1) odour concentration
恶臭浓度
2) odorousness
恶臭浓度,气味浓度
3) odor strength
恶臭强度
4) Ozone concentration
臭氧浓度
1.
Rapid determination of the Ozone concentration in water by indigo blue reagent;
靛蓝三磺酸法测定水中臭氧浓度的应用
2.
On-line test in Ozone concentration in intelligence for instruments;
智能臭氧浓度在线测试仪
3.
Influences of the meteorological factorson the ozone concentration near the ground;
气象因子对近地面层臭氧浓度的影响
5) concentration of ozone
臭氧浓度
1.
According to measuring precision,continuity,concentration of ozone and economy,the characteristics and befitting situation of the different methods are analyzed.
目前检测水中臭氧浓度的方法很多,为使检测方法的选择有章可循,详细论述了应用碘量法、比色法、紫外分光光度法、电位法和电量法检测水中臭氧浓度的原理和方法。
2.
The real time monitoring of the concentration of ozone in water is important to ensure the quality of water.
水中臭氧浓度的实时监测是保证水处理质量的关键,也是水处理工业自动化的重要环节。
3.
This article described the sterilization characters of ozone and how to control distributing uniformity of ozone gas during the using of freeze-dryer and to prevent the decline of concentration of ozone as well as to reached the time control of sterilization.
本文阐述了臭氧的灭菌特点,冻干机在使用过程中如何控制臭氧气体的分布均匀性,防止臭氧浓度的衰退,及达到灭菌的时间控制。
6) Odor concentration
臭气浓度
1.
This paper analyses odor concentration of wastewater before and after disposal in several typical ndustry by the method of triangle odor flaskes which is introduced from abroad.
本文根据国外引进的三点比较式烧瓶法,对天津市内几家典型企业内处理前后的废水进行了臭气浓度测试,为制定水的臭气浓度排放标准提供切实的数据基础。
2.
Changing regulation of odor concentration was achieved by continuously check odor pollutants in fixed time at selected points from village nearby boundary of landfill sites.
通过对填埋场周边村庄设置不同距离的监测点,在固定时间段对大气恶臭污染物进行连续监测发现:臭气浓度呈现昼夜规律性变化,在场界下风向一定范围内的村庄受到填埋场恶臭污染的影响明显。
3.
By analyzing the characteristics of odor concentration,the prediction theory and model for dimensionless odor concentration were proposed based on Gauss model for atmospheric diffusion.
文章分析了臭气浓度的特性,在高斯大气扩散模式的基础上研究提出了无量纲臭气浓度的预测理论及预测模式,分析阐明了预测结果所表达的物理意义并给出了应用实例,为解决环境影响评价领域无量纲臭气浓度的预测问题找到了可行的途径。
补充资料:大便恶臭
大便恶臭
大便恶臭 病证名。小儿消化不良症状之一。多伴体热多睡。因宿滞化热所致。治宜消食清热,用保和丸合龙胆泻肝汤。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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