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Blending of 20% biodiesel with petroleum diesel is well known to cause a significant reduction in PM emissions but also can cause NOx emissions to increase by 1 to 3 percent. This study has examined a number of approaches for NOx reduction for 20% biodiesel/petroleum diesel blends (B20). These approaches included blending with a nominally 10% aromatic diesel, zero aromatic Fisher-Tropsch (FT) diesel, and use of fuel additives. Biodiesel produced from soybean oil and from yellow grease was examined. Testing was conducted in at 1991 DDC Series 60 truck engine using the U.S. heavy-duty FTP. Emissions of NOx, PM, CO, and THC are reported. Relative to certification diesel the B20 fuels exhibited 20% lower PM emissions but 3.3 and 1% higher NOx emissions for soy and yellow grease based blends, respectively. The 10% aromatic fuel exhibited 12% lower PM and 6% lower NOx. FT diesel had the lowest emissions with a 33% reduction in PM and 16% lower NOx.

Emissions of six 32 passenger transit buses were characterized using one of the West Virginia University (WVU) Transportable Heavy Duty Emissions Testing Laboratories, and the fixed base chassis dynamometer at the Colorado Institute for Fuels and High Altitude Engine Research (CIFER). Three of the buses were powered with 1997 ISB 5.9 liter Cummins diesel engines, and three were powered with the 1997 5.9 liter Cummins natural gas (NG) counterpart. The NG engines were LEV certified. Objectives were to contrast the emissions performance of the diesel and NG units, and to compare results from the two laboratories. Both laboratories found that oxides of nitrogen and particulate matter (PM) emissions were substantially lower for the natural gas buses than for the diesel buses. It was observed that by varying the rapidity of pedal movement during accelerations in the Central Business District cycle (CBD), CO and PM emissions from the diesel buses could be varied by a factor of three or more.