改善畜舍空气质素的干预措施评估。

IF 0.9 Q4 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
T Renée Anthony, Anthony Y Yang, Thomas M Peters
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引用次数: 7

摘要

本研究考察了工程控制的有效性,以减少在美国中西部的猪产房在冬季污染物浓度。在安装了1700 m3 h-1 (1000 cfm)循环通风系统,每小时提供5.4次换气后,在两个冬天对空气质量的变化进行了评估。该系统包括两种现成的粉尘控制系统之一,一种基于过滤,另一种基于旋风处理。第二项处理评估了在两个冬季测试期间安装新的排气加热器,以取代标准的无排气燃气加热器,从而减少了二氧化碳(CO2)。在试验室里一氧化碳和硫化氢的浓度可以忽略不计。尽管氨的浓度在每个冬季测试期间都有所增加,但这种增加与新循环通风系统增加的空气流动无关。通风系统显著降低了可吸入粉尘(过滤23%至44%,旋流器33%)和呼吸性粉尘(过滤32%,旋流器20%)的粉尘浓度,除使用旋流器的呼吸性粉尘外,其他所有粉尘浓度均显著降低(p 0.024) (p = 0.141)。过滤装置被推荐用于改善畜舍空气质量,因为它比旋风装置在减少呼吸性粉尘方面更有效。与无排气加热器(平均= 2480 ppm, SD = 160 ppm)相比,有排气加热器的二氧化碳浓度显著降低(平均= 1400 ppm, SD = 330 ppm)。在考虑了两个测试期间室外温度和动物住房的差异后,二氧化碳减少了940 ppm。现有技术显著降低粉尘和二氧化碳浓度的好处,证明了改善养猪场空气质量的有效控制选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessment of Interventions to Improve Air Quality in a Livestock Building.

Assessment of Interventions to Improve Air Quality in a Livestock Building.

Assessment of Interventions to Improve Air Quality in a Livestock Building.

This study examined the effectiveness of engineering controls to reduce contaminant concentrations in a swine farrowing room during winter in the U.S. Midwest. Over two winters, changes in air quality were evaluated following installation of a 1700 m3 h-1 (1000 cfm) recirculating ventilation system to provide 5.4 air exchanges per hour. This system incorporated one of two readily available dust control systems, one based on filtration and the other on cyclonic treatment. A second treatment evaluated reductions in carbon dioxide (CO2) associated with replacement of standard, unvented gas-fired heaters with new vented heaters, installed between the two winter test periods. The concentrations of carbon monoxide and hydrogen sulfide were negligible in the test room. Although concentrations of ammonia increased over each winter test period, the increase was unrelated to increased air movement from the new recirculating ventilation system. The dust concentrations were significantly reduced by the ventilation system for both inhalable dust (23% to 44% with filtration, 33% with cyclone) and respirable dust (32% with filtration, 20% with cyclone), significant (p 0.024) for all except respirable dust using the cyclone (p = 0.141). The filtration unit is recommended to improve livestock building air quality because it was more effective than the cyclone unit at reducing respirable dust. Carbon dioxide concentrations were significantly lower with vented heaters (mean = 1400 ppm, SD = 330 ppm) compared to unvented heaters (mean = 2480 ppm, SD = 160 ppm). A 940 ppm reduction in CO2 was attributed to the use of the vented heater, after accounting for differences in outdoor temperatures and animal housing over both test periods. The benefits of readily available technology to significantly reduce concentrations of dust and CO2 demonstrates useful control options to improve air quality in swine buildings.

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来源期刊
Journal of Agricultural Safety and Health
Journal of Agricultural Safety and Health PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
1.50
自引率
20.00%
发文量
10
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