【作者】 冷雪；

【导师】 刘晓明；

【作者基本信息】 沈阳工业大学 ， 电机与电器， 2014， 博士

【摘要】 电力工业的发展关乎国计民生，与之相配套的输变电设备则为现代坚强电网之骨骼。开关电器作为重要的输配电设备之一，在开断过程中不可避免地会产生电弧，其在毫秒级时间、毫米级空间内快速动态变化，从而影响开关开断性能。电弧作为物质形态的第四态，其衍生机理和发展规律是国内外研究者们普遍关注的研究热点与难点。本文通过引入混沌理论，从混沌时空域探究不同介质开关电弧之共性机理，以发现电弧之内在本质规律，实现电弧调控。基于黑盒电弧模型理论分析与实验的低压空气电弧混沌特性研究。自主搭建220V空气电弧发生装置，以实际负载为研究对象，采用混沌相空间重构理论、C-C方法、Wolf算法和Cao方法，对纯阻性、阻感性负载下空气电弧电流动态变化进行定量分析，找出其混沌吸引子及通往混沌的道路；引入Cassie电弧模型，采用理论分析与实测数据比照，发现并描述其混沌特征。基于三维耦合场域分析与合成回路试验线路模拟的中压真空电弧混沌特性研究。以40.5kV/25kA真空断路器为研究对象，采用有限元法进行数值模拟，得到不同触头结构型面纵向磁场时间序列，找到变触头结构与混沌特征之间的联系；引入DL标准四参数和两参数合成回路试验线路模型，将真空断路器置于试验模拟系统中，得到元件与系统中混沌行为演变；引入真空连续过渡模型，得到真空断路器开断过程中电弧行为定量描述，发现其线路中混沌特性与真空电弧吸引子形态。基于冷气流开断的高压SF6断路器气流参数混沌变化追踪与分析。以252kV SF6断路器为研究对象，采用有限体积法与因子分析法相结合，得到开断全程中气流参数主要影响因素，分析其主元成分，得出评估气流参数性能数学描述；以550kV SF6断路器为对象，采用有限体积法对气流湍动特性进行分析，以动静触刚分时刻为时间节点，分析湍流参数在超程前后两时间段内湍流参数混沌特性，发现湍流自身所存在的间歇性，以及湍流区与非湍流区边界时空的不确定性。基于短路大电流开断的高压SF6断路器电弧混沌行为研究。以550kV SF6断路器为研究对象，引入等效单元动态电弧模型，采用有限体积法对短路开断情况下流场进行数值模拟。通过对不同气流参数观测点时间序列提取，与冷气流开断相对比，得出高压SF6电弧混沌行为具有时空混沌特性，且为阵发混沌态。通过追踪电弧与气流运动形态，发现开断过程中，可通过增加电弧湍流区域，扩大电弧与气流相互作用区域，实现快速熄弧。通过改变喷口结构型面，得到不同喷口结构下气流参数混沌特性，得出变喷口结构是调整混沌强弱的有效途径，优化喷口结构可降低混沌效应，提高断路器开断能力，实现混沌调控与利用。基于不同介质开关电弧时间域、相空间域特性分析的网络空间域共性研究。通过对空气电弧、真空金属蒸气电弧和SF6气体电弧参数时间序列复杂网络重构，将时间域数据以相空间理论拓展至网络空间域中，并对其所构建网络特征进行分析，以此进行不同介质形态电弧共性问题研究，发现不同介质开关时间序列网络域结构均具有无标度特性，均具有复杂网络特征。“混沌”和“复杂网络”为不同介质开关电弧理论与实验研究在时间域、相空间域与网络域之间架起一座崭新的桥梁。更多还原

【Abstract】 Power development related to people’s livelihood, and the power transmissionequipments are the bones of the modern strong power grid. Switches as one of the mostimportant electrical transmission and distribution equipments, arc is inevitably generated in themillisecond time-millimeter space during the breaking process, affecting the breakingperformance. Arc as the fourth state of physical form, the law of complicated mechanism anddevelopment is the hot spot and difficult spot that the domestic and foreign researchersconcerning. The chaos theory is introduced in order to research the common mechanism of thedifferent dielectric switches arc and discover the inherent laws of arc, and achieve the goal ofthe arc control.Chaos characteristics research of the low voltage air arc based on the black arcmodel analysis and experiments. Using220V air arc generator device self-built, the actualloads are taken as the research objects, based on the chaotic phase space reconstruction theory,C-C method, Wolf algorithms and Cao method, the dynamic chaotic behavior of the air arccurrent is quantitatively researched under the resistive, inductive and resistive load conditions,and also the chaotic attractor and the road leading to chaos are identified. While Cassie arcmodel is introduced, compared with the measured data, the essential characteristics of the arcare revealed and described.Chaos characteristics research by the three-dimensional field analysis and thesynthetic circuit experiment simulation of the medium voltage vacuum arc.40.5kV/25kAvacuum circuit breaker (VCB) is taken as the research object, based on the finite elementmethod (FEM) to simulate, the time series of longitudinal magnetic field with different typecontacts structures are obtained, the relationship between the structural changes and chaoscharacteristics is researched; and the introduction of two parameters and four parameters typesynthetic circuit experiment model that based on the DL standard to analyze the chaosevolution behavior of the VCB as a unit in the system. Based on the continuous transitionmodel to quantitatively describe the arc behavioral characteristics of the VCB in the process ofbreaking, and also the arc chaotic characteristics and attractor morphology are identified.The chaos variation of gas flow parameters traced and analyzed in the high voltage SF6CB under the cold gas breaking condition. The252kV SF6CB is taken as the researchobject, and the finite volume method (FVM) and factor analysis methods are coupled used toobtain the main effects of gas flow parameters in the whole breaking process, the principalcomponent is analyzed, the mathematical description of gas flow parameters to judge the gasparameters performance is obtained; the550kV SF6CB is taken as the object, the gas flowturbulence characteristics are analyzed by use of FVM, taken the static and dynamic contactseparation time as the separation point, analyze the turbulence parameters the time before andafter super path, the turbulent parameters chaos characteristic are researched during the twoperiods, it is shown that turbulence itself is intermittent that behaving the uncertainty time andspace with turbulent and non-turbulent boundary zone.The arc chaos behavior research of the high voltage SF6CB under the short currentbreaking condition.550kV SF6CB is taken as the object, the equivalent unit dynamic arcmodel is introduced, the gas flow field distribution under short-circuit breaking process aresimulated by use of FVM. Different observation points time series are extracted, comparedwith no load breaking condition that the high voltage SF6CB is a time-space chaos and is theintermittent chaotic state. By tracking the flow state of arc and the gas flow that it can increasethe arc turbulent region, expand the area between arc and gas flow, to achieve the rapidextinction purposes in the breaking. By changing the nozzle structures to adjust the chaos isthe effective way, and the nozzle structures are optimized which can reduce the chaotic effect,improve the CB breaking performance, and achieve the purpose of the chaos use and control.The common research of switches arc characteristics of different dielectric in thetime domain, space domain and the net domain. By reconstructing the complex networksthrough the time series of the low voltage air arc, metal vapor vacuum arc and high voltageSF6gas arc, expand the time data to the network by use of the phase space reconstruction, alsothe complex network theory is used to analyze the network characteristic, and research thecommon problems of different dielectric morphology arc, it is shown that the networks ofdifferent switches time series have the scale-free characteristics, belong to the complexnetwork features."Chaos" and "Complex networks" as the means of different dielectric arctheory and experiment research among the time domain, space domain and net domain toestablish a new analysis and communication bridge.更多还原