Experimental investigation and modelling of condensation in micro-structured plate heat exchangers

Publikation: Qualifikations-/StudienabschlussarbeitDissertation

Autoren

  • Ru Wang

Organisationseinheiten

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Details

OriginalspracheEnglisch
QualifikationDoktor der Ingenieurwissenschaften
Gradverleihende Hochschule
Betreut von
  • Stephan Kabelac, Betreuer*in
Datum der Verleihung des Grades4 Apr. 2022
ErscheinungsortGarbsen
ISBNs (Print)9783959007023
ISBNs (E-Book)978-3-95900-728-3
PublikationsstatusVeröffentlicht - 2022

Abstract

With a micro-structured plate heat exchanger with mixed angles, the heat transfer and pressure drop of pure refrigerants and their mixtures during condensation is presented and investigated. For this purpose, a test rig of a vapor compression refrigeration system and a test bench of visualization were developed and built in the institute of Thermodynamics at the Gottfried Wilhelm Leibniz University of Hannover. Based on the visualization results, the influence of flow patterns on heat transfer and pressure drop is thermodynamically investigated, a new heat transfer model based on flow patterns is developed. The micro-structure improves heat transfer during condensation, new correlations are established for the prediction of quasi-local heat transfer coefficients and two-phase frictional pressure drop, by considering the specific properties of fluids and geometry. The course of the mixtures, together with the results from the literature, confirms that the model for pure refrigerants enables good prediction for azeotropic and near-azeotropic mixtures.

Zitieren

Experimental investigation and modelling of condensation in micro-structured plate heat exchangers. / Wang, Ru.
Garbsen, 2022. 163 S.

Publikation: Qualifikations-/StudienabschlussarbeitDissertation

Wang, R 2022, 'Experimental investigation and modelling of condensation in micro-structured plate heat exchangers', Doktor der Ingenieurwissenschaften, Gottfried Wilhelm Leibniz Universität Hannover, Garbsen.
Wang, R. (2022). Experimental investigation and modelling of condensation in micro-structured plate heat exchangers. [Dissertation, Gottfried Wilhelm Leibniz Universität Hannover].
Wang R. Experimental investigation and modelling of condensation in micro-structured plate heat exchangers. Garbsen, 2022. 163 S. (Berichte aus dem Institut für Thermodynamik).
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abstract = "With a micro-structured plate heat exchanger with mixed angles, the heat transfer and pressure drop of pure refrigerants and their mixtures during condensation is presented and investigated. For this purpose, a test rig of a vapor compression refrigeration system and a test bench of visualization were developed and built in the institute of Thermodynamics at the Gottfried Wilhelm Leibniz University of Hannover. Based on the visualization results, the influence of flow patterns on heat transfer and pressure drop is thermodynamically investigated, a new heat transfer model based on flow patterns is developed. The micro-structure improves heat transfer during condensation, new correlations are established for the prediction of quasi-local heat transfer coefficients and two-phase frictional pressure drop, by considering the specific properties of fluids and geometry. The course of the mixtures, together with the results from the literature, confirms that the model for pure refrigerants enables good prediction for azeotropic and near-azeotropic mixtures.",
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Download

TY - BOOK

T1 - Experimental investigation and modelling of condensation in micro-structured plate heat exchangers

AU - Wang, Ru

N1 - Doctoral thesis

PY - 2022

Y1 - 2022

N2 - With a micro-structured plate heat exchanger with mixed angles, the heat transfer and pressure drop of pure refrigerants and their mixtures during condensation is presented and investigated. For this purpose, a test rig of a vapor compression refrigeration system and a test bench of visualization were developed and built in the institute of Thermodynamics at the Gottfried Wilhelm Leibniz University of Hannover. Based on the visualization results, the influence of flow patterns on heat transfer and pressure drop is thermodynamically investigated, a new heat transfer model based on flow patterns is developed. The micro-structure improves heat transfer during condensation, new correlations are established for the prediction of quasi-local heat transfer coefficients and two-phase frictional pressure drop, by considering the specific properties of fluids and geometry. The course of the mixtures, together with the results from the literature, confirms that the model for pure refrigerants enables good prediction for azeotropic and near-azeotropic mixtures.

AB - With a micro-structured plate heat exchanger with mixed angles, the heat transfer and pressure drop of pure refrigerants and their mixtures during condensation is presented and investigated. For this purpose, a test rig of a vapor compression refrigeration system and a test bench of visualization were developed and built in the institute of Thermodynamics at the Gottfried Wilhelm Leibniz University of Hannover. Based on the visualization results, the influence of flow patterns on heat transfer and pressure drop is thermodynamically investigated, a new heat transfer model based on flow patterns is developed. The micro-structure improves heat transfer during condensation, new correlations are established for the prediction of quasi-local heat transfer coefficients and two-phase frictional pressure drop, by considering the specific properties of fluids and geometry. The course of the mixtures, together with the results from the literature, confirms that the model for pure refrigerants enables good prediction for azeotropic and near-azeotropic mixtures.

M3 - Doctoral thesis

SN - 9783959007023

T3 - Berichte aus dem Institut für Thermodynamik

CY - Garbsen

ER -