Despite rapid development in China, small-scale boilers (SCBs) still occupy a prominent place in industry. Due to the lack of pollutant removal devices (RDs), SCBs emit large quantities of pollutants, which merit increased attention. In this study, various SCBs (operating on coal, gangue, coke oven gas, coal gas, and natural gas) used in bathing, heating, power generation, and coke and cement making were investigated for their SO_2, NO_x, and PM emission factors (EFs). The EFs were expressed as the emitted pollutant mass associated with fuel consumption (EF_I), product yield (EF_(II)), industrial output (EF_(III)), and power generation (EF_(IV)). Of 17 civil SCBs, 4, 14, and 10 were not equipped with PM, NO_x, and SO_2 RDs, respectively. Generally, the EF_I values for all of the SCBs decreased with increasing coal consumption. The averaged NO_x EF_I value for the 3 SCBs with installed NO_x RDs was 2.00 kg t^(-1) versus 3.16 kg t^(-1) for the 17 SCBs. The sulfur content of the coal and the SO_2 removal rate were highly influential factors for the SO_2 EF_I values. The 4 SCBs without PM RDs possessed an average EF_I value of 23.9 kg t^-(1), which was higher than the corresponding 5.41 kg t^(-1) for the 13 boilers equipped with PM RDs. The EF_I, EF_(II), and EF_(IV) values for 9 coal-fired power plants (PPs) exhibited the same trends, decreasing as the capacity of the PPs increased from 6 to 330 MW, although slightly higher EFs were found for 600 MW plants compared to 330 MW plants. The gas-fired PPs possessed higher NO_x EFs than both the coal- and gangue-fired plants, and the gangue-fired PPs displayed significantly higher EFs than coal-fired PPs with the same individual block power capacity. Because flue gas produced in the coking factories was not fully emitted during the combustion process, no correlation existed between the EFs (expressed as EF_(II) and EF_(III)) and coke production or industrial output. Moreover, due to the lack of NO_x RDs, the EFs of NO_x were higher than those of SO_2 and PM in the coking industry. Among 6 small- and medium-sized cement companies, the factories with lower cement production possessed higher EFI values for PM. A reverse trend was exhibited by the NO_x EF_I, however, with high combustion temperatures at factories with high production being the possible explanation.