Ammonia and Methane Emissions from Small Herd Cattle Buildings in a Cold Climate

47 Pages Posted: 23 May 2023

See all articles by Raphael Kubeba Tabase

Raphael Kubeba Tabase

affiliation not provided to SSRN

Geir Næss

affiliation not provided to SSRN

Yngve Larring

SINTEF Industry

Abstract

Ammonia and CH4 emission measurements that reflect local production conditions are required to track progress in national emission policies and verify emission factors. The findings can also be used to better understand key factors influencing emissions. This is especially important in Norway, which has long cold winters, and small cattle herds in mechanically ventilated buildings. However, until now, NH3 and CH4 emissions from Norwegian cattle buildings have not been reported in literature. Moreover, in other cold climates, NH3 and CH4 emissions are often taken from large dairy herds in naturally ventilated buildings, with less focus on suckler cows. The objectives were to assess indoor climate, report NH3 and CH4 emissions and examine the impact of climatic factors on NH3 and CH4 emissions in three small herd dairy and suckler cow buildings over three seasons. Three of the buildings had mechanical ventilation, while one was naturally ventilated. The suckler building had higher relative humidity (RH > 90%) and NH3 concentrations (> 25 ppm) due to lower minimum air change rate (1.2 h-1). The suckler building also had the highest NH3 emissions (2.04 g LU-1 h-1) followed by the mechanically ventilated dairy building (1.92 g LU-1 h-1) with the highest ventilation rate. These two buildings had the lowest stocking densities and floor areas. In contrast, the suckler building had the lowest CH4 emissions (6.8 - 10.7 g LU-1 h-1). Methane emissions from the dairy building with the supply-exhaust air mixing system (16.4 - 19.3 g LU-1 h-1) was higher than the other dairy buildings (11.7 - 13.8 g LU-1 h-1). Temperature influenced NH3 emissions however, the direction of association between temperature and NH3 emissions differed among buildings. Relationship between RH and NH3 emissions was positive, but the correlation coefficient (R2 = 0.67) was strongest in the building with the highest RH.

Keywords: Indoor climate, Air Quality, Gaseous emissions, Dairy cow building, Suckler cow building, Norway

Suggested Citation

Tabase, Raphael Kubeba and Næss, Geir and Larring, Yngve, Ammonia and Methane Emissions from Small Herd Cattle Buildings in a Cold Climate. Available at SSRN: https://ssrn.com/abstract=4457595 or http://dx.doi.org/10.2139/ssrn.4457595

Raphael Kubeba Tabase (Contact Author)

affiliation not provided to SSRN ( email )

No Address Available

Geir Næss

affiliation not provided to SSRN ( email )

No Address Available

Yngve Larring

SINTEF Industry ( email )

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