Analysis of Time-Wise Compressor Fouling Phenomenon on a Multistage Test Compressor: Performance Losses and Particle Adhesion

Volume 9: Oil and Gas Applications; Organic Rankine Cycle Power Systems; Steam Turbine Pub Date : 2020-09-21 DOI:10.1115/GT2020-15418

Alessandro Vulpio, A. Suman, N. Casari, M. Pinelli, R. Kurz, K. Brun

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引用次数: 8

Abstract

The analysis of the performance losses of a multistage compressor concerning the air contaminant is not widespread in literature and, the mutual interactions of particle materials, air humidity, and compressor load are not well studied. The airborne micrometric particles that enter the compressor can deposit on the internal surfaces, causing the loss of performance of the machine. In this paper, several experimental tests have been carried out on a multistage compressor unit. A detailed analysis has been carried out considering soil and soot ingestion, as well as the air relative humidity (ranging from 50 %RH to 80 %RH) and compressor rotating velocity. Several combinations of particle diameter, material, and operating conditions have been considered. The amount of contaminant at the compressor outlet has been measured and the capture efficiency of the whole machine has been determined. Over the exposure time, the capture efficiency ranges from 0.2 to 0.6 according to the powder type and compressor inlet conditions. The capability of the compressor to collect particles changes over time as a function of the condition, even if, several tested cases appear characterized by an almost constant capture efficiency trend. In addition, the performance degradation has been monitored over time and, with the reference of the particle concentration, the present experimental campaign covers about 500 operating hours of an actual installation. After a detailed evaluation of experimental uncertainty, the performance losses due to particle contamination has been assessed. The losses in the compressor performance have been estimated by means of the pressure ratio of the axial stages. The maximum degradation has been estimated equal to 0.53 % per hour for the compressor pressure ratio. Soot particles appear stickier, especially in the presence of higher humidity and represent the most detrimental operating conditions for the compressor unit.

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多级试验压缩机积垢现象分析:性能损失和颗粒附着

关于空气污染物对多级压缩机性能损失的分析文献并不多见，颗粒材料、空气湿度和压缩机负荷之间的相互作用也没有得到很好的研究。空气中的微米颗粒进入压缩机会沉积在内部表面，导致机器性能的损失。本文对某多级压缩机组进行了试验研究。考虑到土壤和烟尘的摄入，以及空气相对湿度(50% RH ~ 80% RH)和压缩机转速，进行了详细的分析。考虑了颗粒直径、材料和操作条件的几种组合。测量了压缩机出口的污染物量，确定了整机的捕获效率。在曝光时间内，根据粉末类型和压缩机入口条件，捕获效率范围为0.2至0.6。作为条件的函数，压缩机收集颗粒的能力随着时间的推移而变化，即使几个测试案例的特征似乎是几乎恒定的捕获效率趋势。此外，随着时间的推移，已经监测了性能的下降，并参考了颗粒浓度，目前的实验活动涵盖了实际安装的约500个工作小时。在对实验不确定度进行详细评估后，对颗粒污染造成的性能损失进行了评估。利用轴向级的压力比估算了压气机性能的损失。据估计，压缩机压力比的最大退化为每小时0.53%。煤烟颗粒看起来更粘，特别是在湿度较高的情况下，这对压缩机机组来说是最有害的操作条件。

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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Volume 9: Oil and Gas Applications; Organic Rankine Cycle Power Systems; Steam Turbine

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