Gas Network Modeling, Simulation and Analysis Software by EUCALYPT Systems, Inc.

4.50 - What's this?

Gas network modeling, simulation and analysis software combines the most useful features of GIS and CAD with an intelligent data model to address facility management issues with optimum efficiency. Gas network modeling, simulation and analysis software may be very useful for the experts in the field of piping design. The unique approach allows you to focus on simple workflows while performing complex modeling and maintenance operations on the network. The features such as network tracing, hydraulic analysis and simulation with use of numerous industry standards pipe flow equations and gas compressibility factor calculation methods makes the GNSA valuable tool for the gas network modeling and can definitely increase your return on investment.

Color-coding of the network elements.Geographical mapsMultiple document interface (MDI)
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Features

  • » Easy-to-use graphical interface with straightforward approaches for a network model constructing.
  • » Large interactive network system display
  • » Geographic coordinates system.
  • » Networks of any complexity, with no constraints on a number of pipes joined at a node.
  • » Built-in pipes specifications (ANSI/ASME) and dimensional units.
  • » Full and partial gas composition support with up to 21 components.
  • » Up to 23 industry standard pipe flow equations support, including Colebrook, Darcy-Weysbach, A.G.A., Panhandle, Cox etc...
Russian, English

Supported Technologies

MS Windows Server 2003, Windows XP/2000/NT
C# (C Sharp), XML
Software
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Pricing

System
support@eucalyptsystems.com



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Additional software product description, benefits, features, and uses.

Additional Product Information

Gas compressible flow calculations.
The most popular methods for gas compressibility factor calculation, including NX19 mod., GERG-91 mod., A.G.A. Detailed and Gross 1, 2 methods.
Absolute and gauge pressure support.
Nodes’ elevation difference correction (static pressure adjustment).
Pipeline length instant calculation based on its profile and nodes’ elevations.
Atmospheric pressure calculation based on a node’s elevation.
Gas density calculation.
Friction factor calculation.


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