基于三点击实法的压实度评估方法

基于三点击实法的基本原理,提出了压实度的评估方法。该方法考虑了击实试样初始含水率与碾压现场含水率的误差,得到不同误差组合下的真实压实度,并由此得到真实压实度的取值范围、真实压实度大于某个临界值或设计指标的概率及近似压实度相比于真实压实度偏大或偏小的概率。该方法可获得压实度更加详细的信息,有利于对施工质量作出准确判断。     

石油污染多孔介质湿润性变异特征

一定程度的石油污染可使多孔介质的湿润性发生变异,导致介质持水能力降低、地下水石油污染、粮食产量品质下降等.采用滴水穿透时间法与酒精溶液入渗法,测定了亚粘土和粗砂在不同柴油、机油含量下的斥水水平,确定了亚粘土、粗砂由亲水表面变为疏水表面的临界含油量.结果表明,亚粘土、粗砂湿润性变异的临界机油含量分别约为7%、0.5%,粗砂湿润性变异的临界柴油含量约为14%,而柴油污染对亚粘土湿润性的影响不显著.另外,当石油污染多孔介质的含水量达到某一临界值时,湿润性将再次发生反转,由疏水表面变回亲水表面.测得机油、柴油污染粗砂的临界含水量约在0.2%~1%之间,机油污染亚粘土的临界含水量在数值上与其含油量近似相等.      

大青山东段火山成因非金属矿床地质特征及控矿因素探讨

大青山东段中生代火山成国非金属矿床可划分为两大成因类型,８种基本类型。对不同成因类型矿床地质特征,控矿因素的详尽研究表明：火山穹隆构造与火山岩浆,火山熔岩改造型及火山碎屑岩－熔岩改造型沸石,膨润土矿床有关;火山侵出岩丘控制了珍球岩矿床与沸石矿床的形成。     

21世纪黄河下游防洪减灾对策

黄河是受人类活动强烈影响的河流,随着人类活动对流域环境的影响日趋增强,进入黄河下游的水沙条件发生了重大改变,防洪出现了许多新情况、新问题。黄河水资源进一步开发利用,下游牵断流及小水时间逐年延长,黄河将无有效输沙水量,如果来沙不能控制,现行河道的行洪能力和寿命将始终是中国的忧患。小浪底水库２００１年投入运用后,对黄河下游又将强烈堆积。２１世纪社会经济发展对黄河下游防洪减灾提出了更高要求,根据多年对黄     

三姑泉域水环境质量评价及水污染控制对策

为确保三姑泉域水资源的可持续开发利用,采用常规方法对泉域水环境质量进行了评价。结果表明:三姑泉域的地表水和地下水已不同程度遭受污染,水环境的污染与煤矿开采以及工业废水和生活污水的不合理排放有关。结合当地实际提出水污染控制对策。研究成果为三姑泉域水资源管理和保护提供科学依据。     

长沙仪器厂滑坡的特征与防治措施

该文根据详细野外工程地质勘探,论述了长沙仪器厂滑坡的特征,对它的形成提出了定性分析结果,同时还对其稳定性作了评价,最后提出了对应的防治措施。     

中国煤矿工程地质灾害与减灾对策研究

通过对煤矿工程地质灾害及灾害链概念和构成的系统论述,全面分析了煤矿开发中工程地质的灾害问题及致灾特点,并提出了防治对策。     

澳大利亚西北陆架油气分布规律与主控因素研究

澳大利亚西北陆架油气资源,特别是天然气资源富集,是全球液化天然气的主要供应地之一。西北陆架不仅是澳洲油气勘探潜力最大的地区,而且也是中国油公司拓展海外油气业务的重要地区。以多方面收集的数据资料为基础,探讨澳大利亚西北陆架油气分布规律,揭示油气分布主控因素,进而优选有利勘探区。区域上,已发现的油气储量主要分布于西北陆架最西南端的北卡那封盆地;层系上,油气主要富集于下白玺统泥页岩区域盖层之下的上三叠统、侏罗系或下白玺统碎屑岩储集层。油气分布整体表现为“内油外气、下气上油、以气为主的特征,油田多局限于侏罗纪裂谷作用控制的发育有成熟生油岩的次盆地。腐殖型干酪根类型和烃源岩的高成熟度决定了西北陆架的富气特征,侏罗纪发育的裂谷控制了石油的区域分布。基于油气地质综合研究和油气发现过程,优选出了埃克斯茅斯高地、埃克斯茅斯次盆、巴科一次盆、卡斯韦尔次盆、萨胡尔台地、卡尔德尔地堑和武尔坎次盆7个有利勘探区。     

Development of Geological Data Warehouse

Data warehouse (DW), a new technology invented in 1990s, is more useful for integrating and analyzing massive data than traditional database. Its application in geology field can be divided into 3 phrases: 1992-1996, commercial data warehouse (CDW) appeared; 1996-1999, geological data warehouse (GDW) appeared and the geologists or geographers realized the importance of DW and began the studies on it, but the practical DW still followed the framework of DB; 2000 to present, geological data warehouse grows, and the theory of geo-spatial data warehouse (GSDW) has been developed but the research in geological area is still deficient except that in geography. Although some developments of GDW have been made, its core still follows the CDW-organizing data by time and brings about 3 problems: difficult to integrate the geological data, for the data feature more space than time; hard to store the massive data in fifferent levels due to the same reason; hardly support the spatial analysis if the data are organized by time as CDW does. So the GDW should be redesigned by organizing data by scale in order to store mass data in different levels and synthesize the data in different granularities, and choosing space control points to replace the former time control points so as to integrate different types of data by the method of storing one type data as one layer and then to superpose the layers. In addition, data cube, a wide used technology in CDW, will be no use in GDW, for the causality among the geological data is not so obvious as commercial data, as the data are the mixed result of many complex rules, and their analysis needs the special geological methods and software; on the other hand, data cube for mass and complex geo-data will devour too much store space to be practical. On this point, the main purpose of GDW may be fit for data integration unlike CDW for data analysis.     

A three dimensional model of muckpile formation and grade boundary movement in open pit blasting

Summary Formulation and case studies of a three dimensional kinematic model are presented. Thein situ overburden geometry can be simulated accurately and various initiation patterns of blasts can be modelled. The overburden geometry, hole patterns and explosive distribution are all explicit model inputs. Because the effect of explosive properties, rock mass condition and inter-row delay are very difficult to measure in terms of blast performance, these are represented in the model by control parameters which are left for calibration using field data. The output of the model is a three dimensional muckpile shape of any cross section and a contour map of grade distribution within the muckpile. Two case studies are presented which have shown that the model is a valuable tool for optimizing production blasting as well as for controlling grade dilution during blasting.