基于连通法的甲烷简化机理构筑研究

采用连通法,针对甲烷复杂反应机理,成功地进行了不同水平的机理简化研究。通过建立组分依赖关系的正规化Jacobian矩阵,精确地查明了燃烧组分之间的耦合关系,分别构造出仅包含重要化学路径的两个动力学简化模型,获得的简化机理分别包含227和138个反应,分别涉及39和26种组分。通过对层流预混火焰结构的模拟,所得简化机理和原详细反应动力学机理关于火焰结构的计算吻合很好,计算结果显示,两个简化机理具有较高的模拟精度。     

太阳能产业发展正当时

煤、石油、天然气,包括水底甲烷水合物从根本上来说都源自于太阳能.与化石能源不同的是,太阳能是一种可再生能源.这种可再生生在能源危机频出的今天,其意义更为深远.随着产业化程度不断提升,太阳能产业也迎来了其发展的大好时机.     

Profile of Methane Concentrations in Soil and Atmosphere in Alpine Steppe Ecosystem on Tibetan Plateau

The methane concentration profile from -1.5m depth in soil to 32m height in air was measured in alpine steppe located in the permafrost area. Methane concentrations showed widely variations both in air and in soil during the study period. The mean concentrations in atmosphere were all higher than those in soil, and the highest methane concentration was found in air at the height of 16m with the lowest concentration occurring at the depth of 1.5m in soil. The variations of atmospheric methane concentrations did not show any clear pattern both temporally and spatially, although they exhibited a more steadystable state than those in soil. During the seasonal variations, the methane concentrations at different depths in soil were significantly correlated （R^2〉0.6） with each other comparing to the weak correlations （R^2〈0.2） between the atmospheric concentra- tions at different heights. Mean methane concentrations in soil significantly decreased with depth. This was the compositive influence of the decreasing production rates and the increasing methane oxidation rates, which was caused by the descent soil moisture with depth. Although the methane concentrations at all depths varied widely during the growing season, they showed very distinct temporal variations in the non-growing season. It was indicated from the literatures that methane oxidation rates were positively correlated with soil temperature. The higher methane concentrations in soil during the winter were determined by the lower methane oxidation rates with decreasing soil temperatures, whereas methane production rates had no reaction to the lower temperature. Relations between methane contribution and other environmental factors were not discussed in this paper for lacking of data, which impulse us to carry out further and more detailed studies in this unique area.     

一种含高浓度硫酸钠的含铬废水处理和资源回收方法

该发明公开了一种含高浓度硫酸钠的含铬废水处理和资源回收方法,其步骤是：（1）将工业生产中的含铬废水先进行过滤,去除废水中的不溶物;（2）将滤液在结晶池中结晶,分离出废水中的硫酸钠;（3）再将滤液分别依次通过阳离子交换柱和阴离子交换柱,对其中有用成分进行吸附;（4）待吸附饱和后,用脱附剂对离子交换柱再生;（5）脱附下来的高浓度脱附液可用于上游生产工段,低浓度脱附液用于配置下一批脱附剂循环套用。     

大气固定污染源低浓度颗粒物采样及分析技术研究进展

简述了我国现阶段大气固定污染源颗粒物监测中遇到的问题及低浓度颗粒物采样与分析技术研究的必要性,归纳了国外低浓度颗粒物采样分析技术要点,包括大体积采样、滤筒上游采样设备堆积颗粒物的回收、有效称重步骤的确立等,并对我国开展低浓度颗粒物采样及分析技术研究提出了相关建议.     

甲烷-煤尘复合火焰的传播与温度特征

为了揭示甲烷-煤尘复合体系的燃烧特征,利用高速摄像机、超细热电偶、显微镜头等对管道内甲烷-煤尘复合火焰的传播过程及其温度特征进行了试验研究.结果表明,随着煤尘浓度的增加,甲烷-煤尘复合火焰的最高温度及传播速度呈现先增大后减小的趋势; 对于甲烷-煤尘复合火焰,粒径较大的煤尘在较小的浓度达到最高温度,而粒径较小的煤尘则需要在较大的浓度达到最高温度.     

ABR反应器的启动研究

研究了添加填料对折流式厌氧反应器(ABR)启动性能的影响.反应器启动时,控制COD负荷为0.15 kg/(m3*d),逐渐提升至0.6 kg/(m3*d).未加填料的反应器经过约60 d,加入填料的反应器经过约35 d的连续运行,出水COD去除率稳定,启动基本完成.研究表明,添加填料的复合式反应器启动速度明显快于普通ABR,且运行稳定性更好,COD去除率较高,能够较好地截留污泥,有利于反应器生物效应的形成.     

红外甲烷传感器在煤矿安全中的作用

近年来,瓦斯（主要成分为甲烷,分子式CH4）事故成为煤矿安全的第一杀手。控制煤矿重特大事故的关键是要有效地预防和遏制瓦斯事故,而解决瓦斯突出及爆炸问题,除了要对瓦斯形成规律、爆炸特性、突出机理、抽采规律进行深入研究,还必须加强对瓦斯的监测监控,这是煤矿安全生产工作的重中之重。     

美国垃圾填埋场甲烷使用推广计划

介绍了美国垃圾填埋场甲烷使用推广计划的进展状况以及我国目前填埋气体的利用现状.     

废气样品中甲烷的保存条件研究

气相色谱法检测废气中甲烷,样品保存容器可选择玻璃注射器、惰性气袋、真空瓶、苏码罐等,实验室对此做了比较研究。结果表明:玻璃注射器气密性较差,样品须在8 h内完成分析;真空瓶携带不方便,苏码罐价格昂贵,两者使用较少;使用玻璃注射器采集,然后注入惰性气袋保存的方法最佳,样品至少可稳定保存7d。