Browse > Article

Estimation of Ammonia Flux and Emission Factor from the Cattle Housing of Fall and Winter  

Sa, Jae-Hwan (Environmental Research Center, Dongshin Unversity)
Jeon, Eui-Chan (Department of Earth and Environmental Sciences, Sejong University)
Publication Information
Journal of Environmental Impact Assessment / v.19, no.1, 2010 , pp. 1-13 More about this Journal
Abstract
Ammonia ($NH_3$) is an important pollutant that plays a key role in several air pollution problems. It can create odors and have negative impacts on animal and human health. The largest source contributing to Ammonia emission is the agricultural production, in particular animal operation, in Korea. The present study evaluated flux profiles of Ammonia emitted from the cattle housing using a dynamic flux chamber. We have developed the emission factor of Ammonia from the cow housing. Analysis of Ammonia flux variation was made with respect to manure surface temperature, pH, and ammonium concentration. Ammonia has been measured from calf and cattle housing between October and December in 2007. In the fall, average Ammonia flux from calf and cattle housing was estimated 1.342(${\pm}0.728$) and 1.323(${\pm}0.655$)mg/$m^2$/min, respectively. In the winter, average Ammonia flux was estimated 0.889(${\pm}0.362$)mg/$m^2$/min from the calf housing and 0.925(${\pm}0.511$)mg/$m^2$/min from the cattle housing. The correlation coefficient between Ammonia flux and ammonium concentration showed stronger relationship than the relationship between manure pH and temperature. In the fall, Ammonia emission factor from calf and cattle housing was estimated 4.46(${\pm}2.39$) and 6.03(${\pm}3.27$)kg-$NH_3$/animal/yr, respectively. In the winter, average Ammonia flux was estimated 2.88(${\pm}1.53$) from the calf housing and 4.24({$\pm}1.63$)kg-$NH_3$/animal/yr from the cattle housing.
Keywords
Ammonia; Indirect Greenhouse Gas; Animal Operation; Ammonia Flux; Ammonia Emission Factor;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
연도 인용수 순위
1 Roella P, A., and Aneja V. P., 2002. Characterization of ammonia emission from soils in the upper coastal plain North Carolina, Atmospheric Environment, 36, 1087-1097.   DOI   ScienceOn
2 Hales J. E., and Drewes D. R., 1979, Solubility of ammonia at low concentration, Atmospheric Environment, 13, 777-787.
3 Renard, J. J., Calidonna, S. E. and Henley, M. V., 2004, Fate of ammonia in the stmosphere-a review for applicability to hazardous releases, Journal of Hazardous Materials, B108, 29-60.
4 Olesen J. E. and Sommer, S. G., 1993, Modeling effects of wind speed and surface on ammonia volatilization from stored pig slurry, Atmospheric Environment, 27, 2567-2574.   DOI   ScienceOn
5 Battye, R. W., Overcash, C., and Fudge, S., 1994, Development and selection of ammonia emission factors, EPA Contract Number 68-D3-0034, Work Assign, 0-3, US EPA, Research Triangle Park, North Carolina.
6 Erisman J. W., Otjes A. H., Jongejan P. B. and Khlystov H. M., 2001, Instrument development and application in studies and monitoring of ambient ammonia, Atmos. Environ, 35, 1913-1922.   DOI   ScienceOn
7 EU EPA, 2005, EMEPCORINAIR emission inventory guidebook
8 Ni, J. Q., Heber, A, J., and Lim, T. T., 2000b, Ammonia emission from a large mechanically- ventilated swine building during warm weather, Journal of Environmental Quality, 29(3), 751-758.
9 Asman, W. A. H., 1992, Ammonia emissions in Europe: updated emission and emission variations, Report No. 228471008, National Institute of Public Health and Environmental Protection.
10 TEI, 1999, Model 17C Chemiluminescence NH3 analyzer instruction manual, Thermo Environmental Instruments Inc., Franklin, Massachusetts, P/N 7763, April.
11 Aneja V.P., Malik B. P., Tong Q., Kang D. and Overton. J. H., 2001, Measurement and modeling of ammonia emissions at waste treatment lagoon-atmospheric interface, Water Air and Soil Pollution, 1, 177-185.   DOI   ScienceOn
12 Arkinson H. L., 2003, Measurements, modeling, and analysis of ammonia flux from hog waste treatment technologies. Department of marine earth and atmospheric sciences, North Carolina State University, 52-53.
13 U.S. EPA, 1986, Measurement of gaseous emission rates from land surfaces using an emission isolation flux chamber user's guide, Contract No. 68-02-03389- WAl8.
14 U.S. EPA, 2002, Research and developmentreview of emission factors and methodologies to estimate ammonia emission from animal waste handling.
