电容器储能系统失效模式分析

Digest of Technical Papers. PPC-2003. 14th IEEE International Pulsed Power Conference (IEEE Cat. No.03CH37472) Pub Date : 2003-06-15 DOI:10.1109/PPC.2003.1277766

P. Michalczyk, C. Friel, C. Vincent, J. Marret, J. Mexmain, D. de Cervens, P. Pere

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引用次数: 4

摘要

电容器能量库可以被看作是一种能量转换器，其中能量存储在很长时间(几十分之一秒)内充电，在很短的时间内(从微秒到毫秒)释放能量。变换器的功能是由一个电容器提供的，它必须承受两个约束:1。与静电有关的高存储能量:在电容器的电介质上施加一个高电场。2. 与电动力学有关的高输出电流:应力施加在电容器的原电路上。存储能量需求的演变(增加和密度)需要对所引起的风险和后果进行最详尽的分析。这项分析是为兆焦耳激光项目进行的。它的能量库将在一分钟内储存450兆焦耳的24千伏能量。然后，银行应该能够提供135毫安脉冲电流在360 /spl亩/秒。本研究将分析电容器的失效模式，并对其影响进行实验验证。

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Failure mode analysis on capacitor energy banks

Capacitor energy banks can be considered as power converters in which the energy storage is charged within a long time (some tenths of seconds) and the energy released within a short time (from microseconds to milliseconds). The converter function is provided by a capacitor, which has to withstand two constraints: 1. high stored energy which relates to electrostatics: a high electric field is applied to the dielectric of the capacitor. 2. high output current which relates to electrodynamics: stress is applied to the galvanic circuit of the capacitor. The evolution of the requirement in terms of stored energy (both increase of and density of) necessitates the most exhaustive analysis of the induced risks and consequences. This analysis has been conducted for the MegaJoule Laser Project. Its energy bank will store within one minute 450 MJ at 24 kV. Then, the bank should be able to deliver a 135 MA pulse current within 360 /spl mu/s. This study will analyze the failure modes of the capacitors and their effects will be experimentally verified.

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Digest of Technical Papers. PPC-2003. 14th IEEE International Pulsed Power Conference (IEEE Cat. No.03CH37472)

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