Deteksi Kavitasi Pada Pompa Sentrifugal Menggunakan Spektrum Getaran dan Spektrum Envelope

Semesta Teknika Pub Date : 2019-09-03 DOI:10.18196/ST.221231

B. P. Kamiel, Deby Arikh Nafsaka, Bambang Riyanta, Azhim Asyratul

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引用次数: 1

Abstract

Abstrak Kavitasi adalah salah satu indikator penting kondisi operasi sebuah pompa sentrifugal. Fenomena kavitasi ditunjukkan dengan terbentuknya formasi gelembung udara yang kemudian pecah secara tiba-tiba akibat perubahan tekanan pada sisi hisap pompa. Kavitasi dapat menyebabkan kerusakan yang parah komponen pompa terutama bagian sudu atau impeller . Kavitasi biasanya dapat diidentifikasi melalui suara bising dan timbulnya getaran yang berlebihan. Sebuah metode deteksi kavitasi dibutuhkan agar potensi kerusakan lebih lanjut pada pompa sentrifugal dapat diantisipasi secepatnya. Penelitian ini bertujuan menghasilkan sebuah metode deteksi kavitasi menggunakan spektrum getaran dan spektrum envelope pada bentang frekwensi rendah 0-4 kHz dan bentang frekwensi tinggi 4-8,5 kHz. Sinyal getaran pompa direkam menggunakan sebuah akselerometer yang diletakkan pada rumah volute pompa arah aksial. Sinyal getaran kemudian ditransformasikan kedalam spektrum dan spektrum envelope menggunakan Fast Fourier Transform . Spektrum dan spektrum envelope untuk masing-masing bentang frekwensi dibandingkan antara pompa kondisi normal dan kondisi tiga level kavitasi kavitasi. Hasil penelitian menunjukkan bahwa spektrum frekwensi rendah dapat digunakan untuk mendeteksi kavitasi level 3 yang ditunjukkan dengan peningkatan amplitudo frekwensi poros sebesar 47,6 Hz dan ½ BPF sebesar 149,6 Hz. Sedangkan kavitasi level 1 dapat dideteksi oleh spektrum envelope pada bentang frekwensi tinggi. Dapat disimpulkan pula bahwa penurunan ampitudo teramati secara umum pada domain waktu seiring dengan meningkatnya level kavitasi. Abstract Cavitation is an important indication of operation condition for a centrifugal pump. An indication of the appearance of cavitation is the formation of bubbles which collapse suddenly when the pressure changed on the suction side of the pump. The formation of cavitation bubbles can cause fault to the inner pump components. The fault that often results from cavitation phenomenon is affected in the impeller. This fault is usully identified through noise and vibration generated. Therefore, a method is needed to detect early cavitation phenomenon at the centrifugal pump. This study aims to develop cavitation detection methods using the vibration spectrum and envelope spectrum of low frequency band of 0-4 kHz and high frequency band of 4 kHz-8,5 kHz. In this study, cavitation detection in conducted by recording vibration signals that occur at centrifugal pump using an accelerometer. The data obtained is then transformed into the frequency domain and envelope spectrum using Fast Fourier Transform. The results were compared between normal condition and level 1, 2, and 3 cavitation. Comparisons were made on each vibration spectrum and envelope spectrum at the low frequency and high frequency bands. The result of this study showed that the vibration spectrum with low frequency band can detect the formation of level 3 cavitation with an increase in shaft frequency amplitude (47,26 Hz) and ½ BPF (149,6 Hz). Whereas early cavitation or level 1 cavitation was identified through the envelope spectrum at high frequency band. It also showed that a decrease in amplitude occured gradually in the time domain along with increasing level of cavitation.

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基于齿轮谱和包络谱的离心泵汽蚀检测

Kavitasi摘要是中央泵运行状态的最重要指标之一。空化现象表现为气泡的形成，然后由于泵侧压力的变化而突然爆炸。Kavitasi会对泵部件造成严重损坏，尤其是角部或叶轮。Kavitation通常可以通过噪音和过度振动来识别。需要一种空化检测方法，以使离心泵的进一步损坏能够被迅速吸收。本研究旨在利用低频0-4kHz和高频4-8.5kHz的振动谱和包络谱来产生空化检测方法。使用放置在轴向泵蜗壳上的加速度计记录泵的振动信号。然后使用快速傅立叶变换将振动信号转换为频谱和包络频谱。在正常工况泵和三级空化工况空化之间比较每波频率的频谱和包络谱。研究表明，低频谱可用于检测3级空化，多孔振幅增加47.6 Hz，½BPF增加149.6 Hz。而1级空化可以通过高频格式的包络谱来检测。还可以得出结论，通常在时域中观察到ampitudo的降低，因为它增加了空化水平。摘要气穴现象是离心泵运行状态的一个重要指标。空化现象的一个迹象是，当泵吸入侧的压力发生变化时，气泡会突然破裂。气穴的形成可能会导致内部泵部件出现故障。通常由空化现象引起的故障在叶轮中受到影响。该故障通常通过产生的噪音和振动来识别。因此，需要一种检测离心泵早期空化现象的方法。本研究旨在开发利用0-4kHz低频带和4kHz-8,5kHz高频带的振动谱和包络谱的空化检测方法。在这项研究中，空化检测是通过使用加速度计记录离心泵上发生的振动信号来进行的。然后使用快速傅立叶变换将获得的数据变换到频域和包络频谱中。比较了正常工况和1、2、3级空化的结果。对低频段和高频段的每个振动谱和包络谱进行了比较。研究结果表明，随着轴频率振幅（47,26 Hz）和½BPF（149,6 Hz）的增加，低频带振动谱可以检测到3级空化的形成。而早期空化或1级空化是通过高频带的包络谱识别的。结果还表明，随着空化水平的增加，振幅在时域上逐渐减小。

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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Semesta Teknika

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12 weeks