1)  gas concentration
瓦斯增浓
2)  methane
瓦斯
1.
Directional Drilling for Methane Drainage in Advance of Mining;
采前瓦斯抽放定向钻进技术
2.
Controlling measures of methane and coal dust and ventilation method in fully mechanized excavation face;
综掘工作面治理瓦斯煤尘通风方法的探索
3.
Integrated control technology for methane in mining faces;
回采工作面瓦斯综合治理技术
3)  coal gas
瓦斯
1.
The Analysis of Geological Factors to the Existence of Coal Gas in the Sunan Coal Mining Area and Xutuan Coal Field;
浅析宿南矿区和许疃井田瓦斯赋存的地质因素
2.
Dilution process of the coal gas in the laneway with pressured-injection ventilation and extracted methods had been analyzed comparatively.
本文对煤矿瓦斯治理中压入式与抽吸式通风方式对掘进面附近瓦斯浓度稀释规律进行了对比分析,主要考察两种通风方式对于瓦斯析出量出现变动的适应能力。
4)  mine gas
瓦斯
1.
Influence factors of mine gas hydrate formation in surfactant solution containing coal;
瓦斯水合物在含煤表面活性剂溶液中生成影响因素
2.
Design and practices on network system of wireless sensors for mine gas monitoring and measurement;
煤矿瓦斯监测无线传感器网络系统设计与实现
3.
Design on wireless sensor network for mine gas measurement;
煤矿瓦斯监测无线传感器网络系统设计
5)  gas
瓦斯
1.
Key issues of coal and gas co-mining in thick seam;
厚煤层煤与瓦斯共采的关键问题
2.
Theoretical research on propagation law of acoustic emission wave in coal seam containing gas;
含瓦斯煤体声发射应力波传播规律理论研究
3.
Prediction of gas emission time series based on W-RBF;
基于W-RBF的瓦斯时间序列预测方法
6)  gas concentration
瓦斯浓度
1.
Relation between the circle air and gas concentration;
循环风与瓦斯浓度的关系
2.
Forecast of coalmine gas concentration based on the immune neural network model;
基于免疫神经网络模型的瓦斯浓度智能预测
3.
The paper introduced composition,working principle,design of hardware and software of a monitoring system of gas concentration based on AT89C2051 single-chip microcomputer and VB6.
0的瓦斯浓度监测系统的组成、工作原理及硬件、软件设计方法。
参考词条
补充资料:增比比浓黏度
分子式:
CAS号:

性质:是增比黏度与溶液浓度的比值。增比黏度ηsp表示溶液黏度ηr较溶剂黏度η0增加的倍数,即ηsp=η-η00r-1(式中ηr=η/η0,称为相对黏度)。因为增比黏度的数值依赖于溶液的浓度c,所以表示溶液的黏度时必须有浓度的数据。表示单位浓度对溶液黏度的贡献,称为增比比浓黏度,即ηsp/C=(ηr-1)/c。单位为m1/g或d1/g。其数值随浓度的不同而改变。

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