Pump3

Created Dienstag 06 Juni 2017

A stationary model of a pump computing the outlet mass specific enthalpy.

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.

It computes the stationary values of:

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 for the given scenario.

2.2 Physical Effects Considered


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: Yellow connector
Outlet: Blue connector

4.2 Medium Models


VLE medium model

5. Nomenclature


6. Governing Equations


In general the derived equations for the model consider balance of energy.

6.1 Governing Model Equations


Density

The density is the bubble density at the inlet pressure ,

Energy


To model the enthalpy at the outlet port the energy of the pump is balanced using the energy generated by the driving power given to the pump. This energy has an influence on the fluid which is affected by the efficiency of the pump. This value is balanced with the internal enthalpy of the pump which yields to the stationary enthalpy output modelled in the pump given by

The heat transfer of the pump and the environment is zero. The necessary power of the pump is computed by

Mass


The mass balance is stationary

Summary

A summary is available including the following:

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
06.06.2017 - v1.2.2 - Added model, Timm Hoppe XRG Simulation GmbH