Fluid Dynamic Field in BozhongDepression, Bohai Bay Basin

The data from regional geology, boreholes, geophysics and tests are integrated to analyze the fluid dynamic field in the Bozhong depression, Bohai Bay basin. The current geothermal gradient is determined to be about 2.95 /100 m by integrating 266 drill-stem test (DST) measurements and comparing with the global average value. The paleogeothermal gradients are calculated from the homogenization temperatures of saline inclusions, which vary both laterally and vertically. The data from sonic logs, well tests and seismic velocities are used to investigate the pressure variations in the study area. The mudstone compaction is classified as three major types: normal compaction and normal pressure, under-compaction and overpressure, and past-compaction and under-overpressure. The current pressure profile is characterized by normal pressure, sight pressure and intense overpressure from top to bottom The faults, unconformity surfaces and interconnecting pores constitute a complex network of vertical and horizontal fluid flows within the depression. The fluid potential energy profiles present a 'double-deck' structure. The depocenters are the area of fluids supply, whereas the slopes and uplifts are the main areas of fluids charge.

Mathematical Wave Functions and 3D Finite Element Modelling of the Electron and Positron

The wave/particle duality of particles in Physics is well known. Particles have properties that uniquely characterize them from one another, such as mass, charge and spin. Charged particles have associated Electric and Magnetic fields. Also, every moving particle has a De Broglie wavelength determined by its mass and velocity. This paper shows that all of these properties of a particle can be derived from a single wave function equation for that particle. Wave functions for the Electron and the Positron are presented and principles are provided that can be used to calculate the wave functions of all the fundamental particles in Physics. Fundamental particles such as electrons and positrons are considered to be point particles in the Standard Model of Physics and are not considered to have a structure. This paper demonstrates that they do indeed have structure and that this structure extends into the space around the particle’s center (in fact, they have infinite extent), but with rapidly diminishing energy density with the distance from that center. The particles are formed from Electromagnetic standing waves, which are stable solutions to the Schrödinger and Classical wave equations. This stable structure therefore accounts for both the wave and particle nature of these particles. In fact, all of their properties such as mass, spin and electric charge, can be accounted for from this structure. These particle properties appear to originate from a single point at the center of the wave function structure, in the same sort of way that the Shell theorem of gravity causes the gravity of a body to appear to all originate from a central point. This paper represents the first two fully characterized fundamental particles, with a complete description of their structure and properties, built up from the underlying Electromagnetic waves that comprise these and all fundamental particles.

Cortico-striatal gamma oscillations are modulated by dopamine D3 receptors in dyskinetic rats

Long-term levodopa administration can lead to the development of levodopa-induced dyskinesia.Gamma oscillations are a widely recognized hallmark of abnormal neural electrical activity in levodopa-induced dyskinesia.Currently,studies have reported increased oscillation power in cases of levodopa-induced dyskinesia.However,little is known about how the other electrophysiological parameters of gamma oscillations are altered in levodopa-induced dyskinesia.Furthermore,the role of the dopamine D3 receptor,which is implicated in levodopa-induced dyskinesia,in movement disorder-related changes in neural oscillations is unclear.We found that the cortico-striatal functional connectivity of beta oscillations was enhanced in a model of Parkinson’s disease.Furthermore,levodopa application enhanced cortical gamma oscillations in cortico-striatal projections and cortical gamma aperiodic components,as well as bidirectional primary motor cortex(M1)↔dorsolateral striatum gamma flow.Administration of PD128907(a selective dopamine D3 receptor agonist)induced dyskinesia and excessive gamma oscillations with a bidirectional M1↔dorsolateral striatum flow.However,administration of PG01037(a selective dopamine D3 receptor antagonist)attenuated dyskinesia,suppressed gamma oscillations and cortical gamma aperiodic components,and decreased gamma causality in the M1→dorsolateral striatum direction.These findings suggest that the dopamine D3 receptor plays a role in dyskinesia-related oscillatory activity,and that it has potential as a therapeutic target for levodopa-induced dyskinesia.

