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半阶梯式笼养蛋种鸡舍冬季日间空气污染物排放特征
引用本文:李宗刚,李保明,郑炜超.半阶梯式笼养蛋种鸡舍冬季日间空气污染物排放特征[J].农业工程学报,2017,33(13):220-226.
作者姓名:李宗刚  李保明  郑炜超
作者单位:中国农业大学水利与土木工程学院,农业部设施农业工程重点实验室,北京市畜禽健康养殖工程技术研究中心,北京 100083
基金项目:国家自然科学基金(31372350);北京市自然科学基金(6154029);国家现代农业(蛋鸡)产业技术体系项目(CARS-41-K20)
摘    要:蛋鸡舍空气颗粒物、空气微生物和氨气等污染物的排放不但影响场区生物安全,更会造成环境污染问题。该文采用直线多点均匀采样新型系统,对北京地区某半阶梯式笼养蛋种鸡舍冬季空气颗粒物、微生物和氨气3种污染物的日间排放进行监测和分析,研究半阶梯式笼养蛋种鸡舍冬季日间空气污染物排放特征。结果表明,该蛋种鸡舍试验期间舍内温度保持在18.0~20.0℃;间歇性通风条件下,风机的开启时长和舍外温度具有正相关关系(P0.05,R2=0.883 7);在冬季8:00-18:00期间,空气颗粒物的排放质量浓度为0.5~0.8 mg/m~3,每只鸡排放量为1.0~1.5 mg/h;空气微生物的排放浓度为4.0~4.5 log10CFU/m~3,每只鸡排放量为4.3~4.8 log10 CFU/h;氨气排放浓度为7.6~14.3 mg/m~3,每只鸡排放量为8.1~13.7 mg/h。试验期间,舍外温度低于舍内温度,试验鸡舍通风量及波动范围小,空气颗粒物、空气微生物和氨气的排放浓度、排放量与舍外温度、通风量、舍内相对湿度之间均未发现相关关系(P0.05)。该研究结果可为中国蛋鸡舍空气污染物排放特征提供参考。

关 键 词:污染  排放控制  微生物  蛋种鸡舍  空气颗粒物  氨气
收稿时间:2016/11/22 0:00:00
修稿时间:2017/6/16 0:00:00

Characters of airborne contaminants emission from half stair-step cage breeding hen house during winter daytime
Li Zonggang,Li Baoming and Zheng Weichao.Characters of airborne contaminants emission from half stair-step cage breeding hen house during winter daytime[J].Transactions of the Chinese Society of Agricultural Engineering,2017,33(13):220-226.
Authors:Li Zonggang  Li Baoming and Zheng Weichao
Affiliation:College of Water Resource and Civil Engineer, China Agricultural University; Key Laboratory of Agricultural Engineering in Structure and Environment, Ministry of Agriculture; Beijing Engineering Research Center for Animal Health Environment, Beijing 100083, China,College of Water Resource and Civil Engineer, China Agricultural University; Key Laboratory of Agricultural Engineering in Structure and Environment, Ministry of Agriculture; Beijing Engineering Research Center for Animal Health Environment, Beijing 100083, China and College of Water Resource and Civil Engineer, China Agricultural University; Key Laboratory of Agricultural Engineering in Structure and Environment, Ministry of Agriculture; Beijing Engineering Research Center for Animal Health Environment, Beijing 100083, China
Abstract:Abstract: Environment and disease problems have negative effects on the development of egg industry. Airborne particles, airborne microorganisms and ammonia are the main contaminants emitted from laying hen houses. These air contaminants emitted from animal buildings may harm the environment and public health. PM2.5 can deposit in human lung, causing respiratory responses. It increases the risk of Asthma, vascular inflammation, lung cancer and heart disease. Airborne microorganisms with airborne particles as the carrier can cause cross disease infection of birds, threatening the biosecurity of the farm. Ammonia may harm the health of workers and birds, and reduce the animal production performance. In this research, the emission of airborne particles, airborne microorganisms and ammonia emitted from a breeding hen house were monitored in the winter daytime in Beijing, China. Approximate 14,000 layer breeding hens (32 week-old at the start of the experiment) and 400 adult male chickens were confined in 3 stair-step cages in the tunnel-ventilated house. During the experiment, fresh air was pulled in through 38 air inlets, evenly distributed along the sidewalls, and only one of the six exhaust fans (the experimental fan) was operated intermittently on a thermostat to control indoor air temperature. A new sampling system for airborne particles, airborne microorganisms and ammonia was designed, respectively. The airborne particles sampling system consists of a PVC sampling manifold, a glass fiber membrane, a drying tube, a flow meter and a vacuum pump. The ammonia sampling system consists of a PVC sampling manifold, an air washing bottle with boric acid solution, a drying tube, a flow meter and a vacuum pump. The airborne microorganisms sampling system consists of a PVC sampling manifold, an airborne microorganism sampler and a vacuum pump. The study was carried out in the winter daytime using these sampling systems. Average airborne particle and ammonia concentrations at the outlet sampling location were measured from 8:00-18:00 on each sampling day. Airborne microorganism concentration was sampled at the outlet location on each sampling day. Starting time were 8:00 and 13:00 (twice, 30 min for each time). In the experiment period, the temperature and humidity inside and outside the laying hen house were tested and recorded. Ventilation rate was calculated by the static pressure difference and the fan performance curve supplied by the manufacturer. The results showed that:1) In the winter, the breeding hen house in Beijing conducted intermittent ventilation. The ventilation rate per hen and the ambient temperature showed positive correlation (P<0.05, R2=0.8837).2) The air temperature in the laying hen house in the winter was controlled between 18.0 and 20.0 oC. In the experiment period, the emission concentration of airborne particles was between 0.5 and 0.8 mg/m3, averaging 0.7±0.1 mg/m3. The emission rate was between 1.0 and 1.5 mg/h per hen, averaging 1.2±0.2 mg/h. The emission concentration of airborne microorganism was between 4.0 and 4.5 log10 CFU/m3, averaging 4.2±0.1 log10 CFU/m3. The emission rate was between 4.3 and 4.8 log10 CFU/h per hen averaging 4.5±0.1 log10 CFU/h. The emission concentration of ammonia was between 7.6 and 14.3 mg/m3, averaging 10.8±2.3 mg/m3. The emission rate was between 8.1 and 13.7 mg/h per hen, averaging 11.1±1.9 mg/h. Ammonia emission rate of this house was higher than that of layer hen houses with manure belt, but lower than that of high rise layer hen houses. In the experiment period, the ambient temperature was lower than indoor temperature. The ambient temperature and the ventilation rate showed small fluctuation. No correlativity was found between air contaminants emission concentration, emission rate and ambient temperature, ventilation rate, and indoor relative humidity. The results provided basic data and theoretical basis for the air contaminants emission from layer hen houses in China.
Keywords:pollution  emission control  microorganisms  breeding hen house  airborne particle  ammonia
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