蒸汽锅炉故障诊断及基于混合模糊聚类和人工神经网络的炉膛结渣/结垢早期检测预测系统

电路与系统(英文) Pub Date : 2016-10-28 DOI:10.4236/CS.2016.712335

M. S. Priya, R. Kanthavel, M. Saravanan

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引用次数: 5

摘要

由于炉边沉积物在蒸汽锅炉上的加入而产生的结渣/结垢降低了锅炉的效率和可用性，从而导致意外停机。由于它不可避免地与燃料特性、锅炉运行条件和灰分特性这三个主要因素有关，因此可以通过改变上述三个因素来减少这种严重的结渣/结垢。研究开发了一种基于混合模糊聚类和人工神经网络(FCANN)的通用结渣/结垢预测工具。该模型具有99.85%的准确率，与单一神经网络相比，响应速度快，更新时间短。在输入参数较少的情况下，预测结果与观测结果的比较令人满意。这应该能够给出相对快速的反应，同时很容易实现各种炉类型。

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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Fault Diagnostics on Steam Boilers and Forecasting System Based on Hybrid Fuzzy Clustering and Artificial Neural Networks in Early Detection of Chamber Slagging/Fouling

The slagging/fouling due to the accession of fireside deposits on the steam boilers decreases boiler efficiency and availability which leads to unexpected shut-downs. Since it is inevitably associated with the three major factors namely the fuel characteristics, boiler operating conditions and ash behavior, this serious slagging/fouling may be reduced by varying the above three factors. The research develops a generic slagging/fouling prediction tool based on hybrid fuzzy clustering and Artificial Neural Networks (FCANN). The FCANN model presents a good accuracy of 99.85% which makes this model fast in response and easy to be updated with lesser time when compared to single ANN. The comparison between predictions and observations is found to be satisfactory with less input parameters. This should be capable of giving relatively quick responses while being easily implemented for various furnace types.

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电路与系统(英文)

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273