Browse Publications Technical Papers 710290
1971-02-01

HC/CO Oxidation Catalysts for Vehicle Exhaust Emission Control 710290

Hydrocarbon and carbon monoxide oxidation catalysts having good catalytic activity, stability and improved physical durability were developed. Based on laboratory tests, these catalysts are predicted to be able to meet the Inter-Industry Emission Control Program HC and CO emission levels, and the durability goals, in vehicles in which HC, CO and NOx goals are achieved simultaneously. However, confirming vehicle tests must be made to validate these predictions.
The development of these catalysts has been aided by a mathematical model of the catalytic converter, and by some unique experimental techniques. These tools have been used to guide the development, and to evaluate the catalytic activity, the chemical stability, and the physical durability of the catalysts in laboratory tests.
These laboratory tests were complemented by several vehicle durability evaluations which have shown that although the IIEC goals were met initially, they were often exceeded after mileage accumulation. The principal causes for not meeting the goals have been catalyst loss due to inherently low catalyst attrition resistance and inter-particle abrasion caused by inadequate converter design. Improved converter designs and more attrition resistant catalysts have resulted in significant improvements in “on the road” durability of these systems.
Laboratory tests predict that some of these catalysts will meet IIEC HC and CO goals for more than 12,000 miles with leaded fuel (3.0 grms Pb/gal) and that a larger number will meet these goals for 50,000 miles with low leaded fuel (0.5 grms Pb/gal) or unleaded fuel. Although most vehicle testing is being done with unleaded fuel in order that acceptable converter and catalyst durability can be demonstrated, the ultimate economic choice for the optimized vehicle-fuel-system has not yet been made.

SAE MOBILUS

Subscribers can view annotate, and download all of SAE's content. Learn More »

Access SAE MOBILUS »

Preview Document Add to Cart
Members save up to 16% off list price.
Login to see discount.
Special Offer: Download multiple Technical Papers each year? TechSelect is a cost-effective subscription option to select and download 12-100 full-text Technical Papers per year. Find more information here.
We also recommend:
TECHNICAL PAPER

A Systematic Experimental Investigation of Pd-Based Light-Off Catalysts

2005-01-3848

View Details

TECHNICAL PAPER

Numerical Modeling Study of Detailed Gas Diffusivity into Catalyst Washcoat for Lean NOx Catalyst

2019-01-0993

View Details

TECHNICAL PAPER

Flow Effects in Monolithic Honeycomb Automotive Catalytic Converters

740244

View Details

X