High-density polyethylene (HDPE) pipes are used for water treatment and water transit due to their excellent chemical stability and physical properties. In recent years, the release of microplastics (MPs) from HDPE pipes has gained increasing attention due to their potential environmental and human health risks. This study investigated the release of MPs from HDPE pipes under three different aging conditions, including ozonation, chlorination, and heating. Both stagnant and circulating experiments were conducted. The impact of ozonation, chlorination, and heating aging on the release of MPs was assessed by analyzing the MPs concentration, size distributions, and surface morphology. The results showed that the release of MPs from HDPE pipes increased with enhanced aging. In ozonation, the release of MPs increased from 654 #/L and 82 #/L in the control experiment to 1180 #/L and 177 #/L under 30 mg/L ozone in the stagnant and circulating experiments, respectively. In chlorination, the release of MPs increased from 528 #/L and 103 #/L in the control experiment to 933 #/L and 118 #/L under 260 mg/L chlorine in the stagnant and circulating experiments, respectively. In heating aging, the release of MPs increased from 433 #/L and 65 #/L in the control experiment to 932 #/L and 173 #/L under 80°C in the stagnant and circulating experiments, respectively. Ozonation significantly enhanced the release of MPs with a size of <10 m and 10 m-50 m. Chlorination significantly enhanced the release of MPs with a size of <10 m. Heating aging had a significant impact on the release of MPs of all sizes. The surface of HDPE pipes exhibited intensified cracks with enhanced aging, which likely contributed to the increased release of MPs. In summary, the results from this study indicated that enhanced aging with ozone, chlorine, and heating could lead to a greater release of MPs from HDPE pipes in both stagnant and circulating experiments.