多因素影响下巷道变形特性数值模拟研究

基于FLAC3D有限差分软件对开挖深度、侧压力系数、断面形状等多因素影响下的巷道变形参数进行正交试验，根据正交试验分析结果，分别选取同一深度条件下的圆形、马蹄形、直墙拱形、矩形巷道进行模拟试验并以圆形巷道作为典型断面，对不同深度下的巷道变形特征进行模拟试验。研究结果表明:开挖深度对巷道开挖后的应力差变化影响明显，断面形状对巷道围岩内的塑性区深度和具有显著影响；巷道开挖后的塑性区深度和随形状指数增加而呈线性增长趋势，圆形巷道的塑性区深度和最小，矩形最大；应力差随着巷道开挖深度的增加呈线性增加，深部开采应重视巷道内的应力分布情况。     

硬机翼喷气运输飞机污染问题分析

针对硬机翼飞机因污染发生事故率较高的事实,通过对多起硬机翼喷气飞机起飞阶段由于污染而失速坠毁事故的分析,研究现代硬机翼喷气飞机失速特性、对污染的敏感程度和敏感原因,进一步讨论各种防范机翼污染引起失速的措施。最后针对硬机翼飞机对污染敏感的特点,建议适航部门提高新型硬机翼飞机适航标准,硬机翼飞机运营人采取措施严格杜绝飞机带污染起飞。     

固体可燃物易点燃性标准的探讨

可燃性固体的引燃和熄灭与辐射到其表面的临界热能量和产生挥发分所必需的表面温度有关。探讨固体可燃物易点燃性标准,燃怀标准,对防火和灭火在理论上有一定的指导意义。本文在理论分析的基础上,提出了一种用固体挥发分的临界质量通量量化解释引燃和熄灭条件的方法,给出了易点燃性的标准。     

上海市郊4种地表径流深度的测算

根据有关试验资料和美国土壤保持局推荐的方法，提出了上海市郊４种地表径流深度的计算公式。计算结果表明，当年降雨量为１０５３ｍｍ时，上海市郊４种地表径流的总量为１３．６亿ｍ＾３，平均径流深度为３００ｍｍ，径流系数为２８．４９％，４种径流量占郊区总量的７７．８２％，产流面积为郊区总面积的７５．１０％。     

利用多台首波Pn、直达波Pg走时确定地壳厚度及波速

本文通过对首波Pn、直达波Pg的走时的反演,推导出地壳厚度、震源深度、P波在地壳中、壳幔边界的传播速度之间的关系式,利用多台地震记录确定一个区域内这些参数的值,从而建立出该区域的地壳模型。     

一种新型直流旋风分离器的分离机理探讨

分析了一种新型直流旋风分离器的分离机理及结构特点 ,推导出了这种旋风分离器内颗粒的运动规律和被分离的临界粒径。     

青枯雷尔氏菌GMI1000菌株龙胆酸1,2-双加氧酶活性中心关键氨基酸残基的鉴定

生物信息学分析表明,位于青枯雷尔氏菌GMI1000菌株的染色体上的读码框RSc1087可能编码一个龙胆酸1,2-双加氧酶.本研究克隆、表达了该基因,并通过亲和层析对该基因表达产物进行了纯化.酶学测试结果证实,该基因编码的正是龙胆酸1,2-双加氧酶.SDS-PAGE结果表明,该酶亚基分子量约为38×103.基因的定点突变揭示105位、107位和146位组氨酸残基是该酶活性中心的关键氨基酸残基.     

Effects of soiling and cleaning on the reflectance and solar heat gain of a light-colored roofing membrane

A roof with high solar reflectance and high thermal emittance (e.g., a white roof) stays cool in the sun, reducing cooling power demand in a conditioned building and increasing summertime comfort in an unconditioned building. The high initial solar reflectance of a white membrane roof (circa 0.8) can be lowered by deposition of soot, dust, and/or biomass (e.g., fungi or algae) to about 0.6; degraded solar reflectances range from 0.3 to 0.8, depending on exposure. We investigate the effects of soiling and cleaning on the solar spectral reflectances and solar absorptances of 15 initially white or light-gray polyvinyl chloride membrane samples taken from roofs across the United States. Black carbon and organic carbon were the two identifiable strongly absorbing contaminants on the membranes. Wiping was effective at removing black carbon, and less so at removing organic carbon. Rinsing and/or washing removed nearly all of the remaining soil layer, with the exception of (a) thin layers of organic carbon and (b) isolated dark spots of biomass. Bleach was required to clear these last two features. At the most soiled location on each membrane, the ratio of solar reflectance to unsoiled solar reflectance (a measure of cleanliness) ranged from 0.41 to 0.89 for the soiled samples; 0.53 to 0.95 for the wiped samples; 0.74 to 0.98 for the rinsed samples; 0.79 to 1.00 for the washed samples; and 0.94 to 1.02 for the bleached samples. However, the influences of membrane soiling and cleaning on roof heat gain are better gauged by fractional variations in solar absorptance. Solar absorptance ratios (indicating solar heat gain relative to that of an unsoiled membrane) ranged from 1.4 to 3.5 for the soiled samples; 1.1 to 3.1 for the wiped samples; 1.0 to 2.0 for the rinsed samples; 1.0 to 1.9 for the washed samples; and 0.9 to 1.3 for the bleached samples.     

Direct-push geochemical profiling for assessment of inorganic chemical heterogeneity in aquifers

Discrete-depth sampling of inorganic groundwater chemistry is essential for a variety of site characterization activities. Although the mobility and rapid sampling capabilities of direct-push techniques have led to their widespread use for evaluating the distribution of organic contaminants, complementary methods for the characterization of spatial variations in geochemical conditions have not been developed. In this study, a direct-push-based approach for high-resolution inorganic chemical profiling was developed at a site where sharp chemical contrasts and iron-reducing conditions had previously been observed. Existing multilevel samplers (MLSs) that span a fining-upward alluvial sequence were used for comparison with the direct-push profiling. Chemical profiles obtained with a conventional direct-push exposed-screen sampler differed from those obtained with an adjacent MLS because of sampler reactivity and mixing with water from previous sampling levels. The sampler was modified by replacing steel sampling components with stainless-steel and heat-treated parts, and adding an adapter that prevents mixing. Profiles obtained with the modified approach were in excellent agreement with those obtained from an adjacent MLS for all constituents and parameters monitored (Cl, NO(3), Fe, Mn, DO, ORP, specific conductance and pH). Interpretations of site redox conditions based on field-measured parameters were supported by laboratory analysis of dissolved Fe. The discrete-depth capability of this approach allows inorganic chemical variations to be described at a level of detail that has rarely been possible. When combined with the mobility afforded by direct-push rigs and on-site methods of chemical analysis, the new approach is well suited for a variety of interactive site-characterization endeavors.     

Detection and delineation of critical areas using echelons and spatial scan statistics with synoptic cellular data

Geographical surveillance for hotspot detection and delineation has become an important area of investigation both in geospatial ecosystem health and in geospatial public health. In order to find critical areas based on synoptic cellular data, geospatial ecosystem health investigations apply recently discovered echelon tools. In order to find elevated rate areas based on synoptic cellular data, geospatial public health investigations apply recently discovered spatial scan statistic tools. The purpose of this paper is to conceptualize a joint role for these together in the spirit of a cross-disciplinary cross-fertilization to accomplish more effective and efficient geographical surveillance for hotspot detection and delineation, and early warning system.