1) gas overflowing
瓦斯溢出
2) gas migration and emission
瓦斯迁移与溢出
3) gas emission
瓦斯涌出
1.
Forecasting of Gas Emissions Based on GM(1,1) and Realizing It by Computer;
基于GM(1,1)模型的瓦斯涌出量预测及其计算机实现
2.
Relationship between selection of coal mining technology and prevention of gas emission and coal spontaneous combustion;
回采技术选择与瓦斯涌出及煤自燃防治关系
3.
The preventive measure for the gas emission and law;
瓦斯涌出规律及综合防治措施
4) gas gush
瓦斯涌出
1.
Research on determination of chaotic characteristics of gas gush based on time series in excavation working face of coal mine;
矿井掘进工作面瓦斯涌出混沌特性判别研究
2.
Complexity and measurement of complex degree of gas gush in heading faces of coal mine;
回采工作面瓦斯涌出的复杂性及其度量
3.
Aimed at the gas gush change law of every construction craft in the blasting driving face,the appropriate measure is adopted for gas comprehensive management.
针对炮掘工作面各施工工艺瓦斯涌出的变化规律,采取了相应的应对措施进行综合治理,取得了良好的效果,为掘进面的安全掘进提供了有力支撑。
5) gas outburst
瓦斯突出
1.
Relationship between mining seismicity and gas outburst in coal mine——Some scientific questions of mining safety;
矿山地震、瓦斯突出、煤岩体破裂——煤矿安全中的科学问题
2.
Countermeasures and Influence of Geological Structure on Gas Outburst in GaochengCoal Mine;
地质构造对告成矿瓦斯突出的影响及对策
3.
Analysis on factors of coal and gas outburst in Hebi Mining Area;
鹤壁矿区煤与瓦斯突出因素分析
6) gas discharge
瓦斯涌出
1.
The gas discharge volume of Daxing Coal Mine Sv712 fully mechanized face during working time had reached 120 m3/min.
大兴煤矿Sv712综采工作面回采期间绝对瓦斯涌出量曾高达120m3/min,通过分析回采期间瓦斯的来源,采取回顺外错式平位尾巷内打钻、地面垂直钻孔、采空区埋管、顶板瓦斯道等抽放瓦斯方法,同时合理调整配风量等综合治理瓦斯措施,取得了较理想的效果。
2.
Excavation speed was often effected because of gas rapid discharging after firing gas discharge went beyond the limit,and hidden danger was formed.
严重突出地区煤巷掘进,采取超前排放钻孔等防突措施后,掘进期间瓦斯涌出量大、易超限,影响掘进速度和施工安全。
补充资料:高光溢出
高光溢出(blooming)
数码相机传感器上的象素负责收集光子,并通过光电二极管把光子转化成电荷,继而通过一系列处理,形成图像。一旦接收光子的“桶”(bucket)满载,由额外光子转化成的电荷便会溢出,并且这种溢出对象素值是没有影响的,因此会导致象素值的感光不足或感光过度。当电荷溢出至其旁边的象素,使旁边的象素在处理光子过程中感光过度(例如描述天空的明亮的象素有电荷溢出,使树叶或树枝边缘的较暗的象素感光过度),这时候就是“高光溢出”。高光溢出不仅会使画面损失细节,而且增加了紫边出现的机会。
一些传感器带有“高光溢出保护”(anti-blooming gates)功能,吸收溢出的电荷,减少溢出电荷对附近象素的滋扰。这种功能基本能抑止高光溢出,除非照片光暗对比非常强烈或由于人为原因造成照片严重过曝。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条