ProteusDS v2.34 is now available

v2.34 is now available

It’s been an exciting and busy start to 2017 here at DSA and it’s been several months since our last release of ProteusDS (v2.29) – so we are very pleased to announce the release of ProteusDS v2.34.

The software is ready to go and login credentials for active subscribers will allow you to access ProteusDS v2.34 from our website.

Version 2.34 introduces new functionality, including:

Net modeling enhancements


The latest version of ProteusDS contains fixes and enhancements for net modelers. Improvements have been made to increase the accuracy of predicted hydrodynamic forces on nets, and mooring components in the wakes of nets.  The pre-existing wake-shielding model, which accounts for fluid velocity reduction through nets, has been updated and is considered essential for not over-estimating forces on successive net pens in simulations. This builds on the self-shielding model that was added in the previous release to account for local hydrodynamic shielding between adjacent net twines at low angles of incidence

Secondly, automatic adjustment of net twine drag coefficient with Reynolds number has been added as default to nets, and has been proven to accurately estimate hydrodynamic forces on nets over wide ranges of fluid velocity. DSA has produced a validation document which outlines the net model developments for estimating hydrodynamic loading and comparisons made to experimental tank tests of nets and full-scale fish farms. It is critical that net users add to their existing net model input models the $FluidCoefficientReData property.

Enhancements have also been made to the net arc space calculations in ProteusDS, which is used to position external masses on nets. Performance improvements were made by switching from a bi-quintic to a linear-cubic interpolation scheme.

The image shows a side view of three successive square aquaculture pens, with current flowing right to left. The leading cage experiences the largest hydrodynamic forcing and netting deformation. Current velocity is then reduced with the wake shielding model as the flow traverses through multiple nets, as seen in the middle and trailing cages.

 

Lastly, improvements have been made to previsualization of nets in the ProteusDS Simulation Toolbox. Users can now distinguish which net edge is which according to its colour.

Users can now distinguish which net edge is which according to its colour.

Cable model damping optimization


The finite-element cable model is one of the core models in ProteusDS. Users will now have the ability to automatically estimate a reasonable axial damping coefficient in cables based on a damping ratio, axial stiffness and element lengths. Testing has shown that this typically results in major simulation speed-ups.

Simulation execution time can be greatly increased by utilizing automatic cable damping, as each instance of a cable segment defined in a cable has a particular calculated axial damping coefficient based on the average element stiffness, average element length, and cable node mass covered by the cable segment.

 

Environmental condition transitions


The latest version of the ProteusDS contains a major new feature that allows control over the application current, wind and waves in a simulation. We’ve added the ability to independently control when the current, wind, and wave conditions will start in any given simulation and the length of time that those conditions will be ramped to their set state.

Previously the singular $TRamp property was used to control ramping of all environmental conditions. Users could not, for instance, have a steady state current with wind and then have waves start at some point later on in a simulation.

This feature is very useful when a user wants to determine an initial steady state configuration (positions and loads) for a model (e.g. a mooring system, a fish farm, a moored buoy) – then after the steady state is reached, introduce unsteady wave loads. Previously this level of analysis was only achievable after running separate simulations.

So, that’s ProteusDS 2.34 – we hope you enjoy it and find good use for all the new features.

 

Complete list of additions, changes and resolved issues.


Additions:

  • ProteusDS Simulation Toolbox pre-visualizer now displays name of any currently selected DObject(s)
  • Added Net edge and ribline colouring to pre-visualizer
  • Added automated calculation of axial damping for Cables/Scables using $AxialDampingMode property
  • Added environmental timing/ramping options to the Environment input file which allows users to set the start time and ramp duration independently for wind, waves and currents.
  • Improved 2.5D spatially varying current loading
  • Added Reynolds number dependent drag as default to net panel feature
  • Added defaults for variation of drag with Re (for cylinders)
  • Improved drag loading and wake/shielding model for nets
  • Improvements to simulation destabilization detection

Resolved issues:

  • Addressed a number of rendering issues in pre-visualizer
  • Improved performance of pre-visualizer rendering
  • Resolved out-of-bounds current sampling
  • Renamed “Transform” to “Translate / Rotate” in ProteusDS Simulation Toolbox

View our 2015 change log here