Abstract

Pipe networks for both water and oil distribution are prone to the formation of restrictions and, if not managed, possible obstructions. These reduce the efficiency of pipe systems and, in turn, cause negative economic impacts, temporary losses of service, and environmental risks. The present work focuses on a noninvasive methodology for the detection of restrictions in pipe networks. Restrictions are identified by minimizing, via genetic algorithms, a function that represents the discrepancy between on-field measured data and those simulated numerically. Measured data consist of a limited set of steady-state pressure heads and flow rates, which are the most commonly available information for pipe networks. The outcome of the technique is the “equivalent residual diameter” of each pipe in the network. This parameter allows the company managing the pipe network to identify the pipe segments where restrictions are most likely to be present and require further investigations. The approach is numerically validated for 15 different scenarios, considering five different sets of available measures and three different restriction conditions, in a mixed branched-looped network with complex topology for crude-oil transportation. The results show that the presence of restrictions is clearly identified and their magnitude is generally assessed with an accuracy of 5%.

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