Dynamic testing and modelling of solar collectors
File(s)
Author(s)
Guarracino, I
Freeman, J
Markides, CN
Type
Poster
Abstract
Solar-thermal collectors operating under real conditions rarely reach steady-state operation due to temporal fluctuations in
the climate/environmental conditions and thermal loads. Figure 1 shows typical UK weather map. The incident irradiance,
the ambient temperature and the wind speed can vary during the day as shown in Figures 2-4. These figures show the data
collected in London at a temporal resolution of 1-minute. As a consequence of the time-varying inputs, collector models that
describe dynamic behaviour are required for the accurate prediction of the thermal output and for optimising the control
strategy of such systems. We develop detailed 3-D thermal sub-models that can be adapted to various geometries or
collector configurations, including vacuum-tube thermal collectors, sheet-and-tube thermal and PV/T collectors.
the climate/environmental conditions and thermal loads. Figure 1 shows typical UK weather map. The incident irradiance,
the ambient temperature and the wind speed can vary during the day as shown in Figures 2-4. These figures show the data
collected in London at a temporal resolution of 1-minute. As a consequence of the time-varying inputs, collector models that
describe dynamic behaviour are required for the accurate prediction of the thermal output and for optimising the control
strategy of such systems. We develop detailed 3-D thermal sub-models that can be adapted to various geometries or
collector configurations, including vacuum-tube thermal collectors, sheet-and-tube thermal and PV/T collectors.
Date Issued
2014-09-08
Citation
2014
Copyright Statement
© 2014 The Authors.
Sponsor
Phase Change Material Products Limited
Grant Number
CENRE_P44019
Source
14th UK Heat Transfer Conference 2015