1.
Investigate on Influence of Gas Concentration on Gas Explosion Propagation
瓦斯浓度对瓦斯爆炸传播的影响研究
2.
Research on Related Technologies of Methane Concentration Second Harmonic Detection;
瓦斯浓度二次谐波检测相关技术研究
3.
Experiment research of gas density impacting on explosion propagation influence
瓦斯浓度对爆炸传播影响的实验研究
4.
Design of Wireless Monitoring System for Temperature and Gas Concentration of Coal Mine
煤矿温度和瓦斯浓度无线监测系统的设计
5.
Research & Realization of Coal Gas Concentration Collection System Based on the ZigBee Technology;
基于Zigbee的瓦斯浓度采集系统的研究与实现
6.
The Research of Filter Model Against Large-Number in the Coal Mine Safety Monitoring System;
煤矿安全监控瓦斯浓度的大数滤波器模型研究
7.
Design and Realization of Methane Concentration Detecting System Based on Tunable Diode Laser;
可调谐激光瓦斯浓度检测系统的设计与实现
8.
The Research of Gas Concentration Prediction Based on Chaotic Time Series
基于混沌时间序列的瓦斯浓度预测研究
9.
Model of early warning of mine gas concentration based on extreme statistics theory
基于极值统计理论的矿井瓦斯浓度预警模型
10.
Research on Concentration Detection in Mine Based on Spectra Analysis of CH_4 Molecular
CH_4分子光谱分析在井下瓦斯浓度监测中的研究
11.
The research of gas concentration forecast model based on the theory of extreme statistics
基于极值统计理论的瓦斯浓度预测模型研究
12.
Design and Realization of Emergency Wireless Gas Concentration Acquisition Front-end Based on VxWorks
基于VxWorks应急无线瓦斯浓度采集前端设计实现
13.
Analysis on Gas Content Distribution Law of 7601 Fully Mechanized Coal Mining Face in Wuyang Mine
五阳煤矿7601综放面瓦斯浓度分布规律分析
14.
The Intelligent Detecting and Early Warning System of the Gas Concentration by Infrared Device and PC Software Realization;
智能化红外瓦斯浓度检测预警系统与上位机的实现
15.
Research on Methane Concentration Harmonic Detection Technology in Coal Mines Based on Narrow-band Light Source
基于煤矿瓦斯浓度的窄带光源谐波检测技术研究
16.
Design of Gas Density Detector Based on Non-dispersive Infrared Spectrum Absorptive Fundamentals
基于非色散红外光谱吸收原理的瓦斯浓度检测仪设计
17.
A Study on Prediction of Coalmine Gas Concentration based on Comparisons between Gray System and Statistics
基于灰色理论和统计学比较的煤矿瓦斯浓度预测研究
18.
In this way, we can simulate the normal zero adjustment in air by taking down the data of “zero” at this time and compensate the following data with this “zero”.
通过这种方法模拟大气环境下的正常校零过程,并在以后瓦斯浓度的检测中加以补偿。