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Ammonia (NH3) losses from livestock slurry stores substantially contribute to agricultural emissions to the atmosphere. Gas release from slurry storage facilities is driven by interactions between store operations and meteorological conditions. This s...
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RISS 인기검색어
A novel approach to estimate the abatement of ammonia emissions from mitigation techniques at farm‐scale slurry stores exemplified by a semifloating cover
한글로보기https://www.riss.kr/link?id=O107729300
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2021년
-
작성언어
eng
-
Print ISSN
0047-2425
-
Online ISSN
1537-2537
-
등재정보
SCI;SCIE;SCOPUS
-
자료형태
학술저널
-
원정보자원
Journal of Environmental Quality
-
수록면
1074-1083 [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]
-
구독기관
- 전북대학교 중앙도서관
- 성균관대학교 중앙학술정보관
- 부산대학교 중앙도서관
- 전남대학교 중앙도서관
- 제주대학교 중앙도서관
- 중앙대학교 서울캠퍼스 중앙도서관
- 인천대학교 학산도서관
- 숙명여자대학교 중앙도서관
- 계명대학교 동산도서관
- 충남대학교 중앙도서관
- 한양대학교 백남학술정보관
- 이화여자대학교 중앙도서관
- 고려대학교 도서관
- ⓒ COPYRIGHT THE BRITISH LIBRARY BOARD: ALL RIGHT RESERVED
-
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부가정보
다국어 초록 (Multilingual Abstract)
Ammonia (NH3) losses from livestock slurry stores substantially contribute to agricultural emissions to the atmosphere. Gas release from slurry storage facilities is driven by interactions between store operations and meteorological conditions. This study quantifies the abating effect of an impermeable semifloating cover as an emission mitigation technique at a farm‐scale slurry storage tank. Emissions were measured over 1 yr and compared with the preceding 2 yr of measurements with the uncovered tank. In this novel approach, emission data were aggregated to categories within 1 h measuring intervals according to five key factors influencing emissions (time span after agitation and tank‐filling level as surrogates for natural crust occurrence; the meteorological parameters precipitation, air temperature, and wind speed) for the two consecutive measurement campaigns with and without the cover. The emission abatement effect of the cover was determined by emission modeling of the entire measuring campaign based on measuring intervals of the uncovered and the covered tank where the aggregated categories of influencing factors were equal. The resulting average emission abatement was 48%. An average abatement of 37 and 54% was achieved during periods with and without a surface crust, respectively. The emission reduction was less with low tank filling level due to higher air exchange through openings of the cover. The presented approach is applicable to evaluate emission mitigation techniques for single farm‐scale stores. With adequate measurement duration, it is appropriate to produce reliable emission data reflecting the complex interactions between emissions and influencing factors occurring at real‐world storage facilities.
New approach evaluates the emission abatement effect of store covers at farm scale.
Overall mean NH3 emission reduction of a semifloating cover with a central opening was 48%.
Mean NH3 emission abatement was 54% during periods without a crusted slurry surface.
Mean NH3 emission reduction of 37% was achieved for periods with a crusted slurry surface.
A lower emission abatement occurred with a low tank filling level due to a higher air exchange.
New approach evaluates the emission abatement effect of store covers at farm scale.
Overall mean NH3 emission reduction of a semifloating cover with a central opening was 48%.
Mean NH3 emission abatement was 54% during periods without a crusted slurry surface.
Mean NH3 emission reduction of 37% was achieved for periods with a crusted slurry surface.
A lower emission abatement occurred with a low tank filling level due to a higher air exchange.
Ammonia (NH3) losses from livestock slurry stores substantially contribute to agricultural emissions to the atmosphere. Gas release from slurry storage facilities is driven by interactions between store operations and meteorological conditions. This study quantifies the abating effect of an impermeable semifloating cover as an emission mitigation technique at a farm‐scale slurry storage tank. Emissions were measured over 1 yr and compared with the preceding 2 yr of measurements with the uncovered tank. In this novel approach, emission data were aggregated to categories within 1 h measuring intervals according to five key factors influencing emissions (time span after agitation and tank‐filling level as surrogates for natural crust occurrence; the meteorological parameters precipitation, air temperature, and wind speed) for the two consecutive measurement campaigns with and without the cover. The emission abatement effect of the cover was determined by emission modeling of the entire measuring campaign based on measuring intervals of the uncovered and the covered tank where the aggregated categories of influencing factors were equal. The resulting average emission abatement was 48%. An average abatement of 37 and 54% was achieved during periods with and without a surface crust, respectively. The emission reduction was less with low tank filling level due to higher air exchange through openings of the cover. The presented approach is applicable to evaluate emission mitigation techniques for single farm‐scale stores. With adequate measurement duration, it is appropriate to produce reliable emission data reflecting the complex interactions between emissions and influencing factors occurring at real‐world storage facilities.
New approach evaluates the emission abatement effect of store covers at farm scale.
Overall mean NH3 emission reduction of a semifloating cover with a central opening was 48%.
Mean NH3 emission abatement was 54% during periods without a crusted slurry surface.
Mean NH3 emission reduction of 37% was achieved for periods with a crusted slurry surface.
A lower emission abatement occurred with a low tank filling level due to a higher air exchange.
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