现代项目管理在水电机组检修中的应用研究

针对目前水电机组检修管理存在的不足,系统地研究了现代项目管理技术和方法在水电机组检修中的应用,旨在提高检修项目的管理水平,为电厂创造更多的效益。     

周波控制的工业缝纫机马达节能技术

提出一种采用单相周波控制方式的,由双向晶闸管及其组成过零触发控制方式,使双向晶闸管主回路在整个正弦全波电压期间依据轻重负载的变化导通不同比率的周波,即通过改变通断时间的比值达到交流调功的目的,负载上得到的是完整的电压电流波形,而且节能,解决了现有缝纫机电路功率因素低的问题。     

冻融损伤对再生混凝土耐久性及与钢筋粘结性能分析

制作掺入引气剂和未掺入引气剂的100％粗骨料取代率的再生混凝土RC1和RC2两组试件以及掺入引气剂和未掺入引气剂的普通混凝土NC1和NC2两组试件,并分别对经过不同次数冻融循环试件的抗压强度、质量损失率、动弹性模量损失率进行研究。结果表明,冻融后各组试件的抗压强度、质量损失率及动弹性模量损失率均降低,对于添加引气剂的NC1和RC1两组试件损失较小,其中RC1组试件在200次冻融后抗压强度损失接近40％,质量损失率达0．5％,动弹性模量损失率38．5％。100％取代率并加入引气剂的ZRC组试件冻融后进行中心拨出实验,发生劈裂破坏和钢筋拔出破坏2种形式。再生粗骨料混凝土与钢筋的极限粘结应力均随冻融次数的增加而降低,200次冻融后极限粘结应力下降33．5,荷载滑移曲线既有上升段也有下降段。     

直径图为11圈的7距离集研究

如果平面点集X中的任意两点确定的互异距离数为k,则称X为k距离集。用d(x,y)表示平面上互异两点x,y之间的距离,记X中的最大距离为直径D=D(X)。直径图DG(XD)是由X中所有直径构成的图,XD表示其顶点集。讨论了当X是一个7距离集时,直径图DG(XD)的构型。利用DG(XD)中最多包含一个圈,且只能为奇圈的特性,以及直径所具有的特殊性,证得当直径图为11圈时,其顶点集XD恰好为某正十一边形的顶点集。     

单相有源电力滤波器的控制方法

针对基于单周控制的单相有源电力滤波器只能同时补偿谐波和无功电流、且要求电源电压无畸变的情况,利用基于瞬时无功功率理论的谐波和无功分量检测方法,将单周控制作为电流跟踪控制,在推出控制方程和控制电路的基础上进行了仿真研究,仿真结果证明在电网电压存在畸变的情况下,采用该方案的有源电力滤波器补偿效果良好,而且可以根据需求实现灵活补偿.     

鄂尔多斯盆地城华地区长3油组高分辨率层序地层学分析

运用高分辨率层序地层学的基准面旋回原理,以钻井、测井资料的综合研究为基础,对鄂尔多斯盆地城华地区长3油层组进行高分辨率层序地层学分析,将其划分为超短期、短期和中期3个级次的基准面旋回层序.各级基准面旋回可进一步分为向上"变深"和向上"变浅"非对称型与对称型两大类3种基本层序类型和更多的亚类型.重点论述了超短期基准面旋回层序沉积背景、叠加式样和沉积动力学过程.在研究超短期和短期旋回叠加和分布规律的基础上,总结出短期基准面旋回的分布模式.研究表明自水下分流河道向河口坝中期基准面旋回层序结构稳定的变化规律,与处于三角洲强烈进积期的长3油层组沉积演化特征是一致的.     

基于LCA碳总排放量的大型工业园区综合能源供应系统多目标优化

大型工业园区碳集中排放是导致环境恶化的重要原因之一。本文提出大型工业园区综合能源供应系统模型,包含能源输入、能源转换、能源存储三个模块,通过能源转换降低传统能源使用比例,为园区提供电、热、冷、气四种所需负荷。基于生命周期计算设备和能源的碳排放量,通过碳捕集技术对既有碳排放进行消纳,并将经济成本、碳排总放量和清洁能源利用率作为目标函数,利用ISSA算法对工业园区综合能源供应系统进行优化配置。算例结果表明,引入储能系统和P2G系统后,园区能源系统的清洁能源使用比例是之前的3.92倍,单位用电量下碳排放系数降低30.2%,综合单位电价降低0.38元,证明综合能源供应系统在满足园区能源需求的同时也可以降低碳排放量和经济投入。     

