加强云南环境保护宣传教育力度--积极开创"绿色社区"

从云南环境宣传教育现状出发,分析了目前在云南创建“绿色社区”的现实意义、必要性,并提出了创建的评选标准细则和评选的基本办法,为今后云南创建“绿色社区”提供参考性意见。     

基于BP网络的建筑安装施工现场安全综合评价的研究

针对目前我国建筑安装施工现场安全评价技术的不成熟和欠科学性的现状 ,笔者分析和综合了目前安全评价技术 ,结合建筑业特点 ,提出了基于BP神经网络的建筑安装施工现场安全评价方法 ,并对该评价模型的原理、方法及算法进行了研究。首先 ,结合建筑安装施工现场安全生产的特点建立评价指标体系 ,随后 ,运用层次分析法确定指标及准则层的权重 ,并运用模糊综合评价法生成评价样本集 ,最后 ,利用样本集训练BP网络 ,待误差满足要求后 ,即可运用训练成功的BP神经网络进行安全评价。     

两类常用森林火灾蔓延模型的比较

简要介绍了两类常用的森林火灾蔓延模型--邻接单元模型和波动传播模型的原理和实现方法.对作为离散模型的邻接单元模型和作为连续模型的波动传播模型的优、缺点作了系统的总结,并分析了它们对系统精度、实时性、复杂性、全局适应性、计算可靠性和整个模拟系统结构性能的影响.通过对比发现,两类模型在性能上的优势和局限有很强的互补性.因此,为了提高蔓延模型的性能,并使其不受火行为和地理要素复杂性的限制,有必要取长补短,通过现有的计算机技术将两者结合起来.     

自适应人工鱼群-BP神经网络算法在径流预测中的应用

为了提高水库和河流中长期径流预测精度,提出了弹性自适应人工鱼群算法(RAAFSA)。应用RAAFSA算法训练BP神经网络,实现BP神经网络参数优化,形成弹性自适应人工鱼群-BP神经网络混合算法(RAAFSA-BP),对石泉水库进行中长期径流预测。仿真计算表明,弹性自适应人工鱼群优化的BP神经网络算法收敛速度快于BP神经网络算法、人工鱼群-BP神经网络算法和RBF神经网络算法。该混合算法克服了BP神经网络和人工鱼群算法易陷于局部极值、搜索质量差和精度不高的缺点,改善了BP神经网络的泛化能力,输出稳定性好,预报精度显著提高,每次预测相对误差绝对值都小于6%,合格率达到100%。该算法成功地解决了石泉水库中长期径流预测精度不高的难题,可有效用于水库和河川中长期径流预测。     

千层塔扦插繁殖研究

通过扦插试验,采用不同浓度水平的吲哚丁酸、萘乙酸、生根粉和吲哚丁酸＋萘乙酸等药剂处理千层塔插条,研究对插条的生根量、生根率、成活率等的影响和插条萌芽状况及扦插基质对插条生根的影响,为千层塔资源快速再生提供有效的繁殖途径。     

Experimental study on explosion inhibition by heptafluoropropane and its synergy with inert gas

The inhibition effect of heptafluoropropane (CF₃CHFCF₃) on methane explosions under different inhibitor concentrations in a closed vessel was studied. A high-speed camera and a pressure sensor were adopted respectively to record flame propagation characteristics and pressure data. Results indicate that the relationship between flame propagation and pressure rising was correlated. As the equivalent ratio (ϕ)≤1, the pressure presented a trend of rising firstly and then decreasing with increasing CF₃CHFCF₃ concentration, and it was found that there existed a critical concentration for pressure decrease. As ϕ > 1, the pressure exhibited a decreasing trend. Although the pressure appeared to seemingly increase, the moment that the pressure began to rise (t_rise) and the moment that the maximum explosion overpressure appeared (t_Pmax) were obviously delayed. The average rate of pressure rise ((dP/dt)_ave) was decreased as the concentration of CF3CHFCF3 increased. It indicates that CF₃CHFCF₃ can effectively reduce the explosion reaction rate. The critical concentration of CF₃CHFCF₃ for complete inhibition was determined. Meanwhile, the synergy of CF₃CHFCF₃-inert gas can improve the inhibition effect. Compared with CF₃CHFCF₃–N₂, the synergy of CF₃CHFCF₃–CO₂ presented a better inhibition effect, and the inhibition effect was increased with increasing inert gas concentration. And the mechanisms of physical and chemical effects on explosion inhibition were analyzed.     

