@Article{ee.2022.021190, AUTHOR = {Hasan Falih, Ahmed J. Hamed, Abdul Hadi N. Khalifa}, TITLE = {Performance Analysis of a Rooftop Hybrid Connected Solar PV System}, JOURNAL = {Energy Engineering}, VOLUME = {119}, YEAR = {2022}, NUMBER = {4}, PAGES = {1729--1744}, URL = {http://www.techscience.com/energy/v119n4/47906}, ISSN = {1546-0118}, ABSTRACT = {In the present work, a 5-kW hybrid PV solar system was installed on the roof of a house in Diyala, Iraq (33.77° N, 45.14° E elevation 44 m). The system consists of two strings, where each string consists of nine polycrystalline PV modules with 355 Wp in series, and the two strings are in parallel. The energy storage system (ESS) consists of two parallel strings, each with four 12 V and 150 Ah tubular deep cycle batteries in series. A hybrid inverter of 5 kW rated power was operated in different modes. The results showed that May’s monthly energy consumption was about 822.9 and 1085 kWh, respectively. The percentage distribution of the DC energy produced was about 1% system energy losses, 27.9% was used to charge the ESS, 34.3% was used to feed the grid, and the remaining 37.64% was used to share the load. The energy percentage sharing the load was 16.67% from ESS, 33.33% from the PV system, and 50% purchased. The average daily reference, array, and final yields were 6.07, 4.327, and 3.991 h/day, respectively. The average array and load efficiencies were 12.3% and 92.24%, with the performance ratio at 65.4%.}, DOI = {10.32604/ee.2022.021190} }