• ClaRa
  • A User Guide
  • Basic Concepts of Modelling
  • Basics
  • Components
  • Examples
  • SimCenter
  • StaticCycles
    • Fittings
    • Fundamentals
    • Furnace
    • HeatExchangers
    • Machines
    • Storage
    • ValveConnects
      • Buffer cutFlow1
      • Buffer setFlow1
      • FlowAnchor constPressure1
      • FlowAnchor cutPressure1
      • PressureAnchor constFlow1
      • Tube1
      • Tube2
      • Valve cutPressure1
      • Valve cutPressure2
      • Valve dp nom1
      • Valve dp nom2
      • Valve dp nom3
  • SubSystems
  • Visualisation
• ZIM DocumentationTemplate

Valve dp nom1

Created Wednesday 06 August 2014

A stationary model of a valve computing the inlet pressure.

1. Purpose of Model

The model is supposed to be used for the simplified simulation of static cases. Its main purpose is to provide appropriate start or nominal values for similar dynamic model versions.

2. Level of Detail, Physical Effects Considered and Physical Insight

2.1 Level of Detail

Referring to Brunnemann et al. [1], this model refers to the level of detail L1 because the model only computes a set of parameters stationary in time for the given conditions.

2.2 Physical Effects Considered

• Conservation of linear momentum (in steady flow)

3. Limits of Validity

The model is only able to calculate stationary situations.

4. Interfaces

4.1 Steam Signals

For details see SteamSignal_blue, SteamSignal_red and SteamSignal_green.

Inlet: Red connector
Outlet: Red connector

4.2 Medium Models

VLE medium model

5. Nomenclature

6. Governing Equations

The governing equations consider mainly the pressure difference at the connection ports, the nominal pressure difference of the valve and the target power.

6.1 Governing Model Equations

The inlet pressure is computed considering the outlet pressure and the nominal pressure loss in dependency of the load point by

Summary

A summary is available including the following:

• Basics:Records:StaCyFlangeVle inlet, outlet

7. Remarks for Usage

The model can only be connected with components with matching connector colour (see Example of Usage in StaticCycles).

9. References

[1] Johannes Brunnemann and Friedrich Gottelt, Kai Wellner, Ala Renz, André Thüring, Volker Röder, Christoph Hasenbein, Christian Schulze, Gerhard Schmitz, Jörg Eiden: "Status of ClaRaCCS: Modelling and Simulation of Coal-Fired Power Plants with CO2 capture", 9th Modelica Conference, Munich, Germany, 2012

10. Authorship and Copyright Statement for original (initial) Contribution

Author:
DYNCAP/DYNSTART development team, Copyright 2011 - 2022.
Remarks:
This component was developed during DYNCAP/DYNSTART projects.
Acknowledgements:
ClaRa originated from the collaborative research projects DYNCAP and DYNSTART. Both research projects were supported by the German Federal Ministry for Economic Affairs and Energy (FKZ 03ET2009 and FKZ 03ET7060).
CLA:
The author(s) have agreed to ClaRa CLA, version 1.0. See https://claralib.com/pdf/CLA.pdf
By agreeing to ClaRa CLA, version 1.0 the author has granted the ClaRa development team a permanent right to use and modify his initial contribution as well as to publish it or its modified versions under the 3-clause BSD License.

11. Version History

Date - Version - Description of changes - author/revisor

• 22.04.2014 - v 1.0.0 - initial implementation - Timo Tumforde, XRG Simulation GmbH
• 06.06.2017 - v 1.2.2 - Added summary, Timm Hoppe XRG Simulation GmbH

---

Backlinks: ClaRa:StaticCycles