Justin Kern scite author profile

Justin Kern

5Publications

101Citation Statements Received

40Citation Statements Given

How they've been cited

144

How they cite others

Affiliations

Argonne National Laboratory, West Virginia University

Publications

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Factors Affecting Heavy-Duty Diesel Vehicle Emissions

Clark

Kern

Atkinson

et al. 2002

Journal of the Air & Waste Management Association

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Societal and governmental pressures to reduce diesel exhaust emissions are reflected in the existing and projected future heavy-duty certification standards of these emissions. Various factors affect the amount of emissions produced by a heterogeneous charge diesel engine in any given situation, but these are poorly quantified in the existing literature. The parameters that most heavily affect the emissions from compression ignition engine-powered vehicles include vehicle class and weight, driving cycle, vehicle vocation, fuel type, engine exhaust aftertreatment, vehicle age, and the terrain traveled. In addition, engine control effects (such as injection timing strategies) on measured emissions can be significant. Knowing the effect of each aspect of engine and vehicle operation on the emissions from diesel engines is useful in determining methods for reducing these emissions and in assessing the need for improvement in inventory models. The effects of each of these aspects have been quantified in this paper to provide an estimate of the impact each one has on the emissions of diesel engines.

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A Predictive Tool for Emissions from Heavy-Duty Diesel Vehicles

Clark

Gajendran

Kern

2002

Environ. Sci. Technol.

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Traditional emissions inventories for trucks and buses have relied on diesel engine emissions certification data, in units of g/bhp-hr, processed to yield a value in g/mile without a detailed accounting of the vehicle activity. Research has revealed a variety of other options for inventory prediction, including the use of emissions factors based upon instantaneous engine power and instantaneous vehicle behavior. The objective of this paper is to provide tabular factors for use with vehicle activity information to describe the instantaneous emissions from each heavy-duty vehicle considered. To produce these tables, a large body of data was obtained from the research efforts of the West Virginia University-Transportable Heavy Duty Emissions Testing Laboratories (TransLabs). These data were available as continuous records of vehicle speed (hence also acceleration), vehicle power, and emissions of carbon monoxide (CO), oxides of nitrogen (NOx), and hydrocarbons (HC). Data for particulate matter (PM) were available only as a composite value for a whole vehicle test cycle, but using a best effort approach, the PM was distributed in time in proportion to the CO. Emissions values, in g/sec, were binned according to the speed and acceleration of a vehicle, and it was shown that the emissions could be predicted with reasonable accuracy by applying this table to the original speed and acceleration data. The test cycle used was found to have a significant effect on the emissions value predicted. Tables were created for vehicles grouped by type (large transit buses, small transit buses, and tractor-trailers) and by range of model year. These model year ranges were bounded by U.S. national changes in emissions standards. The result is that a suite of tables is available for application to emissions predictions for trucks and buses with known activity, or as modeled by TRANSIMS, a vehicle activity simulation model from Los Alamos National Laboratories.

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Axial Flux Variable Gap Motor: Application in Vehicle Systems

Oh¹,

Kern²,

Bohn³

et al. 2002

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Alternative electric motor geometry with potentially increased efficiency is being considered for hybrid electric vehicle applications. An axial flux motor with a dynamically adjustable air gap (i.e., mechanical field weakening) has been tested, analyzed, and modeled for use in a vehicle simulation tool at Argonne National Laboratory. The advantage of adjusting the flux is that the motor torque-speed characteristics can better match the vehicle load. The challenge in implementing an electric machine with these qualities is to develop a control strategy that takes advantage of the available efficiency improvements without using excessive energy to mechanically adjust the air gap and thus reduce the potential energy savings. Motor efficiency was mapped in terms of speed, torque, supply voltage, and rotor-tostator air gap. Maps of optimal gap versus efficiency were used to develop a motor model and control strategy, which were incorporated into the PNGV Systems Analysis Toolkit vehicle modeling software.

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SI Engine Hardware and Software Design for High Power, Low Emission Applications

Brdarski¹,

Kern²,

Woldring³

et al. 2009

SAE Int. J. Fuels Lubr.

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Analysis of Performance Results from FutureTruck 2001

LeBlanc

Kern

Duoba

et al. 2002

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Justin Kern

Factors Affecting Heavy-Duty Diesel Vehicle Emissions

A Predictive Tool for Emissions from Heavy-Duty Diesel Vehicles

Axial Flux Variable Gap Motor: Application in Vehicle Systems

SI Engine Hardware and Software Design for High Power, Low Emission Applications

Analysis of Performance Results from FutureTruck 2001

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