东非大裂谷的地壳和上地幔密度结构

利用卫星重力场数据和小波多尺度分析方法对东非大裂谷进行三维密度结构成像,取得了东非大裂谷地壳和上地幔多个深度等效层上的密度扰动图像,为东非大裂谷岩石圈结构和动力学的研究提供了重要佐证。结果表明,东非大裂谷中段的西支裂谷与东支裂谷的幔源熔体同源,但是西支裂谷发育较不充分、形成较晚。东非大裂谷的动力学模式为熔流体上涌的树形分叉模式,其要点包括:(1)低密度流体在软流圈大面积上涌;(2)流体在岩石圈继续上涌,部分转化为基性岩浆岩,平面面积缩小;(3)进入地壳后上涌熔流体分叉成多支,平面总面积进一步缩小;(4)熔流体上涌到上地壳后仅在裂谷带活动,反映为火山链和玄武岩带。

基于位场分离与延拓的视密度反演

由于目前计算机内存和速度的限制,在对大面积重力资料进行三维密度反演时,已有的反演方法很难奏效.文中提出了一种基于位场分离与延拓的视密度快速反演方法:首先应用场分离的切割法对平面上的重力场进行不同深度层源的切割分离;然后运用大深度向下延拓方法将各层的场延拓至相应的深度;最后反演出各深度层的密度.反演得到的密度是各深度层密度的近似分布,称为视密度反演.本反演方法克服了传统已有方法计算时间特别长、解稳定性差的缺点,在主频1.99 GHz的微机上,反演128×128×10个密度值的计算时间小于20 s,理论模型和实际资料的应用表明反演具有较好的效果.

大型空冷汽轮发电机定子通风结构优化方案的计算与分析

随着空冷汽轮发电机容量增加,其组件的可靠性依赖于冷却系统散热能力。合理的优化发电机定子通风结构,可以提高传热介质的利用率,降低电机温升。在200MW空冷汽轮发电机定子实验研究数据和大量相关工作基础上,提出了2种方案对电机定子结构进行优化:方案1,保持电机总尺寸、损耗和通风沟数量的不变,改变铁心厚度;方案2,保持电机总尺寸和损耗不变,增加通风沟的数量同时减小通风沟尺寸。根据计算流体力学原理,应用有限体积法求解定子各径向风沟内空气的紊流流动等三维离散方程组,研究了通风沟尺寸结构等几何量变化对整个电机温度场和流体介质的利用率的影响。研究结果表明,优化后的2种结构能使流体带走更多的电机内产生的热量,使计算出电机的稳态温升比实际结构计算出的温升最大下降9.13℃。

多风路空冷汽轮发电机定子内流体流动与传热耦合计算与分析

根据大型空冷汽轮发电机多风路通风系统内流体流动与传热的特点,建立了定子多风路通风系统三维流动与传热耦合计算的物理模型和数学模型,并给出求解域相应的边界条件及假设条件,采用有限体积法对三维流体场和温度场控制方程进行耦合计算;对定子各个径向通风沟内的流体速度、温度以及电机各部分温度的空间分布特性进行分析,并将耦合场计算结果与实测结果进行比较分析,为多风路大型电机综合物理场的准确计算提供理论依据。

南堡凹陷温度场、压力场及流体势模拟研究——基于Basin2盆地模拟软件

运用 Basin2盆地模拟软件 ,对南堡凹陷进行的温度场、压力场的模拟结果表明 ,南堡凹陷主体属常温、常压范围 ,仅局部地区存在轻微程度的温、压异常 ,综合其它资料说明其具有富油、贫气的特征 ;流体势模拟结果显示 ,南堡凹陷的烃源岩主要来自沙河街组和东营组 ,含烃流体的运移和聚集主要发生在东营组一段以及明化镇组和第四系地层沉积期间 ,且流体势的低值区应是有利的成藏区 ,是今后勘探的重要区域。

3MW双馈风力发电机传热特性数值研究

随着风力发电机容量的增加,电磁负荷不断提高,电机的发热问题成为影响机组性能和经济指标的主要因素之一。为了解决该难题,以一台3MW双馈风力发电机为例,根据流体力学以及传热学理论,结合发电机通风性能以及结构特点,建立了发电机三维流动与传热耦合求解的数学模型与物理模型;并给出基本假设与相应的边界条件,采用有限体积法对三维流体场和温度场控制方程进行耦合计算。最后,对发电机内部的流体流动性能、传热特性以及发电机定转子铁心、定转子绕组以及绝缘的温升分布进行了分析,得到端部气体流动不规律以及二次冷却热能力较强等,为更大容量风力发电机综合物理场的准确计算提供了理论依据。

