铝电解含氟烟气干法净化技术应用

山东铝厂对80kA预焙槽含氟烟气系统进行了改造,将其湿法净化工艺改造成干法净化。介绍了干法净化技术的优点及工艺技术。改造后取得了明显的经济效益和环境效益。     

邯钢焦化厂回收系统废气净化工艺的改进

介绍了邯钢焦化厂煤气回收系统废气净化工艺的操作情况及存在的问题,指出了改造后的净化工艺的特点和效果。     

山铝热电分厂烟气脱硫可行性分析

阐明了烟气脱硫的重要性,对现有烟气脱硫工艺做了简介和比较,结合山西分公司热电分厂的烟尘排放情况及生产工艺、现场实际情况,进行了可行性分析,并提出推荐实施方案。     

多元可燃性混合气体临界氧浓度的测定

可燃性气体(蒸气)的临界氧浓度目前只限于对单元气体混合物的研究,且影响因素较少提及。通过实验测定了人工煤气、液化石油气的爆炸极限和临界氧浓度,对可燃性气体(蒸气)临界氧浓度的影响因素进行了研究,所测定的数据为煤气、液化石油气的安全防爆工作提供了依据。     

热污染及其防治

对热污染状况进行了介绍.概括了热污染的危害,包括危害人体健康、影响全球气候变化、污染大气、污染水体、加快水分蒸发、增加能量消耗等.分析了热污染的原因,自然气候的异常变化和人为因素是热污染产生的两大原因.最后提出了几点防治热污染的措施.     

山西省大同市煤气化总公司职业健康安全基准评估

随着国家安全生产工作力度的不断加强,加强职业健康安全管理成为许多国有企业的一项重要任务。对此,大同市煤气化总公司结合企业清洁生产实践．建立职业健康安全咨询委员会。在该委员会协助下．通过文件分析、现场观察、与职工交流和对比分析,在全公司范围内识别出26项职业健康安全问题,并对其中主要问题实施简要评估,以此作为该公司建立职业健康安全管理体系和改进职业健康安全管理水平的基准。     

海洋沉积物中的天然气水合物与海底滑坡

天然气水合物是一种由天然气和水形成的类似冰状的固体物质 ,主要存在于在低温高压背景下的海底沉积物和陆地永久冻土地带中。赋存于海底沉积物中的天然气水合物虽然本身能作为准稳定的胶结物对海底有建造作用 ,但由于其稳定性对特定温度和压力的严格依赖 ,海平面的下降、海底的连续沉积、地震等自然因素以及海洋钻探等人为因素造成的海底温压条件的改变会引起其分解 ,从而使海底沉积物失稳甚至导致海底滑坡。本文详细介绍了海底天然气水合物分解导致滑坡的机制、实例以及该种海底滑坡体的特征 ,并对以后的研究进行了展望     

The characteristic of in situ stress in outburst area of China

In order to obtain the characteristics of in situ stress field in outburst mining area, using the hollow inclusion (HI) technique to measure the in situ stress of coal and gas outburst mining area. The measurement sites located in northeast, middle and east of china, which include eight mining areas such as Fuxin, Pingdingshan, Hebi and Huainan. Base on the analysis of measurement data from outburst mining area, conclusions could be obtained as follow: (a) major principal stress and minor principal stress is horizontal stress and interim principal stress is vertical stress, and the type of outburst area’s stress field is dynamic stress field; (b) the major principal stress and minor principal stress are higher than other regions and the tectonic stress is outstanding; and (c) the ratio of major principal and vertical stress is decrease with the increase of depth and the type of stress field is likely transfer dynamic to static. Thus, in situ stress plays a key role during the occurring and development of coal and gas outburst, which is an important reason of severe outburst in China.     

Theoretical equation of gas desorption of particle coal under the non-uniform pressure condition and its analytical solution

Based on the second Fick’s law, the theoretical equation of gas desorption of particle coal under the non-uniform pressure condition was developed in this paper. The analytical solution of the theoretical equation and the method of gas desorption quantity of particle coal under non-uniform pressure condition were obtained.     

Experimental study on the influence mechanism of gas seepage on coal and gas outburst disaster

By using the self-developed triaxial servo-controlled seepage equipment for thermo-fluid-solid coupling of coal containing gas and the self-developed coal and gas outburst simulation test device, experiments to study the influence mechanism of gas seepage on coal and gas outburst disasters. The results show that: (i) gas seepage decreases the strength of coal containing gas and accelerates its failure process; (ii) under the same gas pressure, the confining pressure is larger, the more difficult the gas flows and the greater the intensity of coal containing gas is; (iii) in the process of coal and gas outburst, the greater the vertical ground stress is, the more powerful the outburst will be; (iv) the influence mechanism of gas seepage on coal and gas outburst disasters is as follows: firstly, gas seepage weakens the mechanical properties of coal body, which makes it much easier for coal and gas outburst to occur; secondly, on the same effect of external force, it will be easy to form a high gas pressure zone in the coal body under the difficult condition of gas seepage, and accumulate more gas compression energy, which is the energy source for coal and gas outburst, and it is also the main dynamic source to throw and grind the coal.