Increasing the operational reliability of a ship by using a composite impeller in the event of hydrophore pump failure

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2023-01-29 DOI:10.17531/ein.2023.1.18

Monika Jabłońska, W. Jurczak, D. Ozimina, M. Adamiak

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引用次数: 1

Abstract

The time-consuming technological process of manufacturing impellers and the high production costs are the reason for the search for alternative materials and manufacturing methods. In this paper, based on a literature analysis, the performance of a pump with an impeller that was manufactured by an incremental method from polyethylene terephthalate with an admixture of glycol and carbon fibre (PETG CF) was selected and studied. Operation tests were conducted on the ship’s rotodynamic pump test bench. The composite impeller pump was shown to have an efficiency at the selected printing parameters of 26,23%, comparable to a tin bronze impeller, which has an efficiency of 27,7%. The maximum pump useful power with the impellers tested was 337 W at a flow rate of 4.42 m3 /h. The results confirm that, with a filament layer height of 0.12 mm and 100% fill in the four print contours, the pump characteristics obtained are consistent with those of the reference impeller. This fact ensures continuous operation of the ship’s pump for 48 hours which makes the chosen manufacturing method a reliable emergency method of impeller repair in offshore operations.

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在水听器泵发生故障时，采用复合叶轮提高船舶运行可靠性

制造叶轮费时的工艺过程和高昂的生产成本是寻找替代材料和制造方法的原因。本文在文献分析的基础上，对以聚对苯二甲酸乙二醇酯为原料，乙二醇和碳纤维混合物(PETG CF)为原料，采用增量法制备的叶轮泵的性能进行了选择和研究。在船舶动泵试验台进行了运行试验。在选定的印刷参数下，复合叶轮泵的效率为26.23%，而锡青铜叶轮的效率为27.7%。叶轮试验时，泵的最大有效功率为337瓦，流量为4.42 m3/h。结果表明，当长丝层高为0.12 mm, 4种打印轮廓填充率为100%时，得到的泵的特性与参考叶轮的特性一致。这一特点保证了船舶泵连续运行48小时，使所选制造方法成为海上作业中叶轮抢修的可靠方法。

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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Eksploatacja i Niezawodność – Maintenance and Reliability

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