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Both field research and certification data show that the lean burn natural gas powered spark ignition engines offer particulate matter (PM) reduction with respect to equivalent diesel power plants. Concerns over PM inventory make these engines attractive despite the loss of fuel economy associated with throttled operation. Early versions of the Cummins L-10 natural gas engines employed a mixer to establish air/fuel ratio. Emissions measurements by the West Virginia University Transportable Heavy Duty Emissions Testing Laboratories on Cummins L-10 powered transit buses revealed the potential to offer low emissions of PM and oxides of nitrogen, (NOx) but variations in the mixture could cause emissions of NOx, carbon monoxide and hydrocarbons to rise. This was readily corrected through mixer repair or readjustment. Newer versions of the L-10 engine employ a more sophisticated fueling scheme with feedback control from a wide range oxygen sensor.

The U.S. Department of Transportation (USDOT) established the Intelligent Vehicle Initiative (IVI) Generation 0 Field Operational Tests (FOT) to demonstrate the effectiveness and encourage the deployment of intelligent vehicle safety systems (IVSS). This paper presents a methodology for estimating potential safety benefits of IVSS from such FOTs. The metric chosen is potential reduction in number of crashes resulting from widespread deployment of the IVSS. The methodology is based on the approach developed by the National Highway Traffic Safety Administration, Federal Highway Administration, and the Volpe National Transportation Systems Center. New features of the methodology include rigorous estimates of crash probabilities combining analytical models with FOT data and detailed investigation of the variability associated with benefits estimates. Although millions of miles will be driven in the IVI Generation 0 FOTs, few crashes are anticipated.

This paper summarizes the activities and results of a preliminary human factors review for the Intelligent Vehicle Initiative (IVI) Program. The objective of the project was to identify human factors work that needs to be done early in the life cycle of the IVI program to ensure safe and well-engineered vehicles. This project was comprised of two major subtasks. Subtask 1 provided for a “Preliminary IVI Human Factors Technology Workshop” to draw together the stakeholders in the IVI program and define the technologies and the human factors issues that should be considered in developing an IVI. Subtask 2 investigated the preliminary infrastructure and human factors in-vehicle requirements for alternative candidate configurations of an IVI.

The ability of performance-based brake testers (PBBTsa) to accurately determine the braking capability of commercial vehicles was investigated through a field study of over 2,800 trucks and buses. Under certain conditions, good agreement was found between the observation of brake-related defects by visual inspection and the measurement of weak brake forces by a PBBT. It was determined that the PBBTs' assessment was an independent measure of a vehicle's as-is braking capability, and should not be expected to correlate well with a visual inspection under any condition. It was also determined that predictions of stopping capability should be possible combining the PBBT results of the brake force and axle load measurements with certain assumptions regarding brake application time and road/tire coefficient of friction.

Currently the U. S. Department of Defense (DoD) exclusively uses potassium acetate (KAc)-based runway deicing fluids (RDFs) to deice and anti-ice military runways and taxiways. Commercial airports predominantly use KAc, but some also use RDFs composed of KAc plus propylene glycol (PG) or urea plus PG. Conventional RDFs have environmental concerns due to toxicity as well as material compatibility problems such as corrosion of aircraft carbon brake-pad components, cadmium-plated landing gear, and airfield lighting fixtures. Under the Strategic Environmental Research and Development Program (SERDP), Battelle tested a series of patented - bio-based RDFs to address these issues. Tests showed that the Battelle RDFs met the mandatory Aerospace Material Specification (AMS) 1435 requirements. These new RDFs have reduced ecotoxicity compared to currently used RDFs and are compliant with all other environmental requirements.

A program has been completed to evaluate ultra-low sulfur diesel fuels and passive diesel particulate filters (DPFs) in truck and bus fleets operating in southern California. The fuels, ECD and ECD-1, are produced by ARCO (a BP Company) and have less than 15 ppm sulfur content. Vehicles were retrofitted with two types of catalyzed DPFs, and operated on ultra-low sulfur diesel fuel for over one year. Exhaust emissions, fuel economy and operating cost data were collected for the test vehicles, and compared with baseline control vehicles. Regulated emissions are presented from two rounds of tests. The first round emissions tests were conducted shortly after the vehicles were retrofitted with the DPFs. The second round emissions tests were conducted following approximately one year of operation. Several of the vehicles retrofitted with DPFs accumulated well over 100,000 miles of operation between test rounds.