中国煤矿员工文化程度及对安全的影响分析

我国煤矿员工文化程度低一直被看作是煤炭企业的安全生产的重要制约因素之一,而把事故归咎于矿工的文化水平也引起了广泛争议。本文通过广泛收集国内外相关文献信息,将我国煤矿员工与美国、加拿大和南非的煤矿员工及国内其他行业的员工文化程度进行对比,发现我国煤矿员工平均收教育年限较国外少3.3年,与国内其他高危行业持平,但低于全国劳动力平均受教育水平。在现场调研数据的基础上,分析了员工文化程度对安全生产的影响情况,发现煤矿员工的文化程度与企业总体安全文化水平呈正相关关系,而且文化程度与煤矿的安全生产状况互为因果。     

基于PSR模型的贵州省煤矿安全生产状况综合评价体系

煤矿安全生产的状况是多因素相互影响、制约和共同作用的结果,存在外部环境的宏观因素,也有煤矿企业内部的微观因素.现有的安全生产状况评价主要依靠事故统计分析,通过事故的量和类型来分析和反应安全的状况.仅仅通过事故统计难以全面反映出各因素对安全生产状况的影响.在分析现阶段贵州省煤矿安全生产的现状和主要影响因素的基础上,综合外部宏观与内部微观指标,利用定性与定量相结合的分析方法,通过PSR模型构建综合指标评价体系,并利用层次分析法进行分析、计算和评价,更客观的反映出贵州省煤矿安全生产状况和影响因素.     

我国不同矿物气溶胶源区物质的物理化学特征

在我国不同的矿物气溶胶源区进行采样分析的结果表明,源区气溶胶物质的物理化学特性相差很大.黄土的颗粒最细,91%的黄土颗粒可以形成矿物气溶胶进行长距离输送;沙土较粗,只有15%的沙尘颗粒可以形成矿物气溶胶;2个煤灰样品的粒径差异较大,抚顺煤灰中＜74μm的颗粒高达39%,而呼和浩特煤灰只有7%.不同粒径颗粒的化学分析结果表明,微量元素在细颗粒上有较高的富集.黄土与沙漠土壤的细颗粒的化学性质十分相似,同煤灰的化学性质完全不同,其常量元素与A1的比值(E/Al)十分接近,而且与深海沉积物粘土中的比值(E/A1)     

钻屑法测定煤层H_2S含量

为了测定煤层硫化氢(H2S)含量,防治矿井H2S涌出,提出一种通过钻屑法测定煤层H2S含量的方法。在未受采动影响的新鲜煤壁,采用钻屑法取样,通过测定煤样H2S解吸量、取样过程损失量和H2S残存量确定煤层H2S含量。根据溶于水中H2S的p H值和色谱分析解吸气体中H2S体积分数,确定H2S解吸量;根据煤样解吸规律和气样H2S体积分数,确定H2S损失量;根据色谱分析残存气体中H2S体积分数,确定其残存量。用此方法,对山西某矿H2S涌出煤层进行现场和实验室测定。研究表明,该矿H2S含量为(4.465~6.701)×10-3m3/t。钻屑法测定煤层H2S含量是可行的,可以为矿井H2S治理提供基础数据。     

Evaluation of the spontaneous combustion characteristics of coal of different metamorphic degrees based on a temperature-programmed oil bath experimental system

Research on the micro- and macrocharacteristics of different metamorphic degrees of coal helps improve the control and protection techniques used during spontaneous combustion. Nine coals with different properties were thoroughly investigated in this study. Fourier transform infrared spectroscopy and a self-designed temperature-programmed oil bath experimental system were adopted to analyze the molecular structure and macrocharacteristic parameters of the spontaneous combustion of coal. Additionally, the influence of particle size on spontaneous combustion was considered. Various functional groups were employed as microcharacteristic parameters to capture the principal active groups in oxidation. The gas production rate, oxygen consumption rate, gas concentration, heat energy release rate, and characteristic temperatures were evaluated as macrocharacteristic parameters to investigate the changes in coal during oxidation. The results establish that the microcharacteristics of coal molecules determine the degree of spontaneous combustion based on intrinsic properties and that changes in the macrocharacteristics of the spontaneous combustion of coal reflect the microstructural changes. The contents of the hydroxyl groups, carbonyl groups, alkyl ether and aryl ether in the coal molecules gradually decrease with the metamorphic increase. Oxygen-containing functional groups have higher reactivities and easily react with oxygen, causing the macroparameters, such as the oxygen consumption rate, the gas generation rate and the heat energy release rate, to consistently decrease with the increase of the metamorphic degree. Small-particle-size coal molecules have more active aliphatic hydrocarbons, oxygen-containing functional groups and a larger specific surface area, increasing the chances of adsorbing the oxygen of active groups and promoting the reaction between coal and oxygen. The experimental results indicate that coal samples with higher metamorphic degrees or larger sizes exhibit lower tendencies toward spontaneous combustion. Evaluation of the spontaneous combustion of coal based on a temperature-programmed oil bath experimental system is of great practical importance for preventing the spontaneous combustion of coal during storage, processing and utilization and can serve as a convenient reference for production safety in mining applications.     

