PSRE Co. Announces New Version of PASS/HYDROSYSTEM



Affordable, smart simulation has been extended to include
three-phase oil/gas/water flow and multi-parameter optimization
for automatic sizing of piping systems

PSRE Co., the leading developer of smart simulation and sizing tools for every piping and equipment engineer/designer, is pleased to announce the new version 4.1 of PASS/HYDROSYSTEM scheduled for release beginning of October 2018. This new version contains two big improvements, which are expected to considerably extend the applicability of this versatile simulation and sizing solution helping users to efficiently design complex piping systems that meet all requirements while minimizing design and operational cost.

First, PASS/HYDROSYSTEM users can now analyze three-phase gas/oil/water flow typical for oil and gas field piping systems, including automatic calculation of flow rates for each phase in any part of a complex piping network. To enable this, PASS/HYDROSYSTEM takes into account the mixing of 3-phase flows with different phase flow rates. Preserving its renowned ease-of-use and affordability, the PASS/HYDROSYSTEM GUI has been extended to provide different convenient options for setting each phase flow rate at source (oil well) nodes.

In this new version, gas/oil/water flow is analyzed as two-phase gas/liquid flow whereby the liquid oil/water emulsion is simulated using the HEM model for density and Brinkman – Roscoe generalization of the Einstein formula for viscosity. The program monitors inversion points and defines which type of emulsion takes place in each specific part of the piping network – water in oil or oil in water.

Further, integration of the new TUFFP Unified Model Library for 3-phase flow occurs as soon as this library is ready for usage – currently expected during 4Q 2018 – 1Q 2019.

The second important improvement allows analyzing and optimizing piping networks containing multiple arbitrary control valves, orifices or other elements with controlled parameters. The parameter selection feature initially introduced in version 3.88 is now capable to support any number of parameters.  Unlimited parameters in connection with a modern, derivative-free optimization method (by Powell) enables PASS/HYDROSYSTEM users find optimal combinations of valves and orifices parameters for complex piping networks.

This new PASS/HYDROSYSTEM version will be demonstrated at the PSRE Co booth during the 34th International CAE Conference and Exhibition, 8 – 9 October 2018, in Vicenza, Italy.

About PSRE Co.  PSRE (Piping System Research & Engineering Co.) offers a complete solution for engineering of Piping Systems and related equipment including engineering consulting and the PASS Software.  The PASS Software provides smart, easy-to-use analysis, simulation, and code compliant sizing tools for every piping and equipment engineer/designer, enabling new users to perform piping and related equipment analysis in days rather than months.  By embedding its know-how from many engineering projects into the PASS software tools and combining this embedded intelligence with powerful capabilities and unsurpassed usability, PSRE significantly reduces the time, effort, and cost for the design and sizing of piping systems and related equipment.  The PASS Suite is already successfully used by more than 2000 customers around the globe to efficiently engineer complex piping systems and related equipment.   Please check out the PASS software at www.passuite.com.

PSRE is continuing to expand its worldwide market presence and is actively looking for distribution partners.

 

 

Share and Enjoy:
  • Digg
  • Sphinn
  • del.icio.us
  • Facebook
  • Mixx
  • Google
  • TwitThis
  • Free Download

    na_cover_98

    Download the latest issue of the Autodesk® Partner Solutions Design Guide 2018 and subscribe to receive future issues and the quarterly email newsletter

Extension Media websites place cookies on your device to give you the best user experience. By using our websites, you agree to placement of these cookies and to our Privacy Policy. Please click here to accept.