Combination of structure tensor and tilt angle in the edge detection of potential field data

Edge detection is a commonly requested task in the interpretation of potential field data. Different methods have different results for varied depths and shapes of geological bodies. In this paper,we propose using the combination of structure tensor and tilt angle to detect the edges of the sources,which can display the edges of shallow and deep bodies simultaneously. Through tests on synthetic potential field data,it is obvious that the proposed edge detection methods can display the sources edges more clearly and precisely,compared with other commonly used methods. The application on real potential field data shows similar result,obtaining the edges of layers and faults clearly. In addition,another advantage of the new method is its insensitivity to noise.

Incompleted Field Strength Calculation of the Potential Term Adopted from Landau-Ginzberg Theory Applied in Particle Physics

Completion of field strength calculation of the potential term originated in theories of condensed matter applied in particle physics is discussed.

感应子电机二维磁场计算模型的对比研究

感应子电机因其转子结构简单,具有非常高的可靠性,特别适用于高速场合,在脉冲电源、储能系统、航空发电、船舶推进系统等领域有着广泛的应用。感应子电机的磁场为三维磁场,但三维磁场分析所需计算资源和时间太多。因此,对感应子电机的磁场分析一般采用简化二维模型。目前,感应子电机二维磁场计算模型主要有:标量磁位法、矢量磁位法、等效励磁绕组法和改进等效励磁绕组法四种模型。标量磁位法、矢量磁位法、等效励磁绕组法和改进等效励磁绕组法各有优缺点,本文对以上四种二维磁场计算模型进行了对比研究,分析了各自的优缺点,对其适用性进行了讨论。

Forward Modeling of Gravity,Gravity Gradients,and Magnetic Anomalies due to Complex Bodies

On the basis of the results of improved analytical expression of computation of gravity anomalies due to a homogeneous polyhedral body composed of polygonal facets, and applying the forward theory with the coordinate transformation of vectors and tensors, we deduced both the analytical expressions for gravity gradient tensors and for magnetic anomalies of a polygon, and obtained new analytical expressions for computing vertical gradients of gravity anomalies and vertical component of magnetic anomalies caused by a polyhedral body. And also we developed explicitly the complete unified expressions for the calculation of gravity anomalies, gravity gradient, and magnetic anomalies due to the homogeneous polyhedron. Furthermore, we deduced new analytical expressions for computing vertical gradients of gravity anomalies due to a finite rectangular prism by applying the newly obtained expressions for gravity gradient tensors due to a polyhedral target body. Comparison with forward calculation of models shows the correctness of these new expressions. It will reduce forward calculation time of gravity-magnetic anomalies and improve computational efficiency by applying our unified expressions for joint forward modeling of gravity-magnetic anomalies due to homogeneous polyhedral bodies.

How to Determine a Jump in Energy Prior to a Causal Barrier, with an Attendant Current, for an Effective Initial Magnetic Field. In the Pre Planckian to Planckian Space-Time

