Abstract
The effects of greenhouse vent configurations, plant existence, and external wind speeds on ventilation rates andairflow patterns in a greenhouse and plant canopy zone under wind-induced ventilation were investigated. The optimizationof traditional vent configuration for a two-span glasshouse for better air renewal, especially in the plant canopy zone, wasattempted by three-dimensional numerical simulations using a computational fluid dynamics (CFD) approach. The realizablek-. model was used for a turbulent model, and the existence of the plants in the greenhouse was modeled by a porous mediummethod. Prior to the optimization, the CFD model was verified with the results of an experimental study of natural ventilation.The CFD model adequately matched those results. The ventilation rates, both in the greenhouse and in the plant canopy zone,were proportional to external wind speed. Maximum greenhouse ventilation rates were achieved when rollup type side ventswere used in the side walls and both side and roof vents were fully open (case 3). For example, the ventilation rate for thisvent configuration was 6.03 m3 m-2 min-1 at an external wind speed of 1.5 m s-1. The greenhouse ventilation rate for thisvent configuration was almost the same as when the butterfly-type side and roof vents were fully open (case 1). However, theuse of a rollup side vent considerably improved the ventilation rate in the plant canopy zone. This showed that ventilationin the plant canopy zone was significantly affected by internal airflow patterns caused by different vent configurations.
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