The impact of coal and non-coal consumption on China's energy performance improvement

China is the world's largest energy consumer, and coal accounts for a higher proportion of the country's total energy consumption, yet during its 12th five-year plan (2011–2015), the coal share among total energy consumption significantly decreased. Previous studies exploring energy performance typically used energy consumption as an input, but this lacks the analytical capacity for the structure of energy consumption. Thus, this study splits energy input into two different inputs, coal consumption and non-coal energy consumption, and based on their differences with other variables, uses the hybrid dynamic data envelopment analysis model to assess the energy performance of China's provincial industrial sector during the period 2011 to 2015. We then compare coal consumption's and non-coal consumption's rooms for improvement and conclude that provinces in eastern and central China should reduce the amount of coal consumption, thereby improving energy performance. Conversely, provinces in the western region should target a balance between energy utilization efficiency and coal consumption.     

Sources of underground CO: Crushing and ambient temperature oxidation of coal

As a harmful gas in underground coal mine, CO seriously threatened the safety of miners. Currently, the spontaneous combustion of residual coal in goaf is generally considered as the main source of underground CO. CO gas is also widely used as an indicator gas in fire prediction in mines. However, high concentrations of CO are also detected in some mines without spontaneous combustion of coal. Therefore, in the paper, with four ranks of coal, we studied other two potential CO sources: crushing and oxidation at ambient temperature. The more completely crushed coal produces more CO. The concentration of generated CO is inversely proportional to moisture content in coal. Therefore, the addition of water can inhibit the generation process of CO during the crushing process of coal. Lignite with low metamorphic grade can be oxidized to produce CO at ambient temperature (25 °C), and anthracite with high coal rank can be only oxidized to produce CO at 60 °C. Infrared spectra indicated that the coal with rich aliphatic hydrocarbons and oxygen-containing functional groups are more susceptible to oxidation at room temperature. Moreover, the smaller particle size of coal is more beneficial to the oxidation at ambient temperature to generate CO. CO generation during coal oxidation is also closely related to the ventilation rate.     

瓦斯压力对卸荷原煤力学特性及能量特征的影响

运用自主研制的含瓦斯煤热流固耦合三轴伺服渗流试验装置,以原煤煤样作为研究对象,进行了含瓦斯煤固定轴向压力、卸围压的渗流试验,研究了卸围压过程中瓦斯压力对煤样力学特性和能量特征的影响。结果表明:在轴压加载阶段,煤样的变形模量基本不变,泊松比逐渐减小;在定轴压卸围压阶段,煤样的变形模量先小幅度增加,然后逐渐减小,泊松比则逐渐增大。瓦斯压力越高,煤样的承载能力越低,煤样发生破坏时相应的轴向应变和围压卸荷量百分比越小,而煤样破坏时的径向变形和扩容量越大。各应变围压柔量Δεi与瓦斯压力呈线性关系且线性相关性良好。随瓦斯压力升高,轴向应变的围压敏感性降低,径向应变和体积应变的围压敏感性显著升高。随瓦斯压力升高,煤样发生破坏时存储的弹性应变能Ue减小,而总能量U、耗散能Ud和耗散能比例Ud/U都增大。     

松散煤体渗流传热试验装置研制

为研究松散煤体低温氧化及通风供氧下的渗流传热规律,研发了渗流传热试验装置。试验装置由气体加湿系统、气体加热系统、煤样反应系统、数据采集系统和安全保护系统组成;本装置可实现自动加湿、控温、自动采集数据及处理数据。为解决装置使用和运行中的安全问题,设计了断电保护、有害气体检测等措施,保障试验装置的安全、可靠。     

潞安矿区煤层渗透率的各向异性特征实验研究

为了研究原位煤体渗透性的各向异性特征,以山西潞安常村矿3号煤层圆柱试样为对象,利用TCQT-Ⅲ型低渗煤层气相驱替增产试验装置,对煤样进行加载,并以氮气注入压力2.0 MPa的条件下,分析垂直层理和平行层理2个方向的煤体变形和渗透率变化特征。实验结果表明:煤样在加载过程中,平行和垂直层理煤样渗透率均随着有效应力的增大而减小,平行层理方向的渗透率始终大于垂直层理方向,应力加载初期渗透率急剧下降,最后逐渐趋于平缓;径向应变的增加量与渗透率呈正相关性,且平行层理相关性大于垂直层理;沿平行层理方向的裂隙度大于沿垂直层理方向,沿垂直层理方向的应变量大于沿平行层理方向;应变增加量均随有效应力的增加而逐渐减小。研究结果可为煤层井网布置及优化提供参考。