We start where we use an inflaton value due to use of a scale factor . Also we use as the variation of the time component of the metric tensor in Pre-Planckian space-time. Our objective is to find an effective magnetic field, to obtain the minimum scale factor in line with Non Linear Electrodynamics as given by Camara, et al., 2004. Our suggestion is based upon a new procedure for an effective current based upon an inflaton time exp (i times (frequency) times (cosmological time)) factor as a new rescaled inflaton which is then placed right into a Noether Current scalar field expression as given by Peskins, 1995. This is before the Causal surface with which is, right next to a quantum bounce, determined by , with the next shift in the Hubble parameter as set up to be then . And is an initial degree of freedom value of about 110. Upon calculation of the current, and a resulting magnetic field, for the space time bubble, we then next obtain a shift in energy, leading to a transition from too. We argue then that the delineation of the term is a precursor to filling in information as to the Weyl Tensor for near singularity measurements of starting space-time. Furthermore, as evidenced in Equations ((26) and (27)) of this document, we focus upon a “first order” that checks into if a cosmological “constant” would be invariant in time, or would be along the trajectory of the time, varying Quinessence models. We close this document, with Maxwell equations as to Post Newtonian theory, for Gravity, with our candidates as to a magnetic field included in, with what we think this pertains to, as far as Gravo Electric and Gravo Magnetic fields, and then make suggestions as to a quantum version of this methodology for future gravitational wave physics research. This is Appendix G, this last topic, and deliberately set up future works paradigm which will be investigated in the coming year. It is based upon a Gravo Electric potential, and we make suggestions as to its upgrade in our future works, in early universe cosmology. In the reference by Poisson, and Will, they write and in this last section we come up with a value of U, based in part on the comparison with the alteration of velocity, due to a massive graviton, namely via the substitution, we write as , so as to come up with a post Newtonian approximation result for a magnetic field. We compare this magnetic field, as far as the Inflaton magnetic field, and use it to come up with observations with regards to the phenomenology of gravity in Pre Planckian to Planckian regime limits. We close, then with the observation given in Appendix H, of the inhomogeneity of Pre Planckian-to Planckian space time as a necessary condition for a Gravi-Magnetic field. We also reference an Appendix I, which does a summary of a 5th force calculation, and we then compare those results, with our temporary results of a Gravi Magneitc field, as we have tried to start up as a future works project.

重力位三阶梯度张量异常的波数域转换计算及其DEXP定量解释方法

现在的仪器测量技术还不能直接测量重力位三阶梯度张量,本文提供了一种基于重力异常及重力梯度张量数据的重力位三阶梯度张量波数域转换计算方法。为验证计算方法的正确性,文中计算了三维模型重力位三阶梯度张量异常,并将重力位三阶梯度张量波数域转换结果和模型正演结果进行对比,结果表明所采用的波数域转换方法是可行的,并且相对于重力异常数据,基于重力梯度张量数据的波数域转换结果精度更高,其均方根误差不超过1 pMKS。此外,基于Vinton盐丘区实测数据利用波数域转换方法得到该地区的重力三阶梯度张量数据,并将其用于DEXP方法的数据解释中,所得的深度以及边界结果与前人的研究结果相符合。

聚磁式场调制电机谐波分析与电磁转矩计算

不同于传统的永磁同步电机,外转子聚磁式场调制型(FCFMPM)电机基于磁场调制原理实现机电能量转换,使得气隙磁场中含有丰富的谐波磁场。利用磁路法推导并分析FCFMPM电机的永磁磁场和电枢磁场气隙谐波特性,明确了参与转矩传递的主要谐波成分。基于有限元计算和麦克斯韦张量法,计算电机稳态运行时气隙磁场谐波对转矩的贡献,并对不同谐波进行了分类。最后进行有限元建模仿真,验证了本文方法的准确性。同时对FCFMPM电机转矩脉动产生的原因进行了解释,为抑制转矩脉动的研究提供了理论依据。

解释位场全张量数据的张量局部波数法及其与常规局部波数法的比较

全张量探测技术以其信息量大、精度高、干扰小等优点在地球物理领域中得到广泛应用.本文提出采用张量局部波数法来进行位场全张量数据的解释,首先给出了张量局部波数的定义,然后推导出利用张量局部波数法进行反演的基本公式.本文方法在进行张量数据反演时无需事先知道场源体的类型(构造指数)即可获得场源体的位置信息,且可根据位置参数对场源体的类型进行估计.通过理论模型证明张量局部波数法可以很好地完成位场全张量数据的反演工作,并将其与常规局部波数法进行对比,证明全张量局部波数法的反演结果更加准确,即使在测点分布不合理的情况下,张量局部波数法仍可以获得准确的结果.最后应用张量局部波数法对美国得克萨斯州实测重力数据进行了反演,其反演结果与已有的研究成果相一致.