大型空冷汽轮发电机定子端部温度场与流体场的计算与分析

根据200MW大型空冷汽轮发电机通风系统内流体流动与传热的特点,建立定子端部和多风路通风系统三维流动与传热耦合计算的数学模型和物理模型,并给出求解域相应的边界条件及假设条件,采用有限体积法对流体场和温度场控制方程进行耦合计算,可以得到定子端部流体出口处流量及端部绕组、压板周围的流体速度空间分布特性,从而确定多风路求解域中各风路入口的边界条件及端部各结构件的散热系数。分析了端部绕组、压板周围不同散热系数下,定子绕组、铁心、压指和压板温度的分布情况。将耦合场计算结果与实测结果进行分析,结果表明,端部计算模型计算出的各风路风量可作为多风路模型计算中各入口的流量边界条件,也表明多风路模型中的基本假设是合理的。结论对大型电机定子端部散热系数选择提供方法和依据。

基于流体传热理论永磁风力发电机温度场计算

采用流体传热理论和有限体积法计算自然风冷式兆瓦级永磁同步风力发电机的三维温度场。确定热源及等效导热系数的计算方法,建立三维流体的数学模型;对一台实验样机建立三维流动与传热耦合计算的模型,并通过与实验结果的对比,验证计算方法的合理性。利用相同方法对一台1.5 MW永磁同步风力发电机的三维温度场进行计算与分析,在此基础上,根据大功率永磁风力发电机的实际运行特点,计算该发电机额定风速下额定负载运行时的三维温度场分布,并绘制了不同环境温度时电机额定状态下各部分的温度变化图。仿真计算在不同风速下发电机的温度分布。

空冷汽轮发电机冷却气流风量对定子内流体的影响

根据大型空冷汽轮发电机多风路通风系统内流体流动与传热的特点,建立定子多风路通风系统三维流动与传热耦合计算的物理模型与数学模型,并给出求解域相应的边界条件及假设条件,采用有限体积法对三维流体场和温度场控制方程进行耦合计算;在保证总风量不变的情况下,分析改变定子、气隙风量对定子各个径向通风沟内的流体速度、温度及电机各部分温度空间分布特性的影响。结果表明,适当增加气隙风量,会降低电机定子最高温度,还会降低电机定子最高温度与最低温度的温差。最后,以200MW两级大容量空冷汽轮发电机为例进行计算,将计算结果与实测结果进行比较分析,证明该方法的准确性。

Gravity inversion using the frequency characteristics of the density distribution

Three-dimensional gravity inversion based on the mass property model is very popular in recent years. The time and efficiency of inversion algorithms is relative to the magnitude of the target mesh. One approach is to search over the entire solution space for a more refined result. However, the inversion will be difficult with the increased parameters in the large search space and the number of computations increases exponentially. ｜n this paper, we propose a novel approach based on the frequency characteristics of the density distribution over the mesh. The purposes of our study are to reduce the parameters of three- dimensional gravity inversion and to lighten the image quality of the inversion result. The results show that the new method can expedite the inversion processing and get a better geological interpretation than tradition methods.

多股多层水平淹没射流数值模拟研究

多股多层水平淹没射流是一种新型消能型式。本文采用VOF(VolumeofFluid)法和RNGk-ε紊流模型结合向家坝水电工程对多股多层水平淹没射流进行了三维数值模拟,将计算值与实验值进行了对比,计算值与实测值吻合较好,表明数值模拟方法是研究消力池水流运动规律及消能机理的有效途径。文中分析讨论了多股多层射流进入消力池后的水流结构与消能机理,研究结果表明:多股、多层射流进入消能水体时,在各主流的四周有一个消能旋滚,形成多个强剪切层消能区,消能率较高,但在平面上没有形成明显的、贯穿的立轴旋涡。同时,由于各漩滚的相互作用,能有效减小对消力池固壁的冲刷。

