冷家沙三段砂岩成岩序列与孔隙演化

笔者以辽河盆地冷家地区冷94井为例，通过铸体薄片、电镜扫描、能谱 阴极发光等分析和实验手段，对沙三段砂岩的成岩历史、成岩序列与孔隙演化及发展趋势刊物, 出成岩阶段可划分为同生期→早成岩阶段早期→早成岩阶段晚期→晚成岩阶段早期。孔隙演化主要在压实作用，粘土矿物的包膜作用，方解石、白云石的胶结作用，长石溶蚀作用、石英的次生加大和微晶石英的沉淀作用等方面进行了研究，阐述并总结了它们互相之间的内在联系。     

甘肃景泰地区内陆叠合型盆地成因地层格架

在详细研究组成内陆叠合型盆地的各个单型盆地的沉积体系三维构成的基础上 ,采用动态成因地层和层序地层分析方法 ,恢复了叠合型内陆盆地的成因地层格架 ,并根据各类等时地层界面的构型 ,将盆地地层序列划分为 7个沉积幕、3个构造沉积幕。进而分析了内陆盆地在同生裂陷和衰减坳陷等不同阶段的充填过程。     

赣东北晚二叠和晚三叠煤的微量元素对比研究

通过对赣东北晚二叠世和晚三叠世煤的微量元素对比研究，阐述了这两种类型煤中常量和微量元素的含量和赋存特征。通过煤质特征，矿物学和元素的组相关性分析，概括了引起这两种类型煤常量和微量元素之间差弄的地质原因。     

藏北高原双湖地区中侏罗统海相油页岩生物标志化合物分布特征及其意义

重点报道了藏北双湖地区中侏罗统海相油页岩的生物标志化合物特征,首次在该层位油页岩中检出丰富的正烷烃、类异戊二烯烷烃、萜类化合物及甾类化合物。正烷烃图谱呈单峰形,nC₁₅、nC₁₆或nC₁₇为主峰碳,轻烃组份占有绝对优势,OEP值 0.93～ 1.0 1,无明显的奇偶碳数优势分布;Pr/Ph值为 0.77～ 1.5 9,在剖面序列中呈波动分布,显示弱植烷优势或姥鲛烷优势;藿烷以C₃₀ 占优势,萜烷相对丰度五环三萜烷 >三环萜烷 >四环萜烷;规则甾烷∑ (C₂₇+C₂₈) >∑C₂₉,∑C₂₇/∑C₂₉值为 0.79～ 1.2 0,在剖面序列中下部C₂₇甾烷略占优势,上部C₂₉甾烷略占优势,重排甾烷C₂₇/规则甾烷C₂₇值为 0.5 1～ 3.6 3,在剖面序列中具有显著的波动性,同时检出了少量孕甾烷和 4-甲基甾烷。有机质母质构成中,既有丰富的藻类等低等水生生物,可能还有一定比例陆生高等植物输入混合的特点。油页岩处于成熟阶段,整个油页岩剖面序列具有一致的热演化程度。剖面中部油页岩具有极高的原始生产力,氧化-还原条件也是控制油页岩TOC和沥青“A”含量在剖面垂向变化的重要因素.     

多种方法确定单井中的地层重复——以吐鲁番—哈密盆地鄯科1井三叠系为例

鄯科 1井是吐鲁番—哈密盆地台北凹陷首次钻穿三叠系的一口科学探索井 ,并首次在三叠系发现轻质油流。文内以鄯科 1井为例 ,运用孢粉组合、岩性组合、地震剖面、倾角测井、无机元素、地球化学等多种方法从不同侧面分析了鄯科 1井三叠系内部地层重复的现象 ,这些方法有机的结合和相互的补充打破了单一方法进行地层划分的旧模式 ,初步进行了多方法交互使用进行地质分层的尝试 ,从而有效地消除了地层划分与对比中的多解性 ,使地层划分更可靠 ,相信这些方法的交互使用在其他地区和单井的地层划分对比中也同样有较好的使用价值     

陕西宁陕—户县地区商丹构造带北侧TTG岩系元素地球化学及其构造意义

陕西宁陕－户县地区商丹构造带北侧发现的花岗质片麻岩为古老侵入体，主要由黑云斜长片麻岩，黑云角闪斜长片麻岩，角闪斜长片磨岩等类型岩石组成，具有TTG岩系的组成特征，元素地球化学特征反映其形成于类似岛弧构造环境。     

沮漳河现代沉积研究

通过对沮漳河 1994～ 1998年洪水期与枯水期沉积的连续观察研究 ,指出了洪水期与枯水期沉积物搬运的不同机制和过程 ,识别出了 16种岩石相及 6种组合类型 ,每种组合的水动力条件及沉积过程决定了其沉积方式、沉积序列、产出位置和微环境特点。据此 ,将沮漳河可划分为 4个沉积微相单元 :河道内砾石及砂坝 ,典型凸岸点坝 ,决口扇与广布的河漫滩。提出了曲流河两个相邻弯顶之间存在凹岸滩坝的可能性 ,探讨了曲流河“二元结构”的形成过程和加积机理     

Evaluation of response and energy in actively controlled structures

A computational method of energy evaluation is derived to study the elastic responses and energy distribution of actively controlled single‐degree‐of‐freedom (SDOF) structures during earthquakes. Contrary to the common perception that applying active control force pumps energy into the structure, the applied control force can actually reduce the energy in the structure by reducing the input energy from earthquakes to the structure. In addition, applying control force can dissipate a large amount of energy in the structure when this control force is applied in the direction opposite to the displacement and velocity responses. To demonstrate this energy mechanism in active controlled structures, the two most popular control algorithms, optimal linear control (OLC) and instantaneous optimal control (IOC) algorithms, are used to calculate the control response and energy spectra. One‐step time delay is incorporated into the algorithms to take into consideration the practical aspect of active control. The effects of different earthquakes and damping ratios on control energy and response spectra are studied. These studies show that both OLC and IOC are very effective in reducing the structural displacement and velocity responses by reducing the input earthquake energy as well as dissipating a large amount of energy in the structure. Copyright © 2001 John Wiley & Sons, Ltd.     

Effectiveness of structural control based on control energy perspectives

A computational algorithm for maximizing the control efficiency in actively controlling the elastic structural responses during earthquake is proposed. Study of optimal linear control using a single degree of freedom shows that applying active control is very effective in reducing the structural displacement and velocity responses for long‐period structures, but at the same time it has an adverse effect in increasing the absolute acceleration response. The extent of this adverse effect reduces the effectiveness of the control system, and therefore it poses a limit on the maximum control force in order to provide maximum control efficiency. In view of this shortcoming, maximum control energy dissipation is used to define the most effective optimal linear control law. Less displacement and velocity response are expected as larger control force is applied, but there is always a limit that maximum control energy can be dissipated. This study shows that this limit depends on the structural characteristics as well as the input ground motion, and a general trend is that the maximum control energy decreases as damping increases. Finally, application of the proposed algorithm on a six‐storey hospital building is presented to show the effectiveness of using optimal linear control on a multi‐degree‐of‐freedom system from the control energy perspectives. Copyright © 2001 John Wiley & Sons, Ltd.     

用航摄像对制作全息地形立体图的新技术

全息地形立体图是将传统的光学机械立体投影术与全息术相结合，用航摄像对合成为一张具有一定焦深的近像面全息图。它既具有像面全息图衍射效率高，可以用扩展的白光光源再现的优点，也具有体全息图一定的波长和角度选择性。本文介绍了拍摄这种立体图的装置和方法，并从理论上对实验结果进行了一些分析，最后指出了它的应用前景。