A slipstream of exhaust from a Caterpillar 3126B engine was diverted into a plasma-catalytic NOx control system in the space velocity range of 7,000 to 100,000 hr-1. The stream was first fed through a non-thermal plasma that was formed in a coaxial cylinder dielectric barrier discharge reactor. Plasma treated gas was then passed over a catalyst bed held at constant temperature in the range of 573 to 773 K. Catalysts examined consisted of g-alumina, In/g-alumina, and Ag/g-alumina. Road and rated load conditions resulted in engine out NOx levels of 250 ? 600 ppm. The effects of hydrocarbon level, catalyst temperature, and space velocity are discussed where propene and in one case ultra-low sulfur diesel fuel (late cycle injection) were the reducing agents used for NOx reduction. Results showed NOx reduction in the range of 25 ? 97% depending on engine operating conditions and management of the catalyst and slipstream conditions.
Revised: August 17, 2010 |
Published: January 1, 2003
Citation
Aardahl C.L., K.G. Rappe, P.W. Park, C.S. Ragle, C.L. Boyer, and S. Faulkner. 2003.Steady-State Engine Testing of gamma-Alumina Catalysts Under Plasma Assist for NOx Control in Heavy-Duty Diesel Exhaust. In Lean Engine NOx Control: SAE World Congress, SAE SP 1759, 121-128, Paper No. 2003-01-1186. Warrendale, Pennsylvania:Society of Automotive Engineers.PNNL-SA-37494.