inhalable particles

Purification of inhalable particles is one of worldwide hot issues .

可吸入颗粒物的净化是当今世界范围内的一个热点问题。

Generation characteristics of inhalable particles of free falling powder materials

物料下落过程中可吸入颗粒物产生特性及控制技术

Analysis of spatial and temporal distribution of inhalable particles in the city atmosphere

城市大气可吸入颗粒物的时空分布分析

Field Emission Scanning Electron Microscope Study of Inhalable Particles in Beijing Ambient Air

利用场发射扫描电镜对北京市大气可吸入颗粒物的研究

Study on the Mass Concentration of Atmospheric Inhalable Particles in Yinchuan

银川市大气可吸入颗粒物质量浓度特征研究

The Influence Of The Meteorological Condition On The Inhalable Particles

气象条件对可吸入颗粒物浓度的影响

The Main Meteorological Factor Influences the Law Discussion to the Density of the Inhalable Particles

主要气象因素对可吸入颗粒物浓度影响规律探讨

Research on the Characteristics of the Chemical Components of the Inhalable Particles in Highway Tunnels

公路隧道中可吸入颗粒物化学组分特征研究

Study on the Influence of Coal Granule Size on Emission of Inhalable Particles During Combustion

煤粉粒径对燃烧过程中可吸入颗粒物排放特性的影响

Size distribution of airborne inhalable particles in northwestern urban Beijing during spring 2002

北京西北城区2002年春季大气可吸入颗粒物的粒度分布特征

Experimental Study and Numerical Analysis of the Acoustic Agglomeration Effectiveness of Inhalable Particles of Burned Coal

燃煤可吸入颗粒物声波团聚效果的实验研究和数值分析

Mineralogical Study on Inhalable Particles during the Haze Period in Winter Beijing

北京市冬季霾天气可吸入颗粒物的矿物学研究

Development tendency and further work in source apportionment of inhalable particles is pointed out .

指出了可吸入颗粒物源解析方法的发展趋势和还需做的工作。

Impact of cleaning of air conditioning duct systems on indoor inhalable particles and microorganisms

空调风系统的清洗对室内可吸入颗粒物和微生物的影响

Mineralogy study of inhalable particles in environmental atmosphere

环境大气可吸入颗粒物的矿物学研究

Discovery of Anatase in Atmospheric Inhalable Particles and Its Significance

大气可吸入颗粒物中锐钛矿的发现及意义

The inhalable particles concentration level is an important inference factor for indoor air quality ( IAQ ) .

可吸入颗粒物浓度是影响室内空气品质的重要因素。

Research on Morphology and Distribution of Na and Fe in Inhalable Particles , Formed During Combustion of Coal

燃煤过程中元素Na和Fe在可吸入颗粒物中的形态与分布

Agglomeration of Inhalable Particles in Gas Jet

气体射流作用下燃煤可吸入颗粒的团聚

The influence of coal granule size on the emission characteristics of inhalable particles has been studied with a drop tube furnace .

采用沉降炉研究了煤粉粒径对可吸入颗粒物排放特性的影响。

Among the cities which exceed standard of the air quality , 68 % of them exist the problems of inhalable particles pollution .

我国空气质量超标的城市中，68%都存在可吸入颗粒物污染的问题。

Inhalable particles are one of the main atmospheric pollutants , which concentrates many hazardous substances and jeopardizes human health .

可吸入颗粒物是大气主要的污染物之一，富集多种有害物质，对环境和人体的健康造成严重的危害。

Source apportionment for inhalable particles ( pm_ ( 10 )) in Yinchuan

银川市可吸入颗粒物（PM（10））来源解析

Inhalable particles generation rate was decreased with the increase of mass flow , but dust concentration was increased with the increase of mass flow .

随着质量流量的增加，粉尘产生率逐渐减小，但质量流量的增加也会增加粉尘浓度，加重了对工人的危害。

Experimental results indicate that the employment of high gradient magnetic fields is an efficient new way of capturing inhalable particles originated form the combustion of coal .

试验表明，高梯度磁场捕集燃煤可吸入颗粒物是一种新型有效的方法。

Conclusion : Blowing current at room vent agitate the particulate matter in the room that lead an increase of inhalable particles ′ concentration .

结论：房间中可吸入颗粒物的浓度的增高是由于送风口的吹扫气流使得房间静止的颗粒物被吹扫搅起的结果。

The mass collection efficiency of traditional electrostatic precipitator ( ESP ) is up to 99 % , but right inhalable particles capture rate is relatively lower .

传统静电除尘器的质量除尘效率可达99%以上，但对可吸入颗粒物的捕获率相对较低。

One important effective method to deal with the inhalable particles is to agglomerate them into large ones , so that the conventional dust-removing equipments can gather them more efficiently .

可吸入颗粒物防治的一个重要方法是首先对其进行预处理，即使粒径较小颗粒团聚成为粒径较大的颗粒，然后再利用常规的除尘设备进行有效的清除。

The main reason for this is that the size of inhalable particles is too small , resulting in a poor charge capacity , so the electric field is difficult to capture them .

其主要原因是可吸入颗粒物的粒径太小，以致荷电量不足，难以在电场中被捕获。

There was a definite quantitative relation between inhalable particles ( PM_ 10 ) and the total suspended particulate substance ( TSP ) , and extremely good dependence ;

可吸入颗粒物（PM10）和总悬浮颗粒物（TSP）存在确定数量关系，两者有极好的相关性；