Abstract
With the rise in livestock production, the odour concentration emitted from livestock facilities has significantly increased. For this reason, odour complaints have become a major issue. The dispersion of the odour into the atmosphere is affected by various factors (wind speed, wind direction, atmospheric stability, terrain condition, ventilation type, and so on). Thus, a thorough analysis on the factor influencing odour dispersion is necessary to establish regulations and policies for odour management. Therefore, this research aimed to evaluate odour dispersion generated from a pig house with complex terrain using computational fluid dynamics (CFD) and to statistically determine the key factor for odour dispersion. By comparing CFD-computed results with field-measured data, an appropriate grid size, time step, and turbulence model of the CFD model were determined. Considering various factors, case studies were performed using the validated CFD model. The CFD-computed results showed that odour dispersion distance at the level of 1 OU m−3 ranged from 129.7 to 1488.1 m. The prediction of odour dispersion distance varies with the change of factor being analysed. Finally, the statistical analysis showed that the most influential factor that affected odour dispersion distance was the wind speed with a t-value: −9.057.
Highlights
Pig production in the Republic of Korea accounts for 40% of the total livestock industry (USD 1.8 billion) in the country [1]
The result of the prevailing wind direction was greatly influenced by the topographical location of the pig houses as the selected farm was surrounded by hills along the eastern and western parts
The atmospheric stability during the conduct of the field experiment was generally stable with a temperature ranging from
Summary
Pig production in the Republic of Korea accounts for 40% of the total livestock industry (USD 1.8 billion) in the country [1]. Most studies mainly evaluated the efficiency of additives (chemical and biological methods) or abatement facilities (biofilters, liquid manure recharging systems, and so on) to reduce livestock odours [7,8,9,10,11,12,13,14,15]. These field experiment studies usually measured and evaluated single odorous gas such as ammonia (NH3 ), hydrogen sulphide (H2 S), methane (CH4 ), and carbon dioxide (CO2 ). The odour causing a nuisance to the nearby community tends to be caused by a combination of two or more substances rather than a single substance
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