The Science Behind Smog-Eating Pavement
At the heart of this technology is titanium dioxide, a catalytic agent found in everyday products like sunscreen. This compound, when activated by sunlight, breaks down harmful gases in a manner similar to the photosynthesis process in trees. Thus, treated pavements serve as giant, flat, urban forests, working tirelessly to clean the air.
Proven Results and Potential Benefits
Companies such as Pavement Technology Inc. have collaborated with academic institutions to verify the effectiveness of smog-eating roads in cities including Charleston, Orlando, Cleveland, San Antonio, Tucson, and Phoenix. These partnerships report emission reductions from 28% to over 54%. Apart from the smog-eating aspect, Phoenix discovered an additional benefit – the reflective quality of the treated pavement helps maintain cooler streets during hot summers, reducing surface temperatures by up to 12 degrees.
Utah: A Complicated Scenario
Utah, plagued by air quality issues and hot summers, has a keen interest in this technology. The state’s connection to titanium dioxide – a key ingredient of the treatment – is a significant factor, as much of this compound is mined locally. However, the journey is not without obstacles. Previous tests conducted at the University of Utah revealed limitations due to the state’s arid climate, which could impact the technology’s effectiveness. Furthermore, Utah’s Division of Air Quality prefers to adopt proven, cost-effective solutions, adding another layer of complexity to the potential investment in smog-eating pavement in the state.