Abstract
Airflow inside naturally ventilated dairy (NVD) buildings is highly variable and difficult to understand due to the lack of precious measuring techniques with the existing methods. Computational fluid dynamics (CFD) was applied to investigate the effect of different seasonal opening combinations of an NVD building on airflow patterns and airflow rate inside the NVD building as an alternative to full scale and scale model experiments. ANSYS 2019R2 was used for creating model geometry, meshing, and simulation. Eight ventilation opening combinations and 10 different reference air velocities were used for the series of simulation. The data measured in a large boundary layer wind tunnel using a 1:100 scale model of the NVD building was used for CFD model validation. The results show that CFD using standard k-ε turbulence model was capable of simulating airflow in and outside of the NVD building. Airflow patterns were different for different opening scenarios at the same external wind speed, which may affect cow comfort and gaseous emissions. Guiding inlet air by controlling openings may ensure animal comfort and minimize emissions. Non-isothermal and transient simulations of NVD buildings should be carried out for better understanding of airflow patterns.
Highlights
Air exchange in livestock buildings is very essential for creating a comfortable environment with satisfactory indoor air quality
Even though there were small discrepancies between the experiment and the simulation, the results indicated that the Computational fluid dynamics (CFD) model is feasible for modeling airflow characteristics in the naturally ventilated building as airflow in and outside the scale model followed similar trends in simulation as boundary layer wind tunnel (BLWT) experimental results
Different airflow patterns were observed for different opening scenarios at the same reference wind speed (Uref = 4.41 m·s−1 ) which correspondence to inlet velocity 8 m·s−1
Summary
Air exchange in livestock buildings is very essential for creating a comfortable environment with satisfactory indoor air quality. Ventilation air is a medium of transporting pollutants (i.e., gas, odor, and dust) from livestock buildings [1] which adversely affect animals, workers, neighbors, and the environment [2]. It is essential to have suitable tools to understand airflow characteristics and predict ventilation performance in buildings for regulating the indoor air parameters and controlling emissions. The natural ventilation system with large side wall openings and a roof opening is commonly used in dairy cow barns of temperate climate regions [3].
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