1.
The grouting reconstruction technique of lower confining bed can be used to control the water hazard from coal floor.
煤层底板含水层注浆改造技术可以彻底根治底板水害。
2.
NUMERICAL ANALYSIS OF PATHWAY FORMATION OF GROUNDWATER INRUSH FROM FAULTS IN COAL SEAM FLOOR
含断层煤层底板突水通道形成过程的仿真分析
3.
Water Prevention and Control Technology of Seam Mining Under Thin Floor Condition
薄层底板条件下煤层开采防治水技术
4.
ANALYSIS ON THE INFLUENCE OF FAULT STRUCTURE TO WATER-INRUSH FROM COAL FLOOR
断层构造对煤层底板突水的影响分析
5.
A consolidating technology of pouring starch into bottom board to cut off water in coal pitJiaozuo coal industry group Fang-Zhuang coal mine;
井下煤层隔水底板注浆堵水加固技术
6.
Base Water-bearing Stratum Hydrology Geological Feature Analysis of Taoyuan Coal Mine
桃园矿底部含水层水文地质特征分析
7.
Effect of roof aquifers on the coalbed methane well pattern productivity
顶板含水层对煤层气井网产能的影响
8.
Analytical Solution of Groundwater-Head Fluctuations in Coastal Aquifer System with Submarine Spring;
含海底泉的含水层系统中水头波动的解析解
9.
Combined ANN forecast of water-inrush from coal floor
煤层底板突水组合人工神经网络预测
10.
Study of Drainage for Limestone Water of Coal Floor Based on Visual Modflow
基于Visual Modflow煤层底板灰岩水疏放性研究
11.
Advancing Direction of Coal Mining Face Influenced to Mining Effect of Seam Floor with Fault
工作面推进方向对含断层底板采动效应的影响
12.
Analysis on permeability of key water isolated stratum under seam floor and under stress function
应力作用下煤层底板关键隔水层渗透性分析
13.
RESEARCH ON EFFECT OF FAULT DIP ON FAULT ACTIVATION AND WATER INRUSH OF COAL FLOOR
断层倾角对断层活化及底板突水的影响研究
14.
Many actors have influence on water inrush from the floor, of them the geological conditions of the floor are the most important.
底板突水与否取决于多方面影响,其中最重要的是煤层底板条件。
15.
PREDICTION OF QUANTITY OF WATER INRUSH FROM COAL SEAM FLOOR AND ITS REINFORCEMENT TECHNIQUE BY GROUTING
煤层底板突水水量预测及注浆改造技术
16.
Study on the Law of Dewater Settlement of Bottom Aquifer in Overburden;
深厚表土底部含水层疏排水沉降规律研究
17.
Numerical Analysis on Mining Effect of Floor with Faults-Influence of Fault's Dip Angle on Mining Effect
含断层底板采动效应数值分析——断层倾角对采动效应的影响
18.
Prediction Method Study on Water Inrush Through Coal Floor Based on Support Vector Machines;
基于支持向量机的煤层底板突水预测方法研究