Abstract
ABSTRACTOff-road vehicles used in construction and agricultural activities can contribute substantially to emissions of gaseous pollutants and can be a major source of submicrometer carbonaceous particles in many parts of the world. However, there have been relatively few efforts in quantifying the emission factors (EFs) and for estimating the potential emission reduction benefits using emission control technologies for these vehicles. This study characterized the black carbon (BC) component of particulate matter and NOx, CO, and CO2 EFs of selected diesel-powered off-road mobile sources in Mexico under real-world operating conditions using on-board portable emissions measurements systems (PEMS). The vehicles sampled included two backhoes, one tractor, a crane, an excavator, two front loaders, two bulldozers, an air compressor, and a power generator used in the construction and agricultural activities. For a selected number of these vehicles the emissions were further characterized with wall-flow diesel particle filters (DPFs) and partial-flow DPFs (p-DPFs) installed. Fuel-based EFs presented less variability than time-based emission rates, particularly for the BC. Average baseline EFs in working conditions for BC, NOx, and CO ranged from 0.04 to 5.7, from 12.6 to 81.8, and from 7.9 to 285.7 g/kg-fuel, respectively, and a high dependency by operation mode and by vehicle type was observed. Measurement-base frequency distributions of EFs by operation mode are proposed as an alternative method for characterizing the variability of off-road vehicles emissions under real-world conditions. Mass-based reductions for black carbon EFs were substantially large (above 99%) when DPFs were installed and the vehicles were idling, and the reductions were moderate (in the 20–60% range) for p-DPFs in working operating conditions. The observed high variability in measured EFs also indicates the need for detailed vehicle operation data for accurately estimating emissions from off-road vehicles in emissions inventories.Implications: Measurements of off-road vehicles used in construction and agricultural activities in Mexico using on-board portable emissions measurements systems (PEMS) showed that these vehicles can be major sources of black carbon and NOX. Emission factors varied significantly under real-world operating conditions, suggesting the need for detailed vehicle operation data for accurately estimating emissions inventories. Tests conducted in a selected number of sampled vehicles indicated that diesel particle filters (DPFs) are an effective technology for control of diesel particulate emissions and can provide potentially large emissions reduction in Mexico if widely implemented.
Highlights
Off-road vehicles can substantially contribute to emissions of hydrocarbons (HC), carbon monoxide (CO), nitrogen oxides (NOX), carbon dioxide (CO2), particulate matter (PM), and other harmful air pollutants
During the initial acceleration the engine speed is ramped from about 1,100 to 2,000 rpm in only 4 to 5 sec but with limited load since there is not a lot of material being pushed; the vehicle keeps moving forward at high engine speed for about 10 sec and the material being pushed gradually accumulates in the bulldozer’s bucket, increasing the engine fuel consumption as reflected by the increase of CO2 and NOX emissions; as the slope moving upward starts to increase along with the material load, the operator progressively reduces the engine speed until the vehicle reaches the top of the stockpile; at this point all the emissions are in a downward trend until the operator starts moving backward with a fast acceleration
Starting the second acceleration to return to the original position there is a second large peak observed in the CO and black carbon (BC) emissions but it is almost nonexistent in CO2 and NOX emissions
Summary
Off-road vehicles (e.g., forklifts, specialty vehicles, portable generators, and a wide array of other agricultural, construction, and industrial equipment) can substantially contribute to emissions of hydrocarbons (HC), carbon monoxide (CO), nitrogen oxides (NOX), carbon dioxide (CO2), particulate matter (PM), and other harmful air pollutants. There is no legislation available on emissions levels for in-use off-road vehicles in Mexico, and there are no incentives to install emissions controls technologies. Due to their durability, off-road vehicles are often kept in service for several decades and their relative emissions contributions increase over time as emissions from on-road vehicles continue to be reduced by technological improvements. Off-road vehicles are often kept in service for several decades and their relative emissions contributions increase over time as emissions from on-road vehicles continue to be reduced by technological improvements These factors highlight the importance of designing emissions control
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