基于GIS技术的大地电磁测深数据库系统设计与实现

大地电磁(Megnetotelluric,简称MT)测深数据子库是中国岩石圈三维结构数据库所属子库之一。本文阐述了结合GIS技术开发大地电磁测深数据库管理系统的必要性。讨论了新型大地电磁测深数据库及基于GIS平台的数据库管理系统的总体设计思想。在分析原ACCESS大地电磁测深数据库所存在问题的基础上,建立新的MT数据库实体-关系模型,并进一步把原有的MT数据库改造为SQL Server 2000数据库;同时,开发了基于GIS的MT数据库管理系统。本文介绍了基于GIS的MT数据库管理系统所具有的功能。     

苏北盆地XH 1＃钻孔沉积物磁化率与粒度组分相关性变化特征及其意义研究

对苏北盆地XH 1#钻孔沉积物磁化率与粒度组分的相关性进行了研究，研究结果表明，此钻孔沉积物磁化率与粒度组分的相关性在不同深度段内有着不同的表现:在350～247 m深度段内，磁化率大小与中值粒径大小表现为负相关、与4～12Φ各粒级组分百分含量表现为正相关；在234～0 m深度段内，磁化率大小与中值粒径大小表现为正相关，与1～3Φ粒级组分百分含量表现为密切的正相关；247～234 m深度段是上述两种相关性变化的一个过渡阶段。环境磁学实验结果也揭示出在上下两个深度段内磁性矿物组成上也存在差异。这种不同深度段内磁化率与粒度组分相关性上的大的变化，以及磁性矿物组成上的差异共同揭示出，在深度247～234 m这段沉积物的沉积过程中，苏北盆地内可能发生了一次重大的事件，正是这次重大事件的发生导致了碎屑沉积物来源的改变，出现了上下两部分磁化率大小与粒度组分相关性上的差异。     

Excel97在多目标地球化学调查分析质量管理中的应用

采用中文版Excel97设计和实现了多目标地球化学调查样品分析质量管理。该系统只要建立好相应的分析数据库，就可自动获得分析报告、报出率、内检样检查、标样检查、标样监控图等监控数据。     

基于空三模型实现非接触式实测地质剖面解决方案研究

本文提出的"基于空三模型实现非接触式实测地质剖面解决方案",是通过导出空间三维模型剖面多段线三维坐标,使用自主开发的辅助软件,在AutoCAD中快捷生成剖面图。通过实践,该方案能快速完成无需人工到实地进行实测的实测剖面工作,尤其危岩体勘查中能精确反映高陡崖区微地貌起伏形态和结构面特征,解决了人工实测无法完成的工作。     

JOPENS数据库的平滑迁移

由于现使用的测震软件JOPENS系统是建立在MySQL数据库上的,MySQL数据库是面对中小型企业的开源数据库,其性能与稳定性都不及现在主流Oracle。阐述了在MetaMatrix的基础上,实现JOPENS数据库从MySQL到Oracle的平滑迁移。     

大数据时代地理信息科学专业学生美学素养的培养

加强地理信息科学专业学生美学素养的培养是大数据时代对专业人才的新需求.分析了大数据时代地理信息科学专业的新特征;探讨了地图美学在现代地图学科体系中的地位,以及在地理信息认知、传输和视觉感受过程中的功效;提出了培养学生美学素养的课程设置与具体途径,以提升学生对地图美的感知和创造能力.为相关院校地理信息科学专业课程设置提供...     

A double-differenced cycle slip detection and repair method for GNSS CORS network

