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  • 标题:Ammonia emissions and dry deposition in the vicinity of dairy farms
  • 本地全文:下载
  • 作者:Miloš Zapletal ; Pavel Mikuška
  • 期刊名称:ATMOSFERA
  • 印刷版ISSN:2395-8812
  • 出版年度:2019
  • 卷号:32
  • 期号:4
  • 页码:337-350
  • DOI:10.20937/ATM.2019.32.04.06
  • 出版社:Centro de Ciencias de la Atmósfera
  • 摘要:We conducted the first research in the Czech Republic to measure ventilation and ammonia (NH 3 ) emission rates in a naturally ventilated animal building (dairy farm) during a five-day measurement period in June, combined with a three-month (May-July) monitoring of NH 3 concentration and dry deposition at 12 locations along horizontal gradients from the dairy farm up to the distance of 400 m. Passive diffusion-tube samplers were used to measure monthly NH 3 concentrations. Moisture (H 2 O) balance was used to determine ventilation rates of the dairy farm. Continuous measurements of gas concentrations (NH 3 ), temperature and relative humidity inside and outside the building were performed. The air exchange rate was 4.8 h –1 and the emission rate was 43.2 NH 3 g cow –1 d –1 for building. The emission rate was 126% of what was obtained using emission factors from the Czech national inventory (34.2 g cow –1 d –1 ). NH 3 concentrations and dry deposition fluxes decreased exponentially with distance from the dairy farm. Between May and July, mean predicted dry deposition fluxes ranged from 0.28 to 0.03 µg NH 3 m –2 s –1 at a distance of 50 and 400 m from the source, respectively. Dry NH 3 deposition over the nearest 400 m from the source accounted for 11.5% of daily emissions. The results confirm the short-range dispersion of NH 3 emitted from a point source found in other studies, but it may not be the same in other situations, since dispersion of NH 3 is dependent on the surrounding land-cover and on the number of animals in a barn.
  • 关键词:emission rates; moisture (H2O) balance; ammonia; stomatal uptake; dry deposition; resistance model
  • 其他关键词:emission rates;moisture (H2O) balance;ammonia;stomatal uptake;dry deposition;resistance model
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