基于云化ANP的巷道冒顶影响因素重要性研究

为了解巷道冒顶事故影响因素之间的关系及导致事故发生的重要性排序,根据专家评判语言的特点及各因素之间存在的语义网络联系性,提出了将云模型嵌入ANP来解决上述问题,即云化ANP模型。该模型既有云模型处理不确定信息的能力,也具有ANP处理网状因素系统的能力,尤其适合处理冒顶这类具有不确定性数据的分析问题。给出了云化ANP的构建过程和分析步骤。结合专家调查所得数据分析了影响冒顶因素的重要性排序,所举实例分析的因素重要性排序为:稳定岩层距巷道顶板表面的距离 >地下水渗水量 >巷道的跨度 >稳定岩层厚度 >顶板岩石的抗压强度 。最后将云化ANP算法应用于类似算法所处理的例子,通过这些例子的结果分析了云化ANP算法的正确性。     

基于压电自供电的采煤机状态无线监测装置

考虑到压电自供电装置中压电振子的几何参数直接影响其共振频率,从而影响压电自供电装置的发电量,因此需要根据环境激励频率设定最佳的压电振子的几何参数,本文对基于压电自供电的采煤机状态无线监测装置进行研究,通过理论分析、仿真以及实验方法对对不同悬臂梁结构在不同外界激励作用下的发电量进行研究。研究结果表明：悬臂梁自由端质量块质量以及悬臂梁长度越大,悬臂梁压电结构的固有频率越低;随着悬臂梁厚度的增加,悬臂梁压电结构的固有频率逐渐增大。以此为依据对采煤机不同监测位置的装置选取最佳匹配的压电结构几何参数,并通过采煤机工作状态监测实验验证了本文研究的压电自供电无线监测装置的可行性。     

关于加强象山矿井煤炭质量管理的思考

针对煤质下滑和市场环境不断变化的情况,象山矿井从树立全员质量意识、抓好生产源头毛煤质量、加强商品煤质量管理等方面做好产品质量的精细化管理工作,以提高产品质量,增加企业效益,促进企业发展。     

200MW乏气送粉机组主蒸汽温度控制优化方案

本文在常规火电厂主蒸汽温度自动控制方案的基础上,对200MW乏气送粉机组的特性进行了分析,结合锅炉主要参数与主蒸汽温度自动控制的相互关系,以及相关的工艺要求,提出了一种新的优化方案。     

MODICON Quantum PLC在电厂输煤系统中的应用

在电厂输煤系统中,输送线路一般较长,设备分布比较分散,电厂在满足工艺要求的前提下,需尽量减少劳动定员和降低劳动强度。本文通过介绍MODICON Quantum PLC的特点,并将其与华蓥山发电有限公司电厂输煤系统的工艺要求相结合,分析了如何运用PLC来实现对电厂输煤系统的控制。本应用案例具有一定的参考价值。     

KJ2005煤井监控系统软件的设计与实现*

针对目前中小型煤井的需求,结合计算机技术和网络技术,采用模块化设计在VC++ 6.0下开发了KJ2005煤井监控系统。对该软件的主要模块进行了简单介绍,并详细介绍了其串口通信接口程序的设计,给出了部分通信源码。应用表明,该系统简单、实用,能及时为用户提供准确信息,能动地减少了事故发生。     

Ignition characteristics of coal blends in an entrained flow furnace

Ignition tests were carried out on blends of three coals of different rank - subbituminous, high volatile and low volatile bituminous - in two entrained flow reactors. The ignition temperatures were determined from the gas evolution profiles (CO, CO₂, NO, O₂), while the mechanism of ignition was elucidated from these profiles and corroborated by high-speed video recording. Under the experimental conditions of high carbon loading, clear interactive effects were observed for all the blends. Ignition of the lower rank coals (subbituminous, high volatile bituminous) enhanced the ignition of the higher rank coal (low volatile bituminous) in the blends. The ignition temperatures of the blends of the low rank coals (subbituminous-high volatile bituminous) were additive. However, for the rest of the blends the ignition temperatures were always closer to the lower rank coal in the blend.     

The mechanical behaviour of coal with respect to CO2 sequestration in deep coal seams

Carbon dioxide displays a strong affinity for coal due to its propensity to adsorb to the coal surface. The process of CO₂ adsorption on coal causes lowering of surface energy and, it is hypothesised that an associated decrease in surface film confinement results in a decrease in material tensile resistance. Following the results of work carried out on the mechanical influence of CO₂ on brown coal under in situ conditions [Viete DR, Ranjith PG. The effect of CO₂ on the geomechanical and permeability behaviour of brown coal: implications for coal seam CO₂ sequestration. Int J Coal Geol 2006;66(3):204–16], a theoretical explanation is proposed for the perceived lack of a weakening effect with the adsorption of CO₂ to coal at significant confining pressures. We propose that at significant hydrostatic stresses, resistance to failure is otherwise provided (by external confinement) and the effects of adsorptive weakening are concealed. Our model predicts that adsorptive weakening, fracturing under in situ stresses, and associated permeability increases are not an issue for coal seam CO₂ sequestration for sufficiently deep target seams. Lowering of the elastic modulus of coal upon introduction of CO₂ may proceed by means other than surface energy lowering and could well occur irrespective of the depth of sequestration. The effect of elastic modulus lowering under in situ conditions would be beneficial for the long-term retention of sequestered gases.     

Distribution of ground stress on Puhe Coal Mine

Puhe Coal Mine is a typical Tertiary coal in Shenbei mining area. With an increase in mining depth, tectonic stress field becomes more complex, leading to increased deformation and failure of the soft rock roadway. Stress becomes an important factor of mine safety and stability. This paper analyzes the distribution of the regional tectonic field, and determines the distribution of situ stress measurement through measuring the ground stress field in the main mining area level of Puhe Coal Mine using stress relief method. The acquired in situ stress data at different locations and depths provide a reference for the rational arrangement of the stop and mine roadway supporting design, which are of great significance for the efficient safety production of the mine.     

Simulation of the interaction of methane,carbon dioxide and coal

Gas adsorption has an important influence on gas flow in a coal body. Research on the characteristics of coal and gas adsorption is the theoretical basis for studying gas flow in coal. In this paper, the interaction between methane, carbon dioxide and surface molecules of anthracite was simulated using the quantum chemistry method. Adsorption energy and adsorption configurations of different quantities of gas molecules absorbed on the coal surface were calculated. The results show that adsorption between coal and the two kinds of gas molecules is a physical adsorption process and there is an optimal configuration. Gas molecules are more easily adsorbed in the hydroxyl-containing side chain, while it is difficult for them to be adsorbed at the position of the benzene ring. Besides, carbon dioxide molecules are more readily adsorbed on the coal surface than methane molecules. The findings have an important significance in revealing the nature of gas adsorption in coal.