Search Results

Three heavy-duty vehicles (two buses and a truck) were tested on a chassis dynamometer and the engines were removed and tested on an engine dynamometer. Two 1993 DDC Series 50 and one 1993 Navistar DTA-466 were the engine models tested. The objective of this testing was to compare in-use emissions from vehicles with engine FTP emissions, and begin to evaluate and begin to evaluate the relationship between emissions on these two tests. Engine testing results (heavy-duty FTP) show emissions above certification levels for the two bus engines, especially for NOx, however the truck engine met the emissions standards. Chassis testing was performed using the Central Business District cycle and the EPA Urban Dynamometer Driving Schedule for Heavy-Duty Vehicles (heavy-duty transient truck or HDT cycle). There was a substantial difference in emissions for these two cycles on a g/mi basis, however both cycles gave essentially the same gaseous emissions on a g/gal of fuel consumed basis.

The effect of diesel cetane number, total aromatic content T90, and fuel nitrogen content on regulated emissions (HC, CO, NOx, and PM) from a 1991 DDC Series 60 engine were measured Emissions tests were conducted using the EPA heavy-duty transient test (CFR 40 Part 86 Subpart N) at a laboratory located 5,280 feet (1609 m) above sea level. The objective of this work was to determine if the effect of fuel chemistry at high altitude is similar to what is observed at sea level and to examine the effect of specific fuel chemistry variables on emissions. An initial tea series was conducted to examine the effect of cetane number and aromatics. Transient emissions for this test series indicated much higher (50 to 75%) particulate emissions at high altitude than observed on the same model engine and similar fuels at sea level.