基于三维构造张量的位场边界识别滤波器

地质体构造边界位置的确定是位场数据解释中的一项重要工作,现有很多基于位场梯度张量数据的边界检测滤波器,但存在识别边界位置模糊且无法均衡深浅地质体异常的缺点.本文定义了位场数据的三维构造张量,并提出基于位场构造张量的边界滤波器.为了同时显示不同振幅异常的边界位置,对新定义的滤波器进行归一化处理.在高阶均衡滤波器的计算中需要计算位场的垂向高阶导数,本文引入一种计算的稳定算法,基于拉普拉斯方程利用位场水平导数求解垂向导数,可减小垂向导数计算中产生的误差.将定义的滤波器应用到合成的重磁数据中证明了新方法相比传统的滤波器能更加清晰、准确地圈定边界位置,而且针对同时含有正负异常的地质情况,可避免产生额外的错误边界.最后将新的滤波器应用到实测的重磁数据的解释中,结果显示基于构造张量的滤波器可更准确清晰地划分出断裂的边界位置,发现更多的构造细节.

利用加强水平方向总水平导数对位场全张量数据进行边界识别

位场全张量梯度数据以其信息量大、含有更高频的信号成分,能更好地描述小的异常特征等优点在地球物理领域中得到广泛应用.边界检测是位场解释中不可缺少的任务,需要新的边界探测器来处理位场梯度张量数据.为了充分利用位场梯度张量数据的多信息成分,本文定义了方向总水平导数和加强方向总水平导数,并利用其定义新的边界检测器.为了能同时显示不同振幅大小异常的边界,本文对其进行了归一化处理.通过模型试验,证明了归一化方法能更加清晰准确地显示浅部和深部的地质体边界信息.最后将该边界检测方法用于加拿大圣乔治湾实际测得全张量重力梯度数据和中国朱日和地区的磁异常数据中,并得到了较好的边界检测结果.

两种40.5kV真空灭弧室电场和电势分布的对比研究

建立了相同型号,不同结构的两种40.5 k V真空灭弧室的轴对称模型。计算并分析了两种真空灭弧室的主屏蔽罩对换前和对换后的电场分布和电势分布,对比了不同主屏蔽罩结构下的触头表面的有效面积,并分析了主屏蔽罩内表面的电场分布曲线。结果表明:型号相同的两个真空灭弧室内部电场分布及电势分布主要受到主屏蔽罩结构的影响,选择合适的主屏蔽罩结构可有效降低最大电场强度并改电场和电势分布。

复杂形体重力场、梯度及磁场计算方法

在改进均匀多面体重力场正演公式基础上,利用二阶张量的坐标变换实现对多面体重力场梯度的求解,推导了新的多面体重力梯度和磁场的正演公式,给出了新的统一的均匀多面体重力场、梯度及磁场正演表达式形式,并用理论模型进行了检验.同时,应用新的多面体重力场梯度正演公式推导出新的长方体重力场垂直梯度理论表达式.本文给出的均匀多面体重力场、梯度及磁场正演表达式形式统一,重磁场联合正演中可相互利用其计算过程中的结果,避免重复计算以提高正演计算效率.

500kV交流输电线路组合绝缘子串试验分析

为系统研究500 kV交流线路复合绝缘子和盘形绝缘子组合绝缘子串配置的电压分布,给工程设计提供参考,对复合绝缘子两端安装不同片数玻璃绝缘子、采用下沉式和上扛式悬垂线夹、单I串和双I串、有无均压环等组合绝缘子串结构型式进行了大量试验和数值分析研究,提出了一种可使复合绝缘子金属附件连接区避开高场强区域的绝缘子串组合型式。研究结果表明,在相同结构高度下,采用上扛式悬垂线夹,复合绝缘子导线端配5片玻璃绝缘子,可将该组合串中复合绝缘子高压端部最高电压分布由原41%降低至14%;在导线端安装6片玻璃绝缘子,横担端安装1片玻璃绝缘子,可将该组合串中复合绝缘子高压端部最高电压分布由41%降低至11%,导线端盘型绝缘子可免除均压装置,同时绝缘子串的雷电冲击闪络电压也有所提高。

