Method to determine instantaneous transient responses in pressurized pipes from transfer functions and state space for evaluation of leak signals

• Published in: MethodsX Vol. 12; p. 102762
• Main Authors: Ladino-Moreno, Edgar Orlando, García-Ubaque, César Augusto, Espejo-Mojica, Oscar Gabriel
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.06.2024; Elsevier
• Subjects: Esp8266; Iot; Leaks; Method to determine instantaneous transient responses in pressurized pipes; System dynamics; Transfer function; Transients; Water Hammer; Method to determine instantaneous transient responses in pressurized pipes; COM; LTI; MOC; System dynamics; AI; NRMSE; HGL; Water Hammer; Leaks; Iot; Transients; Esp8266; MAF; ACV; VDC; VCC; HDMI; ANFIS; Transfer function; PVC; MSE
• ISSN: 2215-0161; 2215-0161
• DOI: 10.1016/j.mex.2024.102762

This article addresses the impact of transient pressure anomalies in hydraulic systems, triggered by the opening or closing of valves or pumps, instantly disturbing the line of hydraulic gradient (LGH). This variation in pressure has significant consequences both in hydraulic and structural terms for water networks. Most of the existing techniques to detect transients in water distribution systems use asynchronous methods, generating timeless information that limits the response capacity in critical situations. Therefore, an automatic transient detection system based on the Internet of Things (IoT) is proposed, capable of identifying overpressure or underpressure pulses in soft real-time, activating alarms to facilitate decision-making. This approach helps maintain the safety of the water distribution system and prevent leaks in the network. Furthermore, a model of the transient behavior of pressure and flow is presented by linearizing the water hammer equations from the Laplace transform, thus generating a transfer function that describes the algebraic relationship between the outlet and inlet of the hydraulic system.•The transient analysis of the hydraulic system prototype underscores its high sensitivity to initial conditions, attributed to turbulence. This observation suggests the possible presence of a dynamic strange attractor related to water hammer phenomena in pressure pipes.•The methodology involving transfer functions and state-space models enables the assessment of how leaks impact the transient responses of the system, including the magnitude, duration, and frequency of disturbances generated by them.•The proposed method introduces a dynamic transfer function capable of identifying instantaneous changes over time in terms of flow and pressure. [Display omitted]