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- Title
Thermal Characteristics Simulation of an Energy-Conserving Facade: Water Flow Window.
- Authors
Lyu, Yuanli; Chen, Sihui; Liu, Can; Li, Jun; Li, Chunying; Su, Hua
- Abstract
In this paper, a 3D numerical simulation was completed to explore the thermal characteristics in a water flow window in-depth. CFD was used to carry out the analysis on top of successful validation. By changing the solar intensity, water supply temperature and velocity, the temperature distribution and flow field in the window cavity, as well as the water heat gain, were analyzed and compared. This is meaningful for improving the energy-conserving performance in building applications. Simulation results reveal that the variation of solar intensity and water supply temperature affects directly the temperature distribution and the water heat gain but has little impact on the overall velocity field. Local vortices are generated in the window cavity, and their formation and location are largely affected by the varied temperature rise in the water layer. The water heat gain increases and then decreases with the increase in water supply velocity. In addition, a large-enough water supply velocity can disorder the uniform upward flow. These are detrimental to effective thermal extraction. Therefore, in practical application, the vortex should be eliminated, and the flow velocity should be determined properly to maximize the water heat gain.
- Subjects
WATER temperature; GEOTHERMAL resources; WATER supply; TEMPERATURE distribution; FACADES; SOLAR cycle
- Publication
Sustainability (2071-1050), 2022, Vol 14, Issue 5, pN.PAG
- ISSN
2071-1050
- Publication type
Article
- DOI
10.3390/su14052737