Erkan, MuratBoynuegri, Ali RifatTekgun, Burak2025-09-252025-09-252025979833151324597983315132382832-7667https://doi.org/10.1109/GPECOM65896.2025.11061825This study presents the design of an electric machine intended to supply the electrical energy required for the operation of electronic devices and mechanical equipment that form part of a clean water smart grid network powered by renewable energy sources. The proposed machine is a permanent magnet synchronous generator (PMSG), specifically designed to operate under realistic physical and hydraulic conditions within clean water distribution infrastructure. The in-pipe turbine responsible for driving the rotor of the generator was selected based on findings from a symposium paper identified through a comprehensive literature review. The daily energy requirements of the smart grid's electronic and industrial mechanical components were both theoretically estimated and experimentally validated, leading to the selection of a suitable energy storage unit. Pressure data from the clean water distribution line located on the street of the design office was measured and recorded at one second intervals over a 24-hour period. Using this dataset, the optimal hydraulic conditions and time frame for battery charging were identified from the pressure-time profile. A representative duty cycle was then defined, and the performance analysis of the in-pipe permanent magnet synchronous generator was carried out accordingly.eninfo:eu-repo/semantics/closedAccessIn-Pipe EnergySmart GridRenewable EnergyPermanent Magnet Synchronous GeneratorConference Object10.1109/GPECOM65896.2025.110618252-s2.0-105011256361