Further Considerations for the Determination of Service Life for Delayed Coker Drums

John J. Aumuller, Toshiya Yamamoto, Zengtao Chen
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Abstract

Delayed coker drums are unique in hydrocarbon processing facilities in that estimating their true design and service life has been problematic. Generally, pressure containing equipment in these facilities is designed using the notion of design life based on required pressure thickness and corrosion allowance considerations. Hence, pressure containing equipment is routinely monitored by facility inspectors for wall thickness. Although many analysts have ascribed coke drum failure to “thermal stress cycling”, the difficulty posed by the operation of coke drums results in an inability to measure or calculate the magnitude of the thermo-mechanical “stresses” and the actual number of significant exposures, that is, cycles causing fatigue damage. As well, the use of Code construction practices has been generally misapplied, for this specific equipment, as the practices are intended to define a safe design life rather than a service life. Indirect measures of service life based on shell bulge severity have fallen from favor by being ineffective. A trend to use a strain index method is somewhat more appealing but is based on static load and monotonic material property considerations rather than those properties indicative of thermal cyclic operation. Recent work has shown that thermo-mechanical strain cycling can be characterized quantitatively and used to determine a cyclic service life for both undamaged and damaged coke drums. This paper discusses some of the engineering specifics to generate a high probability estimate of coke drum fatigue service life for a new drum, a damaged-stable drum, drums with weld overlay and for drums exhibiting incremental damage.
延迟焦化鼓使用寿命确定的进一步考虑
延迟焦化鼓在碳氢化合物处理设施中是独一无二的,因为估计其真实设计和使用寿命一直存在问题。一般来说,这些设施中的承压设备是根据所需压力厚度和腐蚀余量的设计寿命来设计的。因此,工厂检查人员对承压设备的壁厚进行常规监测。尽管许多分析家将焦炭桶的故障归因于“热应力循环”,但焦炭桶操作带来的困难导致无法测量或计算热机械“应力”的大小和实际的重大暴露次数,即导致疲劳损伤的循环。同样,对于这种特殊设备,规范构造实践的使用通常被误用,因为这些实践旨在定义安全设计寿命,而不是使用寿命。基于壳体膨胀严重程度的间接使用寿命测量方法由于无效而不再受欢迎。使用应变指数法的趋势在某种程度上更有吸引力,但这是基于静态载荷和单调材料特性的考虑,而不是那些表明热循环操作的特性。最近的工作表明,热-机械应变循环可以定量表征,并用于确定未损坏和损坏的焦炭桶的循环使用寿命。本文讨论了新的焦炭转炉、损坏稳定的焦炭转炉、有焊缝覆盖的焦炭转炉和逐渐损坏的焦炭转炉的一些工程细节,以产生焦炭转炉疲劳寿命的高概率估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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