磁场全张量测量计算方法与误差分析

矢量磁场和磁场全张量数据是多磁源反演的数据基础。针对矢量磁场和磁场全张量的测量问题,文章提出了矩阵式矢量磁场连续扫描方法。对利用矢量磁场计算磁场全张量所用的数据结构进行了研究,应用MATLAB软件对常用的十字形和六面体两种不同数据计算结构进行了仿真分析,结果表明,两种计算结构的误差相近且均不大于10%;并分析了基线距离对磁场全张量计算的影响,结果表明,磁场全张量计算误差随着基线距离的增加而增加。

铁路油罐车静电场计算模型研究

据统计，在国内较大的石油静电事故中，铁路油罐车装油事故占首位，因而对油罐车装油过程中的静电研究显得特别重要。根据静电场基本方程和铁路油罐车静电场边界特征，建立了电场计算模型并采用超松驰迭代法求解。计算结果表明：在油罐车装油过程中油面电位随着液面上升而变化，最高电位出现在１／２～３／４容积处。这一变化趋势与实测数据符合。根据所建模型建立了一整套仿真软件，该软件为安全设计、危险性预测提供了科学的依据。

电磁脉冲模拟器电磁场计算

利用电磁场张量法计算了平行板电磁脉冲模拟器内的电磁场并推导了其时域解析表达式。按照模拟器的平行板段和前后三角板的结构将平板近似为线网格。场的幅值由各线段元的不同滞后时间叠加来确定,其方向由线段元和场点的单位矢量经简单矢量运算来确定。计算结果表明:平行板段内的场具有横电磁分布特性,而靠近三角板处由于各线段元的非对称性贡献将使场出现其它分量。通过对模拟器的电场测量值与理论计算值相比较可知,两者大致相同。

宁蒙引黄灌区田间节水潜力计算方法分析

以黄河干流宁蒙大型自流引黄灌区为研究对象,采用分项法以及两种计算顺序对宁蒙引黄灌区田间节水潜力进行了计算,分析了不同计算顺序对田间节水潜力计算结果的影响,并采用综合法对分项法计算结果进行了验证,表明计算方法可靠。

GIS用SF_6高压断路器电场与电压分布计算软件

针对GIS用SF6高压断路器体积小型化带来的电场分布不均匀问题,计算高压断路器内部三维电场分布来优化其内部结构显得尤为重要。为此基于APDL语言开发了一种实用的电场和电压分布计算软件,APDL是ANSYS的二次开发语言,具有参数化操作的特性,使工程人员在无需掌握有限元软件ANSYS的情况下,利用有限元法计算GIS高压断路器内部的三维电场和电压分布。该软件操作灵活、简洁,可选择不同的工况测试模式,计算相应的电场和电压分布,是一种较实用的电场计算软件。

三维表面电荷法在位场计算中的几点改进

针对常规三维表面电荷法在位场计算中采用平面单元剖分、常值电荷估计致使计算效率低内存消耗大的缺点,对表面电荷法进行改进。采用曲面三角形单元对曲面进行剖分并通过二次多项式进行插值,利用线性或二次插值估计电荷密度以反映电极表面电荷密度的线性及非线性分布的特点,在奇异积分处理上通过切平面法解决格林函数基本解的奇异积分,并给出其具体实现。最后通过两个典型算例进行了验证,结果表明该方法精度较高,具有一定可行性。

12kV/31.5kA真空断路器灭弧室电场的数值计算

介绍了VSm型真空断路器灭弧室内用ANSYS计算电场及电位的方法,用Ansys求解和分析了不同边界条件对灭弧室内电场及电位的影响.分析了真空断路器在不同边界条件下电场及电位的变化情况,可以对真空灭弧室内的任意点电场及电位进行精确的定量计算与分析.