煤矿火灾烟气流动传播过程仿真研究

煤矿发生火灾后会生成大量有毒气体并产生火风压,烟气在火灾动力的影响下出现状态紊乱,研究煤矿火灾烟气流动传播过程对控制火情有着重要意义。基于国内外研究现状,对燃烧及风流特点进行分析,建立了煤矿火灾烟气流动数学模型,并利用CFD软件进行仿真。研究表明:无通风工况下的烟气为对称流动;随着风速增加,出口处温度降低,烟气向风流入口处的流速减小。     

Effects of particle thermal characteristics on flame microstructures during dust explosions of three long-chain monobasic alcohols in a half-closed chamber

To reveal clearly the effects of particle thermal characteristics on flame microstructures during organic dust explosions, three long-chain monobasic alcohols, solid at room temperature and similar in physical-chemical properties, were chosen to conduct experiments in a half-closed chamber. In the experiments, the dust materials were dispersed into the chamber by air to form dust clouds and the hybrids were ignited by an electrical spark. A high-speed optical schlieren system was used to record the flame propagation behaviors. A fine thermocouple and an ion current probe were respectively used to measure the flame temperature profile and the reaction behaviors of the combustion zone. Based on the experimental results, combustion behaviors and flame microstructures in dust clouds with different thermal characteristics were analyzed in detail. As a result, it was found that the dust flame surfaces were completely covered by cellular structures that significantly increased the flame frontal areas. Flame propagated more quickly and the number of the cellular cells increased as increasing the volatility of the particles. On the contrary, maximum temperature and the thickness of the preheated zone decreased as increasing the volatility of the particles. According to the ion current profile, the particles in the preheat zone were pyrolyzed to intermediate radicals and the radicals' fraction in the higher volatile dust flame was higher than that in the lower volatile dust flame.     

水平管内不同煤质煤尘爆炸火焰传播特性实验研究

为研究水平管道空间不同煤质煤尘爆炸火焰传播特性,选取褐煤、长焰煤、不粘煤、气煤4种煤尘,对爆炸火焰焰峰特性、火焰加速传播特性、火焰传播距离与持续时间展开研究。研究结果表明:褐煤在500 ms内焰峰的形状由尖锐向平滑再向钝化不断演变,长焰煤与不粘煤在375 ms时焰峰前端出现明显焰体分离现象,分析认为这与管体冷壁效应、空间尺度效应及空间氧气消耗直接相关;气煤在375 ms时焰峰出现大面积火焰碎纹,说明气煤爆炸火焰猛烈传播的持续时间相对较短,整体爆炸强度相对较弱;褐煤与长焰煤爆炸火焰存在2次间断性加速,分析认为这与管体空间受限、常温管壁散热、局部助燃氧气瞬间不足等因素有关;褐煤在爆炸后400～600 ms内火焰2次加速完全,火焰传播距离达740 mm,明显大于长焰煤、不粘煤与气煤,说明低变质褐煤爆炸火焰持续时间更长,火焰传播距离更远且传播更剧烈;虽然气煤火焰最远传播距离比长焰煤大30 mm,但由于气煤火焰在375 ms左右出现大片火焰碎纹,因此气煤整体的爆炸强度小于长焰煤。     

含磷酸盐对聚乙烯粉尘爆燃的抑制影响实验研究

为了揭示含磷酸盐(KH₂PO₄,NH₄H₂PO₄,Ca(H₂PO₄)₂)对聚乙烯粉尘爆炸的抑制作用,通过哈特曼管实验装置和20 L球形爆炸罐,研究含磷酸盐对聚乙烯粉尘爆炸火焰和压力传播特性的抑制效果。采用高速摄影方法记录含磷酸盐对聚乙烯粉尘爆炸火焰传播的影响;采用20 L球形爆炸罐,收集压力传感器数据,分析含磷酸盐对聚乙烯粉尘爆炸压力的影响;采用同步热分析仪研究聚乙烯粉尘和含磷酸盐的热解行为。研究结果表明：含磷酸盐对聚乙烯粉尘爆炸火焰传播特性参数和爆炸压力特性参数均有显著的影响,通过对比得到NH₄H₂PO₄抑制效果相对最好。研究结果可为含磷酸盐在抑爆剂工程应用提供理论基础。