Biogenic Sulphuric Acid Attack of Concrete Sewer Pipes: A Prediction of the Corrosion Rate

A. Beeldens, D. Gemert
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引用次数: 4

Abstract

Biogenic sulphuric acid corrosion is a phenomenon which occurs mainly in sewer pipes. The process consists of four stages: the reduction of sulphate to sulphide; the transition of sulphide to hydrogen sulphide gas in the sewer atmosphere; the re-oxidation of the sulphide gas to sulphuric acid in an oxidizing environment of the sewer pipe and finally concrete attack by sulphuric acid. Different models are developed to predict the sulphide formation and the corrosion rate. The model of Pomeroy, according to which the rate of sulphur production and the rate of corrosion can be calculated, is used in this paper. Different parameters are taken into account and case studies are described. Comparison of the calculated corrosion and the measured corrosion indicates the accuracy of the formula. In addition, a sensitivity study is carried out on the formulae to distinguish the influence of the different parameters. A realistic variation of the different parameters is made, based on measurements at the inlet of purification plants. The most influencing parameters for the model were the temperature, the BOD-content and the pH-value of the waste water, the depth of flow and the detention time.
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混凝土下水管道的生物硫酸侵蚀:腐蚀速率的预测
生物硫酸腐蚀是一种主要发生在污水管道中的腐蚀现象。该过程包括四个阶段:硫酸盐还原为硫化物;下水道大气中硫化物向硫化氢气体的转变;在污水管道的氧化环境中将硫化物气体再氧化为硫酸,最后用硫酸进行混凝土侵蚀。开发了不同的模型来预测硫化物的形成和腐蚀速率。本文采用波默罗伊模型,根据该模型可以计算出产硫速率和腐蚀速率。考虑了不同的参数,并描述了案例研究。计算腐蚀值与实测腐蚀值的比较表明了公式的准确性。此外,还对公式进行了敏感性研究,以区分不同参数的影响。根据净化装置入口的测量,对不同参数进行了实际的变化。对模型影响最大的参数是温度、废水bod含量和ph值、水流深度和滞留时间。
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