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http://dx.doi.org/10.15269/JKSOEH.2019.29.4.442

Literature review of the Reduction of Hydrogen Sulfide and Ammonia in Livestock Pen: Comparison between Korean and Chinese cases  

Yan, Ding (Department of Industrial Health, Catholic University of Pusan)
Moon, Chan-Seok (Department of Industrial Health, Catholic University of Pusan)
Publication Information
Journal of Korean Society of Occupational and Environmental Hygiene / v.29, no.4, 2019 , pp. 442-451 More about this Journal
Abstract
Objectives: The aim of this study was to review the reduction methods for ammonia (NH3) and hydrogen sulfide (H2S) exposure in livestock. Methods: By reviewing domestic and international research reports from Korea and China, reducing ammonia and hydrogen sulfide in livestock pens was analyzed in terms of ventilation, deodorant, and feed additives. In addition, exposure limits in Korea and China were examined through a comparison between 'TLV-TWA and STEL under the Industrial Safety and Health Act in Korea' and 'Management Standards for Air of Livestock Pens in China'. Results and Discussion: In order to effectively control hazardous gases and odors in livestock pens, the enhancement of natural ventilation or the addition of ventilation fans at the pollution source are being examined. Deodorants are used as adsorbents or masking deodorants. Additives to feed were zeolite powder, FeSO4·7H2O, enzymes, and microbial preparations. Use of feed additives was low-cost and had significant effects compared to other methods. Zeolite was the most commonly used in feed additive in Chinese cases and proved to be low-cost and effective for reducing harmful gases. Enzyme preparations were shown to stimulate the growth of livestock, but were expensive. Conclusions: This study reviewed and examined domestic and international research papers in Korea and China for reducing ammonia and hydrogen sulfide concentrations in livestock pens. More diverse research and the development of feed additives are needed.
Keywords
Livestock pen; ammonia; hydrogen sulfide; zeolite; reduction;
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1 Baidu. Available from: URL: https://wk.baidu.com/?pcf=2
2 Chang CW, Chung H, Huang CF, and Su HJJ. Exposure assessment to airborne endotoxin, dust, ammonia, hydrogen sulfide and carbon dioxide in open style swine house. Ann Occuo Hyg. 2001;45:457-465   DOI
3 Cho J-P, Kang JH, Song JH. Effects of Influent Concentrations on Mass Transfer Coefficients for the Removal of Hydrogen Sulfide and Ammonia in Biogas using a Wet Scrubber. Proceedings of the 2018 Spring Conference of the Korea Society of Waste Management. 2018. P.158
4 Cnki. Available from: URL: https://www.cnki.net
5 CQVIP. Available from: URL: http://www.cqvip.com
6 Dachaine C, Grimard Y, Cormier Y. Influence of building maintenance, environmental factors and seasons on air borne contaminants of swine confinement buildings. Am Ind Hyg Assoc J 2000;61:56-63   DOI
7 Dai XR, Ni J, Pan Q, Wang QN, Albert JH. Monitoring of Temperature, Humidity and Air Quality inside Pig Weaner House in Eastern China. Trans Chinese Soc Agri Machin 2016;47(7):315-322.
8 WANFANG DATA. Available from: URL: http://www.wanfangdata.com.cn/index.html
9 Ouyang HF. Study on Detection and Control Technology of Air Environment Quality in Closed Sheep Houses in Winter in Xinjiang. Xinjiang Agricultural University. 2008
10 Song IJ. The Development Process of Korean Livestock Industry : The World-Historical Origin of Structural Ecological Problems. ECO 2018;22(2):225-266
11 Wu QL, Jin LM, Zhou LL, Xiang M, Ding JJ, Liu HM. Study on the Air Quality Inside and Outside the Scaled Pig Farm. China Animal Husban Veterin Med 2012;39(11):220-224
12 Wu WH. A study on piggery environmental monitoring and control system based on internet of things. Hangzhou Zhejiang University 2014
13 Wu WT, Zhai J. Evaluation of methods for determining air exchange rate in a naturally ventilated daily cattle building with large opening using computational fluid dynamics (CFD). Atmos Environ 2012;63:179-188   DOI
14 Xie SG, He MY, Tang JY, Zhang YZ, Zhang YD. Analysis of harmful gases in cattle, pig and chicken house in plastic greenhouse. Gansu animal husbandry and veterinary 1991;(6): 7-8
15 Ying HC, Huang DD, Wang KY. Animal husbandry Greenhouse gas detection methods and techniques. Livestock ecology 2011;10(47):56-63
16 Yu LH and Liu JC. The influence and control of air quality in pig house in winter in North China. Modern animal husbandry technology Issue 6 2016:31
17 Donhem and Popendorf. Relationship of airborne endotoxin and bacteria levels in pig farms with the lung function and respiratory symptoms of farmers. 1985
18 Zhang YH, Yuan Z, Peng X, Wang H. $FeSO4{\cdot}7H2O$ of zeolite on laying performance of laying hens. animals breeding and feed 2015;7:34-18
19 Ding Y. Comparing indoor air quality in Chinese and Korean farms. Thesis of Master Course in Graduate School of Catholic University of Pusan. 2019
20 Ding Y. Environmental Impact Assessment of Sheep Houses and Analysis of the Amount of Manure on Sheep Farm in Inner Mongolia. Inner Mongolia Agricultural University 2016
21 Feng F, Li YS, Liu YY, Chen W, Wang Y,et al. Analysis on Environmental Pollution of Typical Scale Aquaculture Farms in Haikou City, Acta Ecologiae Animails Domaistici 2014;35(11):45-51
22 Gao L, Bai Z J, Feng B, Han Y K, Sun J D, Research and application progress of microbial feed additives. Journal of Microbiology 2014;2:1
23 Gao Lin, Baizijin, Feng Bo, et al. Progress in research and application of microbial feed additives [J]. Journal of Microbiology, 2014a, 34(2): 1-5.   DOI
24 Jeon E-C, Song MJ, Sa JH. Removal Characteristics of H2S in a Bioscrubber Proceedings of the 1998 Conference of the Korean Society for Atmospheric Environment. 1998, 143-145.
