@article{30473, author = {J Apple and R Vicente and A Yarberry and N Lohse and Evan Mills and Arne Jacobson and D Poppendieck}, title = {Characterization of particulate matter size distributions and indoor concentrations from kerosene and diesel lamps}, abstract = {
Over one-quarter of the world's population relies on fuel-based lighting. Kerosene lamps are often located in close proximity to users, potentially increasing the risk for respiratory illnesses and lung cancer. Particulate matter concentrations resulting from cook stoves have been extensively studied in the literature. However, characterization of particulate concentrations from fuel- based lighting has received minimal attention. This research demonstrates that vendors who use a single simple wick lamp in high-air-exchange market kiosks will likely be exposed to PM2.5 concentrations that are an order of magnitude greater than ambient health guidelines. Using a hurricane lamp will reduce exposure to PM2.5 and PM10 concentrations by an order of magnitude compared to using a simple wick lamp. Vendors using a single hurricane or pressure lamp may not exceed health standards or guidelines for PM2.5 and PM10, but will be exposed to elevated 0.02–0.3 micrometer particle concentrations. Vendors who change from fuel-based lighting to electric lighting technology for enhanced illumination will likely gain the ancillary health benefit of reduced particulate matter exposure. Vendors exposed only to ambient and fuel-based lighting particulate matter would see over an 80% reduction in inhaled PM2.5 mass if they switched from a simple wick lamp to an electric lighting technology.
}, year = {2010}, journal = {Indoor Air}, volume = {20}, doi = {10.1111/j.1600-0668.2010.00664.x}, language = {eng}, }