Johanna Sörensen, Erik Nilsson, Didrik Nilsson, Ebba Gröndahl, David Rehn, Tommy Giertz
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引用次数: 0
摘要
管道渗漏造成的无收入用水是一项重大的全球性挑战,对经济和环境可持续性都有影响。瑞典供水公司目前的管道管理方法主要是被动式的;发现渗漏后进行维修,如果渗漏范围广且严重,有时会产生高昂的费用。在这项研究中,我们希望通过使用人工神经网络(ANN)模型来估算水管渗漏的概率,从而将重点放在主动管网管理上。人工神经网络模型是根据 10 年来发生的漏水情况进行训练的。与训练后报告的漏水情况进行比较后发现,该模型能成功识别出漏水频率较高的管道群。对瑞典四个不同供水管网中的新漏水点和历史漏水点进行的评估表明,ANN 模型的预测值越高,漏水发生率越高。这表明,ANN 模型成功识别了导致漏水的某些属性组合。对 ANN 模型输入属性的评估发现,对渗漏预测最重要的属性是管道材料、管龄、管道延伸段上的相邻问题、管道长度和管道尺寸。
Evaluation of ANN model for pipe status assessment in drinking water management
Non-revenue water due to pipe leakages presents a significant global challenge, impacting both the economy and environmental sustainability. The current approach to pipe management for water utilities in Sweden is mainly reactive; leaks are repaired when detected, sometimes with large costs if the leakage is extensive and critical. With this study, we want to focus on proactive pipe network management by using an artificial neural network (ANN) model to estimate the probability of leakage in water pipes. The ANN model was trained on leaks that occurred over 10 years. A comparison with leaks reported after the training shows that the model succeeds in identifying groups of pipes with a higher leakage frequency. Evaluation of both new and historical leaks in four different water pipe networks in Sweden showed that a higher prediction value from the ANN model was linked to a higher occurrence of leakage. This indicates that the ANN model succeeds in identifying some of the combinations of attributes that lead to leakage. An evaluation of the input attributes in the ANN model found that the most important attributes for leakage prediction were pipe material, pipe age, adjacent problems on the pipe stretch, pipe length and pipe dimension.
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