25 Gao SS, Deng BL, Liu W, Wang CM, Shi WQ, He HX. Emission concentration of methane and nitrous oxide in fattening pig house, Swine Science 2011;12:80-82
26 HighWire. Available from: URL: http://home.highwire.org/
27 Hong N, Yang SG, Ze RDK, Wang Y, Wen YL et al. Tesing of air quality of inner houses for Jianyang Da'er Goat in summer. Journal of Southwest University for Nationalities. Natural Science Edition 2014;40(5):663-667
28 Kim KY, Choi JH, Distribution characteristics of odorous compounds concentrations according to type of pig buildings J. Korean Soc. Odor Res. Eng. 2013 Vol.12, No.1: 27-37   DOI
29 Kim KY, Choi JH, Kim DK. Temporal Distribution Characteristics of Indoor Concentrations of Odorous Compounds according to Poultry Buildings. J Korean Soc. Indoor Environ 2013;10(2):69-82   DOI
30 Kim KY, Choi JH, Kim DK Temporal Distribution Characteristics of Indoor Concentrations of Odorous Compounds according to Poultry Buildings J. Korean Soc. Indoor Environ. 2013 Vol. 10, No.2, pp.69-82   DOI
31 Kim KY, Ko HJ, On-site Investigation of Distribution Characteristics ofOdorous Compounds Emitted from Poultry Buildings Korean Journal of Odor Research and Engineering 2012 Vol.11, No.3, 105-111
32 Kim KY, Choi JH, Seo SC. Effect of General V entilation Rate on Concentrations of Gaseous Pollutants Emitted from Enclosed Pig Building Journal of Korean Society of Occupational and Environmental Hygiene, 2014:24(1): 46-51   DOI
33 Kim KY, Ko HJ, Kim HT. Comparison of Seasonal Concentration of Ammonia and Hydrogen Sulfide in Swine House according to Pig's Growth Stage Journal of Agriculture & Life Science 2011 46(2) pp.163-168
34 Kim KY, Ko HJ, Kim HT. Kim DK. Kim YS. Concentration Characteristics of Ammonia and Hydrogen Sulfide Emitted Form Domestic Types of Chicken Buildings. Korean Indoor Environment Painting Paper 2011 7(4); 216-223
35 Kim KY, Park JB, Kim CN, Lee KJ. Field Study of Emission Characteristics of Ammonia and Hydrogen Sulfide by Pig Building Type. J Korean Soc Occup Environ Hyg 2006;16(1):36-43
36 Kim KY, Seo SC, Choi JH. Effect of General Ventilation Rate on Concentrations of Gaseous Pollutants Emitted from Enclosed Pig Building. J Korean Soc Occup Environ Hyg 2014;24(1):46-51   DOI
37 Kim KY, Song JM, Ko HJ, Kim YJ. A Field Survey of Indoor Odorous Compounds Emitted from Pig Buildings Journal of Korean Society for Indoor Environment 2012 Vol. 9, No.2, pp135-145
38 Kim KY. On-site Investigation of Distribution Characteristics of Odorous Compounds Emitted from Poultry buildings. Korean J Odor Res Eng 2012;11(3):105-111
39 Kim KY. Distribution of Concentration and Emission of Dust according to Types of Poultry Buildings in KoreaJ Environ Health Sci. 2017; 43(3): 185-193
40 Kim KY. Field Study of Emission Characteristics of Ammonia and Hydrogen Sulfide by Pig Building Types J Korean Soc Occup Environ Hyg 2006;16(1):36-43
41 Ko YJ, Kim KY, Ko HJ, A Field Survey of Indoor Odorous Compounds Emitted from Pig Buildings Journal of Korean Society for Indoor Environment 2012 Vol. 9, No.2, pp135-145
42 KREI. A Study on Farm Animal Welfare and Policy Roadmap for Korea. KREI Report R618. 2010
43 Lee JW, Kim TH, Ha HC, Piao CX, Ahn K. Analysis of Suffocating Accidents in Confined Spacesin the Past 10 Years (2005-2015). J Korean Soc Occup Environ Hyg 2016;26(4):436-444   DOI
44 Li C, Zhang XH, Yao G, Yang DS, Wu CC, et al Determination and Evaluation on the Ambient Air Quality of Beef Cattle Cowshed in Early Winter of Aksu, Xinjiang. Animal Husbandry and Feed Science 2013;34(4):9-12
45 Ma Y, Qingzhou Boner pasture items of basic construction environmental effect evaluation study. Ocean University of China 2011
46 Mei W, Comparative Study on the Environmental Indices in Beef Cattle Farms in the North and South of Xinjiang between Summer and Winter Time. Xinjiang Agricultural University 2015
47 Kim KY. A Study on the Modeling of Atmosphere Diffusion for Stinky Substances J. of Advaned Eriexring and Tochnologey Vol, 4 No.3 (20ll)pp. 273-281
48 Ni JQ, Heber AJ. Sampling and measurement of ammonia at animal facilities. Advan Agron 2008;98:201-269   DOI
49 OALib. Available from: URL: http://www.oalib.com/