Development of a Variable Valve Actuation Control to Improve Diesel Oxidation Catalyst Efficiency and Emissions in a Light Duty Diesel Engine

Growing interest has arisen to adopt Variable Valve Timing (VVT) technology for automotive engines due to the need to fulfill the pollutant emission regulations. Several VVT strategies, such as the exhaust re-opening and the late exhaust closing, can be used to achieve an increment in the after-treatment upstream temperature by increasing the residual gas amount. In this study, a one-dimensional gas dynamics engine model has been used to simulate several VVT strategies and develop a control system to actuate over the valves timing in order to increase diesel oxidation catalyst efficiency and reduce the exhaust pollutant emissions. A transient operating conditions comparison, taking the Worldwide Harmonized Light-Duty Vehicles Test Cycle (WLTC) as a reference, has been done by analyzing fuel economy, HC and CO pollutant emissions levels. The results conclude that the combination of an early exhaust and a late intake valve events leads to a 20% reduction in CO emissions with a fuel penalty of 6% over the low speed stage of the WLTC, during the warm-up of the oxidation catalyst. The same set-up is able to reduce HC emissions down to 16% and NOx emission by 13%.

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Parametric Investigations on the Performance of Diesel Oxidation Catalyst in a Light Duty Diesel Engine - An Experimental and Modelling Study

10.4271/2019-26-0299 ◽

2019 ◽

Cited By ~ 1

Author(s):

S.Suresh Bagavathy ◽

A Ramesh ◽

Anand Krishnasamy ◽

Senthur Pandian

Keyword(s):

Diesel Engine ◽

Diesel Oxidation Catalyst ◽

Oxidation Catalyst ◽

Light Duty ◽

Diesel Oxidation ◽

Modelling Study

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The Effect of Pt:Pd Ratio on Light-Duty Diesel Oxidation Catalyst Performance: An Experimental and Modelling Study

SAE International Journal of Engines ◽

10.4271/2015-01-1053 ◽

2015 ◽

Vol 8 (3) ◽

pp. 1283-1299 ◽

Cited By ~ 14

Author(s):

Jonathan E. Etheridge ◽

Timothy C. Watling ◽

Andrew J. Izzard ◽

Michael A. J. Paterson

Keyword(s):

Diesel Oxidation Catalyst ◽

Oxidation Catalyst ◽

Light Duty ◽

Diesel Oxidation ◽

Modelling Study

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The effective density and fractal dimension of particles emitted from a light-duty diesel vehicle with a diesel oxidation catalyst

Journal of Aerosol Science ◽

10.1016/j.jaerosci.2006.10.002 ◽

2007 ◽

Vol 38 (1) ◽

pp. 69-82 ◽

Cited By ~ 129

Author(s):

J.S. Olfert ◽

J.P.R. Symonds ◽

N. Collings

Keyword(s):

Fractal Dimension ◽

Diesel Oxidation Catalyst ◽

Oxidation Catalyst ◽

Effective Density ◽

Light Duty ◽

Diesel Oxidation ◽

Dimension Of Particles ◽

Diesel Vehicle

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Deactivation of a diesel oxidation catalyst due to exhaust species from rich premixed compression ignition combustion in a light-duty diesel engine

International Journal of Engine Research ◽

10.1243/14680874jer01307 ◽

2007 ◽

Vol 8 (6) ◽

pp. 487-498 ◽

Cited By ~ 12

Author(s):

W F Northrop ◽

T J Jacobs ◽

D N Assanis ◽

S V Bohac

Keyword(s):

Diesel Engine ◽

Diesel Oxidation Catalyst ◽

Oxidation Catalyst ◽

Compression Ignition ◽

Light Duty ◽

Diesel Oxidation ◽

Compression Ignition Combustion

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A Study on Remanufacturing of Deactivated Commercial Diesel Oxidation Catalyst by CVS-75 mode in Light Duty Diesel Engine

Journal of Korean Powder Metallurgy Institute ◽

10.4150/kpmi.2011.18.6.517 ◽

2011 ◽

Vol 18 (6) ◽

pp. 517-525

Author(s):

Chang-Hee Lee ◽

Hea-Kyung Park

Keyword(s):

Diesel Engine ◽

Diesel Oxidation Catalyst ◽

Oxidation Catalyst ◽

Light Duty ◽

Diesel Oxidation

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An on-board method to estimate the light-off temperature of diesel oxidation catalysts

International Journal of Engine Research ◽

10.1177/1468087418817965 ◽

2018 ◽

Vol 21 (8) ◽

pp. 1480-1492 ◽

Cited By ~ 1

Author(s):

Carlos Guardiola ◽

Benjamin Pla ◽

Pau Bares ◽

Javier Mora

Keyword(s):

Time Window ◽

Diesel Oxidation Catalyst ◽

Operating Conditions ◽

Oxidation Catalyst ◽

Temperature Estimation ◽

Exhaust Temperature ◽

Diesel Oxidation Catalysts ◽

Diesel Oxidation ◽

Exhaust Line ◽

Two Temperature

Current diesel engine regulations include on-board diagnostic requirements so that after-treatment systems need on-board methods to detect their aging state through the available measurements. In a state-of-the-art diesel exhaust line, two temperature and [Formula: see text] measurements can be found upstream and downstream of the diesel oxidation catalyst. Thus, the strategy presented in this article makes use of these measurements to estimate the light-off temperature, which has been widely studied as a characteristic of diesel oxidation catalyst aging. The light-off temperature estimation potential is evaluated first under dynamic engine operating conditions, in which [Formula: see text] measurements are proved to be precise enough to detect oxidation. However, dynamic conditions make the association of a representative temperature with an oxidation event difficult. Therefore, the method makes use of more controlled conditions at idle, during which the exhaust temperature decreases avoiding dynamics of normal driving conditions. During the idle, post-injection pulses are applied to determine whether oxidation occurs at a representative temperature measured by the upstream temperature sensor. The result of each pulse is used to generate a database. Then, after a long enough time window, the database generated will allow characterizing non-oxidation and oxidation temperatures, with an intermediate interval of indefinition. This article shows how the temperatures of these ranges increase as the light-off temperature increases, thereby validating the proposed method for light-off temperature estimation.

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