The difficulty to detect and repair cycle slip of carrier phase measurements is a key limit for continuously high accuracy of GNSS positioning and navigation services. We propose an automated cycle slip detection and repair method for data preprocessing of a CORS network. The method jointly uses double-differenced (DD) geometry-free (GF) combination and ionospheric-free observation corrected for the computed geometrical distance (IF-OMC) to estimate the cycle slips in dual-frequency observations. The DD GF combination, which is only affected by the ionospheric residual, can be used to detect cycle slips with high reliability except for special pairs such as (77, 60) on GPS L1/L2 frequencies. The detection principle of the IF-OMC observable is such that there is a large discontinuity related to the previous epoch when cycle slips occur at the present epoch. The disadvantages of these two combinations can be overcome employing the proposed detection method. The cycle slip pair (77, 60) has no effect on the GF combination, while a change of 14.65 m is derived from GPS L1/L2 observations using the IF-OMC algorithm. Using pre-determined station coordinates as precise values, we found that the accuracy of the DD IF-OMC combination was 18 mm for a 200-km CORS baseline. Therefore, cycle slips in dual-frequency observations can be correctly and uniquely determined using DD GF and IF-OMC equations. The proposed method was verified by adding simulated cycle slips in observations collected from the CORS network under a quiet ionosphere and shown to be effective. Moreover, the method was assessed with observations made during intense ionospheric activity, which generated extensive cycle slips. The results show that the algorithm can detect and repair all cycle slips apart from two exceptions relating to long data gaps.     

程序升温-气相色谱-同位素比值质谱法分析多环芳烃单体碳同位素组成

环境样品中PAHs的单体碳同位素比值在迁移转化过程中能基本保持稳定,是重要的溯源指标,可通过气相色谱-同位素比值质谱(GC-IRMS)分析获得。对于低PAHs含量的样品,满足GC-IRMS检出限是高精度、准确分析单体碳同位素比值的前提。本文优化了一种程序升温汽化进样(PTV)方法,通过对PTV进样模式及进样口参数进行优化调整,提高目标物谱峰强度,进而提高GC-IRMS碳同位素分析的灵敏度。实验对比研究了恒温不分流、PTV不分流和溶剂分流进样模式,并对PTV进样口参数包括进样口压力梯度、传输温度和时间、蒸发温度和时间、进样口不分流时间进行了对比优化,以选出最优的PAHs单体碳同位素分析条件。结果表明：在PTV不分流进样、进样口压力40psi—60psi—70psi梯度升高、传输温度320℃、传输时间1.0min、蒸发温度55℃、蒸发时间2.5min、不分流时间1.5min条件下,PAHs的单体碳同位素结果最优。增加预柱可以提高峰强,尤其5环PAHs的峰强度提高达50%~100%。单体碳同位素分析精度(1σ)在0.5‰以内,系统性碳同位素分馏可以采用双标法校正。优化后的PTV-GC-IRMS方法可以实现低含量PAHs单体碳同位素的高精度、准确分析,扩大了同位素溯源在环境研究中的适用性。     

“7·21”北京特大暴雨成因分析(I): 天气特征、层结与水汽条件

利用常规、加密自动气象站以及NCEP1°×1°再分析资料,对北京“7.21”特大暴雨过程天气特征和环境条件进行了初步分析。结果表明：1) 降水过程由锋前暖区和锋面降水组成。暖区降水持续时间长,小时雨量大,具有典型的“列车效应”,是造成特大暴雨的主要降水过程。2) 中高层低涡东移、副热带高压北抬、中低层低涡暖式切变线影响是暴雨主要形势特征,暴雨发生在低层低涡右前部暖式切变和高空强辐散气流下方。3) 暴雨过程开始前对流层中低层存在双层湿暖盖。位势不稳定层结的建立机制主要与低层增湿和中层变干的湿度差动平流有关,而低层增湿和中层变干过程与中低层风向转变相关联。4) 暴雨发生前0 — 6 h对流层整层不断增湿,且对流层中高层比低层增湿效应更加明显。与普通暴雨增湿过程和水汽主要集中在对流层中下层不同,深厚的湿度层次,较低的凝结高度和自由对流高度是其显著特征。     

沉积物孔隙毛细管压力与甲烷水合物饱和度关系研究

To better understand the relationship between the pore capillary pressure and hydrate saturation in sediments, a new method was proposed. First, the phase equilibria of methane hydrate in fine-grained silica sands were measured. As to the equilibrium data, the pore capillary pressure and saturation of methane hydrate were calculated. The results showed that the phase equilibria of methane hydrates in fine-grained silica sands changed due to the depressed activity of pore water caused by the surface group and negatively charged characteristic of silica particles as well as the capillary pressure in small pores together. The capillary pressure increased with the increase of methane hydrate saturation due to the decrease of the available pore space. However, the capillary-saturation relationship could not yet be described quantitatively because of the stochastic habit of hydrate growth.