 Aug 2018 12:00:00 AM UTC
                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 Administration
<> page*,
accessible only to site administrators,
effectively *logged as site administrators* (superuser):

* Group Administration

= Registration Details =

* Name: *Whammer*
* System Name:  *whammer*
* Type: non-GNU software and documentation
* License: X11 license (Requires either GNU Octave or Matlab (R). Can most
likely be translated with a reasoanble work effort  to run on Scilab, and


==== Description: ====
A set of *.m files with code which runs under both octave and Matlab, on
Windows and GNU/Linux/Unix like operating systems. 

The program calculates 1D transient pressure/head response in pipeline systems
subject to sudden changes in flow i.e. valve closing, pump start/stop etc.
Both single phase and cavitation/column separation is modelled. Various
unstedy friction models are implemented as well. The solution scheme is using
the method of characteristics (MOC) for solving the coupled partial
differential equations (continuity and momentum). 
The code is rigorously tested against available experimental investigations
from the literature. 

==== Other Software Required: ====
GNU Octave - GNU GPL 

==== Tarball URL: ====


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