The impact of sampling time on concentration of collected bacterium, fungus particles and mid-value diameter of particle number are studied by ANDERSEN bioparticle sampler in lab.
在室内用ANDERSEN生物粒子采样器进行了不同采样时间对采集空气细菌和真菌粒子浓度、粒数中值直径效果的研究。
The concentration obtained by laser monitoring as compared with that obtained by sampling analysis are quite agreeable.
激光监测浓度同采样分析浓度进行了比较,两个结果相当一致。
Methods CSF samples were collected by a serial sampling method. The concentration of MEP in the biological samples was measured by HPLC with fluorescence detector.
方法采用连续采集法收集脑脊液样品,用HPLC荧光检测器测定各生物样品中MEP的浓度。
The distribution of particle concentration in the cyclone tube was measured by isokinetic sampling method.
采用等动采样方法对旋风管内的颗粒浓度分布进行了系统测量。
Last, it can be seen that the calculated flow and concentration field are correct by the comparison with the calculated result of ANSYS and sampling mensuration in the tank.
最后通过和大型商业软件ANSYS以及该池的取样实测结果相比较、验证,可以看出本文计算出来的流场和浓度场是正确的。
By using isokinetic sampling method, the particle concentration distribution in the novel cyclone tube is measured and analyzed.
采用等动采样方法,对新型旋风管内的颗粒浓度场进行了测试与分析。
Based on the measurement of flow field, the particle concentration distribution in the PDC type cyclone tube was studied by isokinetic sampling method.
在流场测试的基础上,采用等动采样的原理,对PD C型旋风管内的颗粒浓度分布进行了全面系统地测试。
The high concentration SO2 sample was determined by the formaldehyde analysis, sampling with injector. Its precision, sampling, efficiency and stability of sample was studied.
对用注射器采样甲醛法测定高浓度so_2样气精密度、准确度、采样效率、样品的稳定性进行了研究。并应用于燃煤、燃油锅炉排气中SO_2浓度的测定。
The high concentration SO2 sample was determined by the formaldehyde analysis, sampling with injector. Its precision, sampling, efficiency and stability of sample was studied.
对用注射器采样甲醛法测定高浓度so_2样气精密度、准确度、采样效率、样品的稳定性进行了研究。并应用于燃煤、燃油锅炉排气中SO_2浓度的测定。
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