大型水-氢-氢冷汽轮发电机通风系统的计算及端部通风流道变化对结构件温度的影响

根据330 MW大型水–氢–氢冷汽轮发电机通风结构的特点,建立了半个轴向段电机的通风网络模型,采用流体网络方法计算得到电机运行时的总风量、各通风沟和进风室的风量和压力。为了验证流体网络方法计算的准确性,给出了端部区域内的流体与传热耦合三维数学模型,以流体网络计算出的压力和风速作为给定汽轮发电机端部求解域中的边界条件,采用有限体积法计算了铜屏蔽的温度分布,将耦合场计算结果与电机实测结果进行比较,误差满足工程要求。在此基础上,对电机端部区域内铜屏蔽和压圈之间的通风流道面积进行调整,在电机额定运行下,分析调整后铜屏蔽温度的变化,为大型汽轮发电机结构设计提供了可靠的依据。

长江口与杭州湾风暴潮三维数值模拟

基于改进的河口海岸和海洋三维数值模式ECOM-si,加入台风模型气压场和模型风场,同时考虑径流、天文潮与风暴潮耦合作用,数值模拟了TC9711(Winnie),TC0012(Prapiroon)和TC0014(Saomai)三个台风期间长江口和杭州湾的水位过程.与观测资料比较,模式较好地再现了台风期间的水位过程,采用Fujita(藤田)气压场公式计算的结果比Fujita-Takahashi(藤田-高桥)气压场公式下的计算结果更符合实测值,并在上述3个台风期间计算水位值与观测值的均方误差分别为42.5cm,41.7cm,35.5cm.

位场向下延拓的波数域广义逆算法

位场向下延拓是位场数据处理和反演中的重要运算,但是它的不稳定性影响了它在许多处理和反演方法技术中的应用.本文通过把位场向下延拓视为向上延拓的反问题,得到向下延拓的褶积型线性积分方程,再利用Fourier变换矩阵的正交对称特性,并结合矩阵的奇异值分解和广义逆原理,提出了一种稳定的不需要进行求逆运算的位场向下延拓广义逆方法——波数域广义逆算法,解决了位场大深度向下延拓的不稳定性问题.把这种方法用于三维理论模型数据和实际磁场数据的向下延拓获得了理想的结果.

鄂尔多斯盆地苏里格气田上古生界气藏充注动力计算方法

鄂尔多斯盆地苏里格气田上古生界气藏含气特征复杂,开发难度大。为此,从充注动力的角度分析了不同区带、不同层位成藏充注动力的差异性及其对该区气藏含气性的控制作用。首先根据该区上古生界气藏的地质特征,建立了气田的充注成藏模式,认为充注动力的主要类型为源储流体势差,其成因为烃源岩生烃增压产生的流体过剩压力;在此基础上采用泥岩压实的方法计算了成藏期烃源岩与储层的流体过剩压力和压差。计算结果表明：烃源岩的流体过剩压力介于13.0~22.0 MPa,源储之间的流体过剩压差介于3.5~9.5 MPa,流体过剩压力从烃源岩向储层或更外围地层整体呈逐渐减小的趋势。进一步将典型井烃源岩产生的流体过剩压力、源储压差与区域的生烃强度相比较,发现区域生烃强度越高,则流体过剩压力与压差就越大,表明成藏期的充注动力越强劲。结论认为：充注动力对该区气藏的含气性具有重要的控制作用,在储层物性、烃源岩与储层配置条件基本相当的条件下,充注动力越大,则储层含气饱和度越高。

用二阶矢量位计算三维涡流问题的多极理论

本文提出用二阶矢量位计算三维涡流问题的多极理论，数学分析结果表明：多极理论解自动满足三维涡流问题的Ａ＊－Ψ数学模型，从而保证Ａ＊是唯一的。用多极理论求解三维涡流问题，既不需要离散场域或边界，又能获得整个场域内的连续级数解，且变量数较少，显著降低了内存需要量。通过两个实例的实际计算结果表明，三维涡流分析的多极理论是可行的，具有较高的计算精度，可以很方便地应用于三维涡流场问题的计算。

行波磁场作用下金属液体运动行为的数值模拟

将行波磁场理论和流体运动N-S方程相结合,建立了行波磁场作用下材料制备用容器内三维流场的数学模型,并引入了新的电磁力计算模型.通过与文献中实验结果的对比,验证了本模型及计算程序的可靠性.研究还发现,行波磁场作用下装置内纵截面形成了两个对称的大环流;当径高比降低时,容器内的流场结构没有改变,仍然为两个对称的旋流,形状由椭圆形变成长方形.当电磁力增大时,轴向速度曲线由平顶变为尖顶的抛物线,并且电磁力越大,波顶离底部壁面的距离越近.