Scilab Website | Contribute with GitLab | Mailing list archives | ATOMS toolboxes
Scilab Online Help
6.1.0 - Русский

Change language to:
English - Français - 日本語 - Português -

Please note that the recommended version of Scilab is 2024.0.0. This page might be outdated.
See the recommended documentation of this function

Справка Scilab >> Xcos > palettes > Thermohydraulics palette > VanneReglante

VanneReglante

Thermal-hydraulic control valve

Block Screenshot

Description

The VanneReglante block represents a variable orifice control valve. The flow rate through the valve is proportional to the valve opening.

ΔP × h × |h| = k × Q × |Q|

where h is the valve opening, ΔP is the pressure difference, and Q is the flow rate. This model is only used for the laminar flow regimes. k is a constant depending on the valve geometry and mass density of fluid.

Parameters

  • Cvmax

    Cvmax (maximum opening of the valve)

    Properties : Type 'vec' of size -1.

  • p_rho

    Fluid density

    Properties : Type 'vec' of size -1.

Default properties

  • Inputs :

    • Modelica variable name : 'C1'

      Implicit variable.

    • Modelica variable name : 'Ouv'

      Explicit variable.

  • Outputs :

    • Modelica variable name : 'C2'

      Implicit variable.

  • Parameters :

    • Modelica parameter name : 'Cvmax'

      Default value : 8005.42

      Is a state variable : no.

    • Modelica parameter name : 'p_rho'

      Default value : 0

      Is a state variable : no.

  • File name of the model : VanneReglante

Interfacing function

  • SCI/modules/scicos_blocks/macros/Hydraulics/VanneReglante.sci

Modelica model

  • SCI/modules/scicos_blocks/macros/Hydraulics/VanneReglante.mo

Report an issue
<< SourceP Thermohydraulics palette User defined functions palette >>

Copyright (c) 2022-2023 (Dassault Systèmes)
Copyright (c) 2017-2022 (ESI Group)
Copyright (c) 2011-2017 (Scilab Enterprises)
Copyright (c) 1989-2012 (INRIA)
Copyright (c) 1989-2007 (ENPC)
with contributors
Last updated:
Tue Feb 25 08:55:06 CET 2020