多排螺旋CT五个剂量测量点位的统计学差异

目的:探讨螺旋CT五个辐射剂量测量点位(CTDI₁₀₀)值之间的差异和相关性统计学关系,以及该机器的辐射稳定性。方法:通过辐射剂量计和辐射剂量模体对螺旋CT五个测量点位进行12次重复测定,对各个点位的测量结果计算其相对偏差,然后用单因素方差分析(One-Way ANOVA)方法分析各点位测量结果之间的显著性。结果:5个点位重复测量的相对标准差分别为0.33%(中心点)、0.73%(3点位)、0.32%(6点位)、1.00%(9点位)和0.32%(12点位);3点位和9点位的平均值接近,单因素方差分析无显著性差异;12点位和6点位的平均值与3点位平均值的相对偏差在0.5%以下。结论:测试螺旋CT辐射稳定性良好,测试机型3点位和9点位在CTDI₁₀₀上测量等效。在非验收测试和状态测试场合CTDI_P可以进行简化。      

CT轴扫描和螺旋扫描模式对颅脑急诊患者影像质量与辐射剂量的影响

目的:探讨CT轴扫描和螺旋扫描模式对颅脑影像质量和辐射剂量的影响,为颅脑急诊CT患者合理选择扫描模式提供依据。方法:20例患者,急诊CT扫描采用螺旋扫描模式,首次复查时采用轴扫描模式。管电压120kV,管电流290mA,球管转速0.8s,层厚5mm,间隔5mm,螺距0.969∶1,标准重建算法。测量脑灰质和脑白质CT值和背景噪声,计算SNR和CNR,并对图像噪声、颅底伪影、脑灰、白质对比显示情况进行主观评分,扫描后从CT剂量报告中调取辐射剂量值。两种扫描模式影像质量组间比较采用配对t检验和独立样本卡方检验。结果:轴扫描模式时脑灰、白质CT值分别为(38.02±2.23)HU和(27.01±1.72)HU,螺旋扫描时脑灰、白质CT值分别为(37.76±2.22)HU和(26.99±1.69)HU。CT轴扫描和螺旋扫描模式时,脑白质CT值、SNR和CNR差异没有统计学意义(P>0.05,t=0.045,0.119,0.502),图像噪声、颅底伪影、脑灰、白质对比显示主观评分结果没有统计学意义(P>0.05,χ2=3.142,0.0,3.159)。有效剂量在螺旋扫描模式时为66mSv,在轴扫描模式时为43mSv,但螺旋扫描模式扫描时间短,后处理重组图像对影像诊断有意义。结论:从影像质量和辐射剂量两方面考虑,对颅脑急诊患者CT检查时首选轴扫描模式,但对躁动不合作患者或体位不合作患者应选择螺旋扫描模式。      

旋喷桩在盾构法隧道端头井洞口土体加固工程中的应用

盾构法隧道在进行盾构机的始发或到达作业时,当既有端头井洞口挡土墙结构凿除后,保证该位置土体在盾构机刀盘贯入或脱离地层前一段时间内的稳定就成了盾构机始发或到达施工的关键。结合工程实例,从高压注浆原理、注浆参数和施工工艺等方面阐述了二重管旋喷桩在盾构法隧道端头井洞口土体加固工程中的应用。再者,针对旋喷桩加固以及与其相关的盾构始发或到达施工技术方面的一些问题也提出了一些建议和看法。     

某防渗帷幕高压旋喷桩试桩分析与探讨

在温州某垃圾填埋场水文地质与工程地质条件的基础上,对于有地下水渗流的砂层中,高压旋喷注浆单管法与三重管法试桩进行了对比试验与分析,高压旋喷注浆成桩效果及影响因素进行了探讨,供同类工程设计与施工提供参考.     

