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1、 故障树与可靠性框图 故障树分析 (FTA)的历史故障树分析 (FTA)是可靠性和安全分析的另外一种技术。1962年美国贝尔实验室为美国空军在民兵导弹发射控制系统而发展了该理论,以后被Boeing公司引进并扩展。故障树分析是许多建立在运筹学和系统可靠性之中的符号逻辑分析方法的其中一种方法。其他方法包括可靠性框图 ( RBDs)。什么是故障树图 (FTD)?故障树图 ( 或者负分析树)是一种逻辑因果关系图,它根据元部件状态(基本事件)来显示系统的状态 (顶事件)。就像可靠性框图 (RBDs),故障树图也是一种图形化设计方法,并且作为可靠性框图的一种可替代的方法。一个故障树图是从上到下逐级建树并且
2、根据事件而联系,它用图形化模型路径的方法,使一个系统能导致一个可预知的,不可预知的故障事件(失效),路径的交叉处的事件和状态,用标准的逻辑符号(与,或等等)表示。在故障树图中最基础的构造单元为门和事件,这些事件与在可靠性框图中有相同的意义并且门是条件。 故障树和可靠性框图 FTDs 和RBDs最基本的区别在于RBD 工作在成功的空间,从而系统看上去是成功的集合,然而,故障树图工作在故障空间并且系统看起来是故障的集合。传统上,故障树已经习惯使用固定概率(也就是,组成树的每一个事件都有一个发生的固定概率) 然而可靠性框图对于成功(可靠度公式)来说可以包括以时间而变化的分布,并且其他特点。画故障树:
3、门和事件 故障树是由门和事件(块)建立,通常在故障树中运用最多的两个门与门和或门。例如,由2个事件 (或块or blocks)组成一个顶事件 (或一个系统)。如果任何一个事件的发生都引起顶事件发生,那么这些事件(块)用一个或门连接。再者,如果两个事件同时发生才能引起顶事件的发生,那么它们用与门连接。用一个可视化的例子,假设由组件A和B组成系统的一个简单案例,任何一个组件发生故障都会导致系统故障。 系统可靠性框图RBD是串联结构组成,(看 RBD结构),如图所示:该系统的故障树图包括两个基本事件,它们以与门(顶事件)连接。对于发生顶事件来说, 不是 A发生就是 B发生,换句话说,A发生故障或者B
4、发生故障才能引起系统失效。故障树和可靠性框图 的关系通常来说 (一些特例除外),一个故障树能很容易地转化为一个 RBD,然而,把一个RBD转化为故障树通常很难,尤其还包含非常 复杂结构。下列表格显示了在故障树图中常用的门符号和它们和RBD的联系。(术语经典故障树的定义参考由 美国核管理委员会的 故障树手册 (NUREG-0492)。Table 1: Classic Fault Tree Gates and theirTraditional RBD EquivalentsName of GateClassic FTA SymbolDescriptionRBD Equivalent与门与门表示仅当
5、所有输入事件发生时,输出事件才发生Simple Parallel Configuration See Example或门或门表示至少一个输入事件发生时,输出事件就发生Series Configuration See Example表决门 表决门表示仅当n个输入事件中有r个或r个以上的事件发生时,输出事件才发生k-out-of-n Parallel Configuration See Example禁门禁门表示仅当事件发生,输入事件的发生导致输出事件的发生Simple Parallel Configuration of all the events plus the condition See
6、Example顺序与门顺序与门表示仅当输入事件按规定发生时,输出事件才发生Standby Parallel Configuration (without a quiescent failure distribution)Dependency ANDNot used in classic FTA. Gate defined by ReliaSoft.The output event occurs if all input events occur, however the events are dependent, i.e. the occurrence of each event affect
7、s the probability of occurrence of the other events.Load Sharing Parallel ConfigurationXORThe output event occurs if exactly one input event occurs.Cannot be represented and does not apply in terms of system reliability. In system reliability, this would imply that a two-ponent system would function
8、 even if both ponents have failed.Table 2: RBD Constructs without a Traditional Fault Tree EquivalentFunctionFTA EquivalentDescriptionRBD EquivalentDependency (Load Sharing)Not used in classic FTA.Allows for modeling event dependency (or load sharing). The output event occurs if all input events occ
9、ur, however the events are dependent, i.e. the occurrence of each event affects the probability of occurrence of the other events.Load Sharing Parallel ConfigurationTrue Standby with a quiescent failure distributionA Priority AND gate can be used. However, this does not account for quiescent failure
10、 probabilities.Standby redundancy configurations consist of items that are inactive and available to be called into service when/if the active item fails (i.e. on standby). Items on standby can also fail (quiescent) while waiting to switch. Standby Parallel ConfigurationTable 3: Traditional Fault Tr
11、ee Gates without an RBD EquivalentName of GateClassic FTA SymbolDescriptionRBD EquivalentXORThe output event occurs if exactly one input event occurs. In a two ponent system the event does not occur if both or none of the inputs occur. When modeling system reliability, this implies that the system i
12、s successful if none of the ponents fail or if all of the ponents fail.Cannot be represented and does not apply in terms of system reliability. In system reliability, this would imply that a two-ponent system would function even if both ponents have failed.事件在故障树中,门是一种把事件和状态连接起来的逻辑符号。故障树中一个事件(或一个状态
13、)块相同于在RBD中标准块,因为它有个发生概率 (或者是一个分布函数)。然而,不像传统RBDs,一个单个图形被用来表示块 (或事件),故障树用几个图形来表示块。表4论述了这些图形的意义。Table 4: Traditional Fault Tree Event Symbols and their RBD EquivalentsPrimary Event BlockClassic FTA SymbolDescriptionRBD EquivalentBasic EventA basic initiating fault (or failure event). BlockExternal Even
14、t (House Event)An event that is normally expected to occur. In general, these events can be set to occur or not occur, i.e. they have a fixed probability of 0 or 1.Block that cannot fail or that is in a failed state. Undeveloped EventAn event which is no further developed. It is a basic event that d
15、oes not need further resolution. BlockConditioning EventA specific condition or restriction that can apply to any gate. Block: Placement of the block will vary depending on the gate applied to.Table 5: Additional Fault Tree Constructs and their RBD EquivalentsPrimary Event BlockClassic FTA SymbolDes
16、criptionRBD EquivalentTransferIndicates a transfer continuation to a sub tree. Subdiagram Block例 1一个带有表决门的故障树图和相等价的 RBD 。 例 2故障树和复杂的 RBDs:一个复杂可靠性框图的最好的例子叫做所谓 桥路。 以下 RBD表示这样的桥路。 桥路作为故障树表示需要利用复制事件,因为门能表示元件以串联和并联的方式。检查该系统发现任何下列发生故障,将会引起整个系统故障: 元件1和2发生故障 元件3和4发生故障 元件1,5和4发生故障 元件2,5和3发生故障 在概率术语中,我们有: (1 And 2)Or(3 And 4)Or(1 And 5 And 4)Or(2 And 5 And 3).这些事件的集合也称为最小割集。在下面故障树中,通过包含了以上事件集合来组成故障树。把上面的故障树转化为 RBD (注意相同名字的元件是镜像块)。6 / 6
