Poisson rectangular pulse (PRP) model establishment based on uncertainty analysis of urban residential water consumption patterns

This is the final version. Available on open access from Elsevier via the DOI in this record. ; The commonly used Poisson rectangular pulse (PRP) model, employed for simulating high-resolution residential water consumption patterns (RWCPs), relies on calibration via medium-resolution RWCPs obtained from practical measurements. This introduces inevitable uncertainty stemming from the measured RWCPs, which consequently impacts the precision of model simulations. Here we enhance the accuracy of the PRP model by addressing the uncertainty of RWCPs. We established a critical sampling size of 2000 household water consumption patterns (HWCPs) with a data logging interval (DLI) of 15 min to attain dependable RWCPs. Through Genetic Algorithm calibration, the optimal values of the PRP model's parameters were determined: pulse frequency λ = 91 d-1, mean of pulse intensity E(I) = 0.346 m3 h-1, standard deviation of pulse intensity STD(I) = 0.292 m3 h-1, mean of pulse duration E(D) = 40 s, and standard deviation of pulse duration STD(D) = 55 s. Furthermore, validation was conducted at both HWCP and RWCP levels. We recommend a sampling size of ≥2000 HWCPs and a DLI of ≤30 min for PRP model calibration to balance simulation precision and practical implementation. This study significantly advances the theoretical foundation and real-world application of the PRP model, enhancing its role in urban water supply system management. ; National Natural Science Foundation of China ; Ministry of Science and Technology of China ; Youth Innovation Promotion Association of the Chinese Academy of Sciences