基于中期基准面旋回变化的沉积微相精细研究——以松辽盆地扶余油田泉四段为例

 从区域沉积背景出发,以岩心和测井资料分析为基础,对松辽盆地扶余油田泉四段的岩石类型、粒度分布、沉积构造、泥岩颜色及地球化学特征等各类沉积相标志进行分析,确定其为三角洲沉积,包含三角洲平原和前缘亚相。其中,平原亚相可识别出分支河道、决口扇、天然堤、废弃河道、湖泊沼泽微相;前缘亚相可细分为水下分支河道、河口坝、远沙坝、水下天然堤和支流间湾等微相。依据沉积微相与地层格架的成因关系,在中期基准面旋回的控制下应用取心关键井建立了沉积微相的定量识别图板,对非取心井进行沉积微相的定量识别与划分,并在此基础上绘制了沉积微相的平面及剖面图,总结了微相类型的平面和纵向展布规律及其与含油性的关系,指出分支河道砂体发育规模、连续性、储集性、含油性最好,其次为河口坝砂体,为研究区下一步的开发方案提供地质依据。     

Coral reef ecosystems in the South China Sea as a source of atmospheric CO<Subscript>2</Subscript> in summer

Field measurements of air-sea CO2 exchange in three coral reef areas of the South China Sea (i.e. the Yongshu Reef atoll of the Nansha Islands, southern South China Sea (SCS); Yongxing Island of Xisha Islands, north-central SCS; and Luhuitou Fringing Reef in Sanya of Hainan Island, northern SCS) during the summers of 2008 and 2009 revealed that both air and surface seawater partial pressures of CO2 (pCO2) showed regular diurnal cycles. Minimum values occurred in the evening and maximum values in the morning. Air pCO2 in each of the three study areas showed small diurnal variations, while large diurnal variations were ob-served in seawater pCO2. The diurnal variation amplitude of seawater pCO2 was ~70 μmol mol–1 at the Yongshu Reef lagoon, 420–619 μmol mol–1 on the Yongxing Island reef flat, and 264–579 μmol mol–1 on the reef flat of the Luhuitou Fringing Reef, and 324–492 μmol mol–1 in an adjacent area just outside of this fringing reef. With respect to spatial relations, there were large differences in air-sea CO2 flux across the South China Sea (e.g. ~0.4 mmol CO2 m–2 d–1 at Yongshu Reef, ~4.7 mmol CO2 m–2 d–1 at Yongxing Island, and ~9.8 mmol CO2 m–2 d–1 at Luhuitou Fringing Reef). However, these positive values suggest that coral reef ecosystems of the SCS may be a net source of CO2 to the atmosphere. Additional analyses indicated that diurnal variations of surface seawater pCO2 in the shallow water reef flat are controlled mainly by biological metabolic processes, while those of deeper water lagoons and outer reef areas are regulated by both biological metabolism and hydrodynamic factors. Unlike the open ocean, inorganic metabolism plays a significant role in influencing seawater pCO2 variations in coral reef ecosystems.     

Evolution of the East Asian monsoon and its response to uplift of the Tibetan Plateau since 1.8 Ma recorded by major elements in sediments of the South China Sea

Evolution of the East Asian monsoon and its response to uplift of the Tibetan Plateau has been investigated in the study of global change. Core sediment samples drilled in the South China Sea during ODP Leg184 are the best materials for studying long-term variability of the East Asian monsoon. R-mode factor analysis of major elements in the fine grain-sized carbonate-free sediments (<4 μm) of the upper 185 mcd splice of ODP Site 1146 drilled during Leg184 in the South China Sea shows that Ti, TFe2O3, MgO, K2O, P, CaO, and Al2O3 are representative of a terrestrial factor. The variation in the terrestrial factor score is subject to chemical erosion in the source region and thus indicates the evolution of the East Asian summer monsoon. The terrestrial factor score has three stepwise decreases at ~1.3 Ma, ~0.9 Ma, and ~0.6 Ma, indicating the phased weakening of the East Asian summer monsoon is related to wholly stepwise, quick uplifts of the Tibetan Plateau since 1.8 Ma. The periodic fluctuation of the terrestrial factor score since ~0.6 Ma indicates that the glacial-interglacial cycles have been the main force driving the evolution of the East Asian monsoon. As in the case of Chinese loess, the long-term evolution of the East Asian monsoon recorded in sediments of the South China Sea reflects a coupled effect of the glacial-interglacial cycle and uplift of the Tibetan Plateau.