缺氧-好氧系统(A/O系统)处理废水的基础研究

缺氧-好氧系统(Anoxic/Oxic system简称A/O系统)是一项同时去碳与脱氮的废水处理新工艺。应用和推广A/O工艺处理含氮有机废水对水体氮污染的防治具有重要的现实意义。在人工合成废水的模型试验中,A/O系统污泥负荷以0.1～0.2公斤BOD_5/公斤MLSS天;进水BOD_5:TN>3:1为宜。在上述条件下,A/O系统总氮去除率可达60％以上。本文还提出了一些改善污泥沉降性能的方法。     

鄂尔多斯盆地构造与耦合成矿关系思考

目的探索多种矿产耦合成矿的盆地构造动力学问题。方法综合剖析鄂尔多斯盆地构造与油、气、煤和砂岩型铀矿等多种矿产共存富集的时空配置关系。结果鄂尔多斯盆地多种矿产相互关联、共存富集于古生界和中生界的不同地质层位，促使它们耦合成矿的时代主要发生在晚侏罗-早白垩世的燕山中晚期，主体受控于中新生代多构造演化及其关键变革时期的构造转换过程。结论探索、研究鄂尔多斯盆地中新生代构造动力学演化及其叠加转换关系，有助于客观认识多种矿产共存富集可能受控的统一盆地动力学环境及其耦合成矿效应。     

邛海流域生态脆弱性研究

简述了生态脆弱性的概念,从自然和人为干扰两个方面分析了邛海流域的生态脆弱性特征及其成因,并对解决邛海流域的生态脆弱性问题提出了相关的建议。     

厚黄土薄基岩地区开采沉陷规律探讨

地下开采-覆岩移动-地表沉陷之间存在着互为因果的链动关系。不同岩性、不同力学性质的上覆岩土层对地下煤层开采的响应性是不同的。文中在前人有关研究成果的基础上，探讨了在厚黄土薄基岩条件下。地下开采引起的地表沉陷的规律性。研究认为，在厚黄土层覆盖区，煤层上覆基岩是地表黄土层沉陷变形的控制层，黄土层本身的工程地质特性、地形地貌条件和地下开采程度对地表沉陷都有一定的影响。这一研究成果对减缓和控制地下开采引起的地表变形破坏有重要意义。     

高层建筑物沉降变形监测实践

结合高层建筑沉降变形的监测实践，论述了沉降观测的应用技术、施工过程与方法，为确保建筑物的正常施工及安全运营提供了可靠的依据，沉降变形监测方法可供实际工程变形监测时参考。     

川西前陆盆地须家河组沉积相及岩相古地理演化

川西前陆盆地上三叠统须家河组是油气勘探的重点层位.依据新的地层划分方案、大量钻井、露头及岩芯资料,结合区域地质特征,详细研究了须家河组沉积相、岩相古地理特征及其演化.结果表明:研究区内主要发育了冲积扇、湖相三角洲、湖泊、海相三角洲、滨岸和海湾六种主要的沉积相类型;古地理演化经历了由海相环境-海陆过渡相环境-陆相环境的转变;在须四早期,受安县运动的影响,龙门山褶皱成山,使研究区与阿坝海域完全隔绝,整个四川盆地真正进入了陆相沉积环境.     

Abnormal high pressure in Kuqa foreland thrust belt of Tarim basin: Origin and impacts on hydrocarbon accumulation

Following analyses of the abnormal high pressure distribution characteristics, based on the geological characteristics, tectonic stress field and physical simulation, we investigated the formation mechanisms of abnormal high pressure and its impacts on hydrocarbon accumulation in the Kuqa foreland thrust belt. The abnormal high pressure appears at the bottom of the Paleogene and obviously exists in the Triassic and Jurassic. However, the pressure coefficient in the Triassic and Jurassic is lower than that in the Cretaceous and at the bottom of the Paleogene. Horizontally, the abnormal high pressure distribution is characterized by E-W orientation zoning. The maximum pressure coefficient lies in the Kelasu-Dongqiu-Dina tectonic zones in the center of the Kuqa foreland thrust belt and decreases away from the tectonic zones. The formation of abnormal high pressure was mainly related with the intense tectonic compression in the Early Pleistocene time, and tectonic uplifting, undercompaction and hydrocarbon generation were secondary factors contributing to abnormal high pressure. Under the rapid and intense tectonic compression in the Early Pleistocene, the rock framework firstly undertook 1/4 of the compression stress and the other was borne by the pore fluids. Due to the presence of great seal of gypsum-salt or gypsum-mudstone beds in the Paleogene, the pressure of pore fluids increased rapidly and led to the abnormal high pressure in the Kuqa foreland thrust belt. The abnormal high pressure has important impacts on hydrocarbon accumulation. It is one of the necessary conditions for formation of large oil and gas fields in the Kuqa foreland thrust belt.     

琼东南盆地第三纪高分辨率层序地层划分特征

通过对南海北部琼东南盆地第三纪地震、测井曲线和岩相资料的3综合分析，进行了高分辨率层序地层划分。盆地充填序列按古构造运动面划分为5个超层序，分别与盆地演化的阶段性相当。在其内部可进一步划分为19个Ⅲ级层序和42个Ⅳ级层序。并以基准面旋回为基础，长周期基准面旋回为周期，短周期为成因地层单元，论述了不同结构和叠加样式的短期旋回型式及在中长期旋回中的分布规律，基准面变化与层序发育特征、层序分布模式、沉积体系类型和盆地充填演化序列，以及与油气储盖组合的关系。     

Determination of the Altyn Tagh strike-slip fault basin and its relationship with mountains

A special extended basin topography is developed in the middle segment of the Altyn Tagh Fault Zone. The ratio of its length to width is over 50. The long boundaries at the two sides of the basin are controlled by the straight normal faults with strike-slip component. Within the basin, the Cenozoic strata are spread. The Altyn Tagh main fault goes through the basin, and a series of strike-slip topography was formed within the basin. The reverse thrust structures were formed at the two sides of the center of the basin, thus making the geological bodies composed of old metamorphic rocks at the two sides of the basin extrude vertically，and forming the extended massif (mountain) at the sides of the basin and parallel to the basin. This special topography was called the strike-slip fault basin. The giant extended strike-slip fault basin began to form during Pliocene, and its topography was basically formed during the late Pleistocene. It is the special topography formed during the strike-slip deformation process of the Altyn Tagh Fault Zone and under both transpression and uplifting.     

Satellite SAR interferometric observations of displacements associated with urban subsidence in Suzhou, Eastern China

SAR interferometry (InSAR) has a high potential for surface displacement mapping in the range from millimeter to meter. In this paper the potential of ERS-1/2 SAR interferometry for mapping subtle land subsidence has been investigated. A time series of ERS-1/2 SAR data from February 1993 to February 2000 is collected from measurements taken in Suzhou city, Jiangsu Province, China, eight ERS-1/2 SAR images are used to create seven interferograms, and three differential interferograms are produced using the three-pass method, which clearly show the spatial extent of land subsidence. The deformation maps are validated by leveling surveys, the correlation coefficient and standard deviation between them are 0.943 and 0.1706 respectively. Based on seven benchmarks, the subsidence rates are estimated, the overall trends are in close agreement with InSAR results. The results of study show that for the mapping of land subsidence in urban environments InSAR has a strong potential due to its cost-saving, high resolution and accuracy.