Presentation is loading. Please wait.

Presentation is loading. Please wait.

EGEE 520 A 2-D Diesel Particulate Filter Regeneration Model Yu Zhang.

Published byJoseph Powell Modified over 8 years ago

Similar presentations

Presentation on theme: "EGEE 520 A 2-D Diesel Particulate Filter Regeneration Model Yu Zhang."— Presentation transcript:

1 EGEE 520 A 2-D Diesel Particulate Filter Regeneration Model Yu Zhang

2 EGEE 520 Introduction Diesel particulate filter (DPF) collects diesel particulate (mainly soot) emissions. A soot layer is formed over a porous wall and removed by combustion (This soot layer removing process is referred as regeneration) A 2-D time-dependent model for the cross-section of a filter channel is formed to get a better understanding of the DPF regeneration process symmetry Soot layer Porous wall Inlet channel outlet channel

3 EGEE 520 Governing Equations Momentum Balances Navier-Stokes equation: ( in open channel) Brinkman equation: (soot layer and porous wall) Mass Balance Maxwell-Stefan diffusion and convection Energy Balance

4 EGEE 520 Governing Equations Chemical reactions Reaction rate Heat source

5 EGEE 520 Model Formulation Plug

6 EGEE 520 Solution  T distribution at 200s and 500s  P distribution at 0s and 500s

7 EGEE 520 Solution  Soot layer thickness distribution

8 EGEE 520 Validation  Exhaust back pressure comparison  Soot layer thickness distribution without considering chemical reactions Calculated Literature

9 EGEE 520 Parametric Study T=350K T=400K T=420K

10 EGEE 520 Conclusion Soot layer thickness distribution is non-uniform due to the non-uniform temperature distribution along the filter channel Soot layer thickness is sensitive to the exhaust temperature. As exhaust temperature increases, the soot layer thickness decreases significantly

Download ppt "EGEE 520 A 2-D Diesel Particulate Filter Regeneration Model Yu Zhang."

Similar presentations

Selective Catalytic Reduction (SCR) by NH 3 in a Fixed-Bed Reactor HEE JE SEONG The Department of Energy and Geo-Environmental Engineering The Pennsylvania.

Selective Catalytic Reduction (SCR) by NH 3 in a Fixed-Bed Reactor HEE JE SEONG The Department of Energy and Geo-Environmental Engineering The Pennsylvania.
CSI661/ASTR530 Spring, 2009 Chap. 3 Equations of State Feb. 25, 2009 Jie Zhang Copyright ©

CSI661/ASTR530 Spring, 2009 Chap. 3 Equations of State Feb. 25, 2009 Jie Zhang Copyright ©
Hongjie Zhang Purge gas flow impact on tritium permeation Integrated simulation on tritium permeation in the solid breeder unit FNST, August 18-20, 2009.

Hongjie Zhang Purge gas flow impact on tritium permeation Integrated simulation on tritium permeation in the solid breeder unit FNST, August 18-20, 2009.
Alternative Fuel Spray Length Characterization: Comparing Diesel and Biodiesel Fuels Thomas McGuire EGEE 520 Section 001.

Alternative Fuel Spray Length Characterization: Comparing Diesel and Biodiesel Fuels Thomas McGuire EGEE 520 Section 001.
Adsorptive Desulfurization of Liquid Hydrocarbons: Langmuir Adsorption modeling using COMSOL Ram EGEE 520 Spring 2007.

Adsorptive Desulfurization of Liquid Hydrocarbons: Langmuir Adsorption modeling using COMSOL Ram EGEE 520 Spring 2007.
Convective heat transfer from a spherical particle suspended in air EGEE 520 Term Project Nari Soundarrajan.

Convective heat transfer from a spherical particle suspended in air EGEE 520 Term Project Nari Soundarrajan.
Carbon Deposition in Heterogeneous Catalysis

Carbon Deposition in Heterogeneous Catalysis
© 2014 Carl Lund, all rights reserved A First Course on Kinetics and Reaction Engineering Class 11.

© 2014 Carl Lund, all rights reserved A First Course on Kinetics and Reaction Engineering Class 11.
An Analysis of Hiemenz Flow E. Kaufman and E. Gutierrez-Miravete Department of Engineering and Science Rensselaer at Hartford.

An Analysis of Hiemenz Flow E. Kaufman and E. Gutierrez-Miravete Department of Engineering and Science Rensselaer at Hartford.
Combusting and Gasification Using Discrete Phase Method Combustion Through a Chamber.

Combusting and Gasification Using Discrete Phase Method Combustion Through a Chamber.
Heat transfer in boilers

Heat transfer in boilers
Eurocode 1: Actions on structures – Part 1–2: General actions – Actions on structures exposed to fire Part of the One Stop Shop program Annex B (informative)

Eurocode 1: Actions on structures – Part 1–2: General actions – Actions on structures exposed to fire Part of the One Stop Shop program Annex B (informative)
Reducing harmful emissions while protecting Fleet Investment.

Reducing harmful emissions while protecting Fleet Investment.
Computational Fluid