Lead pipes were banned from use in distribution system in the 1980s. Nevertheless, lead is frequently utilized as an additive in plumbing components, which can endanger the public health by causing lead contamination in tap water. In this study, lead survey campaign consisting of five sampling events were conducted for 20 residential premises and 10 schools at the Greater Taipei Area. In addition, brand new brass faucets and lead-free faucets were purchased and installed in a building on the National Taiwan University campus to investigate the leaching of lead for around 3 months. Total lead and soluble lead were analyzed in both field research and new faucet study. Various water quality parameters were measured in the field research to study the relationship between lead concentration and each water quality parameter. Total and soluble copper, zinc, iron were analyzed in the new faucet study to investigate their correlations with lead concentration. Furthermore, size distribution, number concentration and mass concentration of lead, copper, zinc, iron nanoparticles were analyzed using single particle inductively coupled plasma mass spectrometry (spICP-MS) in the new faucet research. In the lead survey campaign, most samples had low lead concentrations, with only one sample exceeded the Taiwan drinking water standard (10 μg/L). There were no correlations between lead concentration and various water quality parameters. In the new faucet study, one brass faucet released high level of lead (maximum 24.3 μg/L) initially for about two weeks while lead-free faucet released low level of lead concentration (<6 μg/L) in tap water. The mass concentration of lead nanoparticles reduced gradually over time in one brass faucet but fluctuated greatly in the other two brass faucets. Total/soluble lead were correlated with total/soluble copper and zinc in brass faucet while lead nanoparticle mass concentration was correlated with copper, zinc and iron nanoparticle mass concentrations in new lead-free faucet and the plumbing system.