基于仿真的控制阀可靠性可视化与预测

Nirbhay Mathur, V. Asirvadam, A. Abd Aziz, R. Ibrahim
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引用次数: 5

摘要

由许多部件、备用系统、传感器、控制部件组成的工业装置,以使工厂顺利运行。计划外停机造成的损失可能导致重大问题。尽管如此,用于控制压力或液体流量的控制阀是工厂运行的重要组成部分。由于要减少损失或停机损坏,需要高可靠性和待机可用性进行监控。因此,它需要一些预测,可以用定量的方法来表达事件的可能性。本研究对控制仪器的可靠性及其可用性进行了预测,并对其进行了定量预测。通过使用威布尔分布和计算形状和尺寸参数的pdf和cdf来预测和估计这些故障的后果取决于在工艺装置中组装的控制阀。用估计最大化(EM)技术进行验证,并对其进行曲线拟合,预测精度达到95%。本文的研究将为控制阀的可靠性评估提供实用的依据,以获得更好的动作和更高的可靠性冗余。
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Visualizing and Predicting Reliability of Control Valves based on Simulation
An industrial plant assembled with many components, standby systems, sensors, controlling components to make smooth operation of plants. Losses produced by unplanned downtime may leads to major problems. Although, control valves which are used to control the rate of flow for pressure or liquid is an essential part of the plants operation. Since to reduce the losses or downtime damage, high reliability and standby availability is required to monitor. Hence, it requires some prediction which can express the likelihood of the events in the terms of quantitative methods. This research performs the prediction for reliability on the control instruments and its availability that is visualized for an quantitative prospective. By using Weibull distribution and calculating pdf and cdf for shape and size parameters for prediction and estimation of the consequences of these failure depends on the control valve assembled in process plant. Validating with estimation maximization(EM) technique and fitting it in curve to achieve 95% prediction accuracy. This research will give practical assessments of reliability of control valve for better actions and higher reliable redundancy.
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