台风利奇马登陆期间的对流结构特征及对强降雨影响

2019年9号台风利奇马在浙江造成极端降水,其中8月9日白天浙江东部受台风外围螺旋雨带长时间影响,9日夜间在台风内核对流影响下降水有显著增强;降水中心与浙江临海地区的天台山、括苍山和雁荡山等地形特征密切相关。GPM（Global Precipitation Measure）卫星遥感反演表明近岸台风螺旋雨带以层积混合型降水为主,台风眼墙区域以热带暖云对流型降水为主;眼墙区雨滴有效直径更大、雨滴数密度更高,有利于形成高降水强度。台风登陆前移动速度较慢,浙江沿海地区维持低层锋生和辐合,有利于外围螺旋雨带降水维持和增强;登陆前后受环境垂直切变等因素影响,台风中心左前侧眼墙区域对流活跃,在登陆点附近强降水区偏向于台风中心左侧。分钟级降水观测表明台风登陆期间浙江近海山区降水强度2~3倍于平原地区,其中地形性降水增幅效应与台风对流非对称结构差异对降水影响程度基本相当,有利于在台风中心左前侧的括苍山—雁荡山山区形成强降水中心。     

新的构造控矿类型——螺旋构造控矿

概括天宝山新兴角砾岩筒铅锌矿,山东七宝火山岩型金矿,安徽铜陵凤凰山铜矿,辽宁簸箕山磷矿,辽宁清源红透山铜(锌)矿等构造控矿实例的解读,表明它们可建立一种新的构造控矿类型——螺旋构造控矿。受幔团螺旋运动上冲的地幔热柱多级浸演化的幔枝构造制约。     

对巨厚粉砂层中使用CFG桩有关问题的探索和研究

通过工程实例,介绍了在巨厚粉砂层中使用CFG桩处理地基存在的一些问题以及注意事项,阐述了一些常见事故及预防措施,特别提出了为保证基坑边坡稳定所采取的空桩处理措施方法。     

Impact of Cloud Microphysical Processes on the Simulation of Typhoon Rananim near Shore. Part II: Typhoon Intensity and Track

The impact of cloud microphysical processes on the simulated intensity and track of Typhoon Rananim is discussed and analyzed in the second part of this study. The results indicate that when the cooling effect due to evaporation of rain water is excluded, the simulated 36-h maximum surface wind speed of Typhoon Rananim is about 7 m s⁻¹ greater than that from all other experiments; however, the typhoon landfall location has the biggest bias of about 150 km against the control experiment. The simulated strong outer rainbands and the vertical shear of the environmental flow are unfavorable for the deepening and maintenance of the typhoon and result in its intensity loss near the landfall. It is the cloud microphysical processes that strengthen and create the outer spiral rainbands, which then increase the local convergence away from the typhoon center and prevent more moisture and energy transport to the inner core of the typhoon. The developed outer rainbands are supposed to bring dry and cold air mass from the middle troposphere to the planetary boundary layer (PBL). The other branch of the cold airflow comes from the evaporation of rain water itself in the PBL while the droplets are falling. Thus, the cut-off of the warm and moist air to the inner core and the invasion of cold and dry air to the eyewall region are expected to bring about the intensity reduction of the modeled typhoon. Therefore, the deepening and maintenance of Typhoon Rananim during its landing are better simulated through the reduction of these two kinds of model errors.     

Analytic Study on Potential Instability and Spiral Structure of Rain Clusters

This paper presents a study on potential instability and spiral structure of unstable rain clusters.First,we develop a linearized non-axisymmetrical mathematic model for rain clusters in circular cylindrical coordinates and acquire its analytic solution.Second,we discuss the potential instability of non-axisymmetrical rain clusters.Finally,we conclude that spiral structures can exist in rain clusters.Our analysis indicates that potential instability occurs when humid stratification coefficient is less than zero.Unstable growth rate increases with the increase of the absolute value for humid stratification coefficient.The simpler the vertical structure of perturbation,the thicker the inversion layer;additionally,the smaller the radius of the rain clusters,the larger the unstable growth rate.Simulation results agree well with those from observation and forecast.The spiral structure simulated by our model is similar to a radar echo,suggesting that rain clusters with spiral structures can occur in the atmosphere.In addition,they are generally close to the model solution in this work.     

海拉尔油田乌东区块螺旋井壁成因分析与解决方法

自海拉尔油田实施钻井提速以来,部分井出现螺旋井壁现象,对完井电测曲线造成一定影响,影响测井解释的共151口井,比例达15.60%。螺旋井壁现象在乌东区块尤为明显,仅乌东区块发生明显螺旋井达到36口,占乌东区块全部钻井的28.8%。从地质、工程等角度阐述了形成螺旋井的原因,并提出了解决思路与技术措施。2012年下半年在乌尔逊凹陷2口井试验螺旋井壁预防及解决方法,获得了较好的效果,未再大面积出现螺旋井壁现象。