Studies on how to counteract overheating caused by sun patch exposure in ventilated highly glazed spaces heated by floor heating systems
•The impact of sun radiation on the thermal behavior of the floor heating system was studied.•A dynamic sun patch on a radiant heating slab was experimentally investigated.•It was shown a substantial increase of both floor surface temperature and indoor air temperature.•It was observed that over-ven...
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Veröffentlicht in: | Solar energy 2021-05, Vol.220, p.991-1005 |
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Sprache: | eng |
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Zusammenfassung: | •The impact of sun radiation on the thermal behavior of the floor heating system was studied.•A dynamic sun patch on a radiant heating slab was experimentally investigated.•It was shown a substantial increase of both floor surface temperature and indoor air temperature.•It was observed that over-ventilation doesn’t decrease hugely the floor surface temperature.•It was observed that water-based cooling technique seems efficient to dump overheating.
Enhancing the glazing areas in buildings could save energy by increasing solar gain and thus decreasing the demand for heating and artificial lighting during the cold season. However, relatively large glazed buildings often cause thermal discomfort to occupants due to the midseason heating, especially in the case of inertial heating systems. This study was conducted to examine the impact of direct solar radiation on the dynamic thermal behavior of a floor heating system. A series of experiments were conducted on a monitored full-scale controlled test cell facility simulating a dynamic sun patch on a radiant heating slab. A previously published bi-dimensional dynamic model based on the finite difference method was extended and validated to consider the additional heat flux brought by the sun patch. The findings show that the overheating time induced by the sun patch exposure was approximately 8.5 h after the disappearance of the solar patch. The average heating floor surface temperature attained 33.91 °C, whereas the indoor air temperature reached 26 °C. The conducted numerical parametric study revealed that when the sun patch occurs, ventilation remarkably decreases the indoor air temperature but keeps the average surface temperature almost unchanged and primarily over the standard upper limits. In contrast, water-based cooling technique appeared to be efficient under sun patch exposure since the average surface temperature and indoor air temperature can be decreased and maintained under acceptable limits in the average comfort zone. |
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ISSN: | 0038-092X 1471-1257 |
DOI: | 10.1016/j.solener.2021.04.008 |