Numerical and Experimental Approaches for the Characterization of Heat Transfer Mechanisms in Compound Parabolic Concentrators

Christoph Reichl (Speaker), Florian Hengstberger, Christoph Zauner, Bernhard Kubicek

Research output: Chapter in Book or Conference ProceedingsConference Proceedings with Oral Presentation

Abstract

Several physical mechanisms including conduction, convection, diffusion and radiation are involved when modelling heat transfer in a solar collector. A lab scale compound parabolic concentrator collector model was first analysed by particle image velocimetry (PIV) and local temperature probes for various tilt angles of the setup and different absorber tube temperatures to provide a base for comparison to computational fluid dynamics (CFD) results. To be able to separate the occurring effects no incoming radiation was used for the measurements: To drive the convective flow inside the CPC, the absorber temperature was fixed to a constant temperature instead. The Navier Stokes equations have been solved on 2D and 3D meshes using steady and transient solutions: for a detailed reproduction of the experimentally observed natural convection currents transient 3D approaches are required - if only overall temperatures, approximate velocity ranges and heat fluxes are of primary interest, computationally cheap two dimensional steady approaches can be facilitated. These simulations can also be used for a fast assessment of efficiency curves in various scenarios. Ray-tracing is utilized to describe the solar radiation patterns and investigate the influence of distributed energy sources on tube and mirror.
Original languageEnglish
Title of host publicationConference Proceedings EuroSun 2014
Pages450-459
Number of pages10
DOIs
Publication statusPublished - 2014
EventEUROSUN 2014; Int. Conference on Solar Heating, Cooling and Buildings -
Duration: 16 Sept 201419 Sept 2014

Conference

ConferenceEUROSUN 2014; Int. Conference on Solar Heating, Cooling and Buildings
Period16/09/1419/09/14

Research Field

  • Former Research Field - Energy

Fingerprint

Dive into the research topics of 'Numerical and Experimental Approaches for the Characterization of Heat Transfer Mechanisms in Compound Parabolic Concentrators'. Together they form a unique fingerprint.

Cite this