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Hybrid construction vehicles emissions to be analyzed
Scientists at the University of California, Riverside’s Center for Environmental Research and Technology have received a $2 million contract for a study of hybrid construction vehicles.
The two-year project, which is being funded by the California Air Resources Board, will allow researchers to evaluate the emission reduction benefits of two commercially available hybrid construction vehicles: a Caterpillar bulldozer and a Komatsu hydraulic excavator.
“Hybrid construction vehicles are just now becoming available,” said Kent Johnson, an assistant research engineer at the Center for Environmental Research and Technology and the principal investigator on the project. “We have been asked to use our emissions testing experience to quantify what their benefit is.”
Johnson will be assisted by two co-principal investigators: Tom Durbin, a research engineer, and Wayne Miller, who lead the emissions and fuels research group at the Center for Environmental Research and Technology.
The research is part of a larger effort by the California Air Resources Board to expand the use of hybrid technology to help meet the goals of AB 32, a 2006 state law that aims to reduce greenhouse gas emissions to 1990 levels by 2020. That would be about a 30 percent reduction. It also calls for an 80 percent reduction below 1990 levels by 2050.
Little is known about the potential benefits of hybrid technologies for construction equipment because of their unique and diverse duty cycles when used. Manufacturers are saying the hybrid vehicles reduce fuel needs by 20 percent and cut emissions by 30 percent, Johnson said.
The $2 million will be divided two ways, Johnson said. Half of it will be used as an incentive voucher to get 20 to 30 hybrid construction vehicles in use. The other half will fund testing in six vehicles, which will be scattered throughout California.
Behavior of those vehicles will be characterized on a second-by-second basis during in-use operations at construction sites using portable emission measurement systems. Researchers will design standardized tasks, such as lifting a heavy object.
The performance of the hybrid vehicle will then be compared to that of conventional diesel powered vehicles.
The project will help establish the methodology for making comparisons under such varied conditions. The project will also consider the differences between emerging hybrid implementations by leading manufacturers.