15 U.S. EPA, 2004, National emission inventory-Ammonia emission from animal husbandry operations (draft report).
16 U.S. EPA, 2004, Environmental technology verification report; Thermo electron corporation medel 17C ammonia analyzer.
17 Warmeck, P., 1988, Chemistry of the Narural Atmosphere, Academic Press, New York, 426-441.
18 국립환경과학원, 2005, 대기보전 정책수립 지원시스템(4차) 배출량 산정방법론, 188-196.
19 Arya S. P., 1988, lntroduction to micrometeorology, Academic Pree, Inc., New York, NY, 98-100.
20 강공언, 김낭송, 이현주, 2008. 익산지역에서 봄철비황산기간 중 입경별 대기먼지농도와 이온조성, 한국환경보건학회지, 34(4), 300-310.   과학기술학회마을
21 허종배, 김지현, 이용미, 서용석, 이승묵, 정장표, 2004, 서울시 대기 중 PM2.5와 그 이온성분의 분포특성, 한국대기환경학회 2004 춘계학술대회 논문집.
22 Steenvoorden, J. H., Bruins, W, J., Eerdt, M. M., Hoogeveen, M. W., Hoogervorst, N., Huijsmans, J. F. M., Leneman, H. Meer, H. G., Monteney, G. J. and Ruiter, F.J., 1999, Monitoring van mationale ammonia emission uit de landbouw, Reeks Milieuplanning 9, Dienst Landbouwkundig Onderzoek, DLO-Staring Centrum, Wagenigen, The Netherlands
23 Ni, Jiqin, 1999, Mechanistic models of ammonia release from liquid manure: a Review, Journal oj Agricultural Engineering Research, 72, 1-17.   DOI   ScienceOn
24 사재환, 윤석경, 노기환, 전의찬, 2008, 가스상 암모니아 측정을 위한 분석방법별 특성 연구, 한국대기환경학회지, 24(1), 43-54.   과학기술학회마을
25 사재환, 전의찬, 이상락, 노기환, 2007, 우사의 톱밥깔집 경과에 따른 암모니아 플럭스 특성, 한국대기환경학회 2007년 추계학술대회논문집, 429-430.
26 사재환, 전의찬, 정재학, 2006, 하수처리장에서의 암모니아 플럭스 산정을 위한 물질전달모형 개발, 한국대기환경학회지, 22(5), 701-712.   과학기술학회마을
27 유정균, 박호석, 홍원희, 박종기, 김종남, 2007, 암모니아수 흡수제를 이용한 이산화탄소 제거 공정에서 침전생성이 조업 영역에 미치는 영향, Korean Chem. Eng. Res. 45(3), 258-263
28 전의찬, 사재환, 박종호, 2005, 부유형챔버를 이용한 하수처리장에서의 암모니아 배출 특성 연구, 환경영향평가, 14(5), 263-273.
29 Adams. P. J ., Seinfeld. J. H., Koch, D., Mickley, L. and Jacob, D., 2001, General circulation model assessment of direct radiative forcing by the sulphate-nitrate-ammonium-water inorganic aerosol system, J. Geophys. Res. Atmos, 106, 1097-1111   DOI
30 Rose, A. J., 2003, Development of an ammonia emission protocol and preliminary emission factor for a central Texas dairy, Submitted to the office of graduate studies of Texas A&M university in partial fulfillment of the requirements for the degree of master of science, 72-73.
31 Irwin, J. G. and Williams M. L., 1988, Acid chemistry and transport, Environ. PoIlut. 50, 29-59.   DOI   ScienceOn
32 Ni, J. Q., Heber, A. J., Diehl, C. A. and Lim, T. T., 2000a, Ammonia, hydrogen sulphide and carbon dioxide from pig manure in under-floor deep pits, Journal of Agricultural Engineering Research, 77(1), 53-66.   DOI   ScienceOn
33 Sommer S, G., Olesen, J,E. and Christensen, B. T., 1991, Effects of temperature, wind speed and air humidity on ammonia volatilization from surface applied cattle slurry, Journal of Agricultural Science, 117, 91-100.   DOI   ScienceOn
34 NAP : Air emission from animal feeding operations, The national academies press, 2003.
35 lPCC, 2006, 2006 IPCC Guidelines for national greenhouse gas inventrories, Volume 1, General guidance and reorting, 7.1-7.5.
36 Mukhtar, S., Mutlu , A., Capareda, S. and Parnell, C. B., 2008, Seasonal and spatial variations of ammonia emission from an open-lot dairy operation, Journal of the Air and Waste Management Association, 58, 369-376.   DOI
37 Heber, A. J., Ni, J. Q., Lim, T. T., Diehl, C. A., Sutton, A. L., Duggirala, R. K., Haymore, B. L., Kelly, D. T. and Adamchuk, V. I., 2000, Effect of a manure additive on ammonia emission from swine finishing buildings , Transactions of the ASAE, 43(6), 1895- 1902.   DOI
38 Heber, A. J., Ni, J. Q., Haymore, B. L., Duggirala, R. K. and Keener, K. M., 2001 , Air quality and emission measurement methodology at swine finishing buildings, Transactions of the ASAE.