长春地区地表温度日变、年变对地温测量的影响

通过实地观测试验,并采用傅里叶分析法进行理论分析,来研究长春地区地表温度日变、年变对地温测量的影响规律及影响深度,为在长春地区利用浅层地温测量方法研究地质问题提供重要参数信息.地温变化幅度随深度作指数衰减,衰减系数与地表温度周期、热扩散率有关.     

综合物探方法在堤防质量检测中的应用

在堤防质量检测中,地球物理方法能够实现快速、无损的探测,但采用单一物探方法对堤防隐患的判别易形成多解,也很难对堤防质量做出准确分类.本文中应用探地雷达、高密度电法、地震勘探等综合物探方法对大源渡堤防质量进行检测,并以龙荫港以例,通过综合三种物探方法互相参照、相互验证,互为补充,查明了堤防隐患的分布位置与埋深,为堤防质量检测提供一种新的工作方法.     

利用毛管压力曲线分形分维方法研究流动单元

利用取心井铸体薄片获得的图像资料和毛管压力曲线,通过图像分形几何学方法以分维数的形式定量地表征出了复杂的微观孔隙喉道结构特征,发现能够很好地划分和评价孔隙岩石中油、气、水的渗流差异,可以用于储层微观流动单元表征。文中阐述了岩石微观孔隙喉道结构分形的理论基础、计算方法和应用于表征流动单元的依据。建立了中国西部砾岩低渗透油藏微观孔隙喉道分维数与孔隙度、渗透率之间计算图版,据此在油藏中利用常规测井资料获得的孔隙度、渗透率参数计算微观孔隙喉道分维数,开展全油藏流动单元划分与评价,取得了良好的效果。研究结果表明,利用毛管压力曲线分形分维方法研究储层微观流动单元是一种很有效的途径。     

数字城市:智能城市的初级阶段

针对国内外数字城市研究和建设中的主要问题,介绍了全球化进程中正在兴起和汇聚的新技术———物联网与传感器网络、空间信息网格等为数字城市的演进提供的可行性。提出数字城市的发展必然导向智能城市,并将数字城市作为智能城市的初级阶段进行重新诠释;提出为了适应数字城市向智能城市进化,数字城市系统的构建必须满足开放性、易拓展性、可重用性、可动态适应的智能性等特征。     

青藏高原东北缘共和盆地第四纪磁性地层学研究

共和盆地第四纪剖面磁性地层学研究表明,该剖面包含了四个正极性段,三个负极性段,剖面底部地层年龄约为2.11Ma B.P.。结合剖面的沉积特征和已有的孢粉组合特征分析,可以确定该剖面记录了共和盆地2.11Ma B.P.以来的气候变化,且气候发生转型的主要时期依次为1.92 Ma B.P、1.75Ma B.P.、1.40Ma B.P.、1.02 Ma B.P.和0.87Ma B.P.。其主要原因可能是青藏高原强烈隆升远程效应的结果。共和盆地气候变化时间序列的建立为研究青藏高原隆升及环境效应提供有力证据。      

1992～2005年云南地震灾害及其对农村民居的影响

统计了1992～2005年中国大陆与云南境内破坏性地震灾害、人员伤亡和经济损失情况。对云南与中国大陆同期地震灾害及其损失进行了对比,阐述了云南地震灾害和灾害损失的特点;统计了云南地震灾害城乡分布情况、农村民居破坏面积以及因农居的地震破坏而造成的人员伤亡和经济损失,分析了地震灾害对农村和农民的危害性,并讨论了农居破坏带来的社会问题。     

岷县-卓尼5.0级地震的基本特征和地质背景研究

归纳总结了岷县-卓尼5．0级地震的基本参数、烈度分布、建筑物震害、发震构造等基本特征,并分析了该地震烈度偏高和震害较重的基本原因。该次地震与2003年11月13日岷县Ms5．2地震基本特征相同,发震构造也相同,为临潭-宕昌断裂带。     

大兴安岭地区古利库金(银)矿床成因探讨

古利库金(银)矿床的形成与早白垩世中晚期火山喷发活动及其所形成的火山穹隆构造有关,矿体定位于火山活动波及范围内,平均成矿温度220℃,平均成矿压力135×105Pa,成矿深度约500～600m,属冰长石-绢云母型浅成低温热液矿床,与国内外同类型矿床具有可比性.     

青藏铁路填土路基热-力耦合离散元研究

多年冻土是含有冰的特殊土体,在自然环境变化及工程扰动下易发生冻胀融沉变形,严重威胁着青藏高原工程建筑物的安全稳定,特别对青藏铁路的畅通运营提出了严峻挑战.以青藏铁路五道梁地区路基断面为研究对象,采用颗粒离散单元法,通过建立热-力离散元计算模型,对路基的温度场和变形进行了计算和预测.结果表明:离散单元法克服了有限元方法无...     

Impacts of native vegetation on the hydraulic properties of the concentrated flows in bank gullies

To quantify the impacts of native vegetation on the spatial and temporal variations in hydraulic properties of bank gully concentrated flows, a series of in situ flume experiments in the bank gully were performed at the Yuanmou Gully Erosion and Collapse Experimental Station in the dry-hot valley region of the Jinsha River, Southwest China. This experiment involved upstream catchment areas withone-and two-year native grass(Heteropogon contortus) and bare land drained to bare gully headcuts, i.e., Gullies 1, 2 and 3. In Gully 4, Heteropogon contortus and Agave sisalana were planted in the upstream catchment area and gully bed, respectively. Among these experiments, the sediment concentration in runoff in Gully 3 was the highest and that in Gully 2 was the lowest, clearly indicating that the sediment concentration in runoff obviously decreased and the deposition of sediment obviously increased as the vegetation cover increased. The concentrated flows were turbulent in response to the flow discharge. The concentrated flows in the gully zones with native grass and bare land were sub-and supercritical, respectively. The flow rate and shear stress in Gully 3 upstream catchment area were highest among the four upstream catchment areas, while the flow rate and shear stress in the gully bed of Gully 4 were lowest among the four gully beds, indicating that native grass notably decreased the bank gully flow rate and shear stress. The Darcy–Weisbach friction factor(resistance f) and flow energy consumption in the gully bed of Gully 4 were notably higher than those in the other three gully beds, clearly indicating that native grass increased the bank gully surface resistance and flow energy consumption. The Reynolds number(Re), flow rate, shear stress, resistance f, and flow energy consumption in the gully beds and upstream areas increased over time, while the sediment concentration in runoff and Froude number(Fr) decreased. Overall, increasing vegetation cover in upstream catchment areas and downstream gully beds of the bank gully is essential for gully erosion mitigation.