The representative waste television recycling processwas chosen as the object of this study, including manual dismantlingand mechanical separation of printed circuit boards (PCBs) andcathode ray tubes (CRTs) in two independent workshops. Duringthese recycling processes,fine particulate matter and heavy metals willbe released into the air to impact the environment and the health ofthe workers. The mass concentrations of PM2.5(particles below 2.5μm diameter) in mechanical and dismantling workshops ranged from252.6 to 290.8μg/m3and from 112.7 to 169.4μg/m3, respectively.The average concentration of PM2.5around the workshop was 98.5μg/m3. Meanwhile, the contents of PM10(particles below 10μmdiameter) were all below the risk threshold, except that (360.4μg/m3) monitored in the mechanical workshop. In two workshops, Pb(20.46 and 6.935 mg/g) was the most enriched metal in the PM2.5samples, while in PM10, the concentration of Cu (27.76 and31.80 mg/g) was the largest. The concentration of Cd was the least in both PM10and PM2.5. Health risk assessment showed thatthe total hazard indexes for non-carcinogenic metal in PM2.5monitored in mechanical and dismantling workshops and in thesoutheast of the workshops were 7.61, 3.01, and 1.57, respectively, all above the safety level. Furthermore, Pb (7.28 and 3.01)might possibly have a non-carcinogenic effect on the workers in two workshops, and the sequence of the hazard quotient (HQ)through the three exposure ways was ingestion > dermal contact > inhalation. The lifetime cancer risk of four targeted metals wasCr > Ni > Pb > Cd, which could be proven in all monitoring samples. This study aims to provide a large amount of valid data forthe State Environmental Protection Department to develop relevant environmental standards and for companies to improve thewaste television recycling system to be more efficiently and environmentally friendly