The effects of cycle-to-cycle variations on nitric oxide (NO) emissions for a spark-ignition engine: Numerical results

Villarroel, Milivoy

15 November 2004

The objectives of this study were to 1) determine the effects of cycle-to-cycle variations (ccv) on nitric oxide (NO) emissions, and 2) determine if the consideration of ccv affects the average NO emission as compared to the mean cycle NO emission. To carry out the proposed study, an engine simulation model was used. The simulation determines engine performance and NO emissions as functions of engine operating conditions, engine design parameters, and combustion parameters. An automotive, spark-ignition engine at part load and 1400 rpm was examined in this study. The engine cycle simulation employed three zones for the combustion process: (1) unburned gas, (2) adiabatic core region, and (3) boundary-layer gas. The use of the adiabatic core region has been shown to be especially necessary to capture the production of nitric oxides which are highly temperature dependent. Past research has shown that cyclic variations in combustion cause ccv of burn duration, ignition delay and equivalence ratio. Furthermore, literature has shown that variations of these three input parameters may be approximated by a normal frequency distribution. Using the mean and standard deviation, and a random number generator, input values were tabulated for the ignition delay, burn duration and equivalence ratio. These three input parameters were then used to simulate cyclic variations in the combustion process. Calculated results show that cyclic variations of the input parameters cause the cycle-by-cycle NO emissions to increase and decrease by as much as 59% from the mean cycle NO of 3,247 ppm. The average NO emission resulting from ccv was 4.9% less than the mean cycle NO emission. This result indicates that cyclic variations must be considered when calculating the overall NO emissions.

NO

nitric oxide

cyclic variations

combustion

emission

Embryogenèse pollinique chez l'orge (Hordeum vulgare L.) : importance du prétraitement

Jacquard, Cédric Clément, Christophe

January 2007

Reproduction de : Thèse doctorat : Biologie et physiologie végétales : Reims : 2007. / Titre provenant de l'écran titre. Bibliogr. p. 106-139.

Investigation of cosmic ray intensity variation at primary rigidity above 1.7 TV /

Lee, Yiu-wa.

January 1986

Thesis (M. Phil.)--University of Hong Kong, 1987.

Regularity of free boundary in variational problems

Teixeira, Eduardo Vasconcelos Oliveira

28 August 2008

Not available / text

Boundary value problems

Calculus of variations

Mathematical optimization

Seasonal variation in cause-specific sexually transmitted disease morbidity in Hong Kong (1998-2001): are thereany long holiday effects on the morbidity due to Neisseriagonorrhoeae?

方月平, Fong, Yuet-ping.

January 2002

published_or_final_version / Medical Sciences / Master / Master of Medical Sciences

Tests for seasonal differencing with a break-point

伍子文, Ng, Tze-man.

January 1993

published_or_final_version / Statistics / Master / Master of Philosophy

Seasonal variations (Economics)

Time-series analysis.

GEODESIC FIELDS IN THE CALCULUS-OF-VARIATIONS FOR MULTIPLE-INTEGRALS

Armsen, Gerhard Eduard Moritz, 1947-

January 1973

No description available.

Lagrange equations.

Calculus of variations.

Multiple integrals.

Test Chip Design for Process Variation Characterization in 3D Integrated Circuits

O'Sullivan, Conor

January 2013

A test chip design is presented for the characterization of process variations and Through Silicon Via (TSV) induced mechanical stress in 3D integrated circuits. The chip was de- signed, layed-out, and taped-out for fabrication in a 130nm Tezzaron/GlobalFoundries process through CMC microsystems. The test chip takes advantage of the architecture of 3D ICs to split its test structure onto the two tiers of the 3D IC, achieving a device array density of 40.94 m2 per device. The design also has a high spatial resolution and measurement delity compared to similar 2D variation characterization test structures. Background leakage subtraction and radial ltering are two techniques that are ap- plied to the chip's measurements to reduce its error further for subthreshold device current measurements and stress-induced mobility measurements, respectively. Experimental mea- surements are be taken from the chip using a custom PCB measurement setup once the chip has returned from fabrication.

3D

TSV

process variations

Electrical and Computer Engineering

A seasonal goods inventory model with price-cutting

Palmer, Allyn Jon

12 1900

No description available.

Inventory control Mathematical models

Seasonal variations (Economics)

Modal Analysis of Deepwater Mooring Lines Based on a Variational Formulation

Martinez Farfan, Jose Alberto

03 October 2013

Previous work on modal analysis of mooring lines has been performed from different theoretical formulations. Most studies have focused on mooring lines of a single homogeneous material, and the effect of added mass and damping produced by the water has not been examined deeply. The variational formulation approach, employed in this research to perform a modal analysis, has been useful to study the behavior of several realistic mooring lines. The cases presented are composed from segments of materials with different mechanical characteristics, more similar to those in current offshore projects. In the newly proposed formulation, damping produced by transverse motion of the mooring line through the surrounding water has been added to the modal analysis. The modal analysis formulation applied in this work has been verified with calculations from commercial software and the results are sufficiently accurate to understand the global behavior of the dynamics of mooring lines with the damping produced by the sea water. Inclusion of linearized drag damping in the modal analysis showed that the modal periods of the mooring systems studied depend on the amplitude of the transverse motion of the mooring line. When more amplitude in the motion is expected more damping is obtained. Two realistic designs of mooring lines were compared: one made up with a main insert of steel rope, called “Steel System”, and one composed by a main insert of polyester, named “Polyester System”. Comparing the natural periods of both systems, the Steel System appears to be safer because its fundamental natural period is more distant from the wave excitation periods produced by storms. The same happens considering the wave excitation periods produced by prevailing seas. In this case the natural periods of the Polyester System are nearer to the wave excitation periods causing fatigue loads. The transverse mode shapes for lateral motions of the mooring lines are observed to be continuous and smooth across material transitions, such as transitions between chain and wire rope and transitions between chain and polyester rope. This behavior is not always observed in the tangential mode shapes for the Polyester System where significant differences in dynamic tension seem to be present in the specific cases studied.

Mooring line

Calculus of variations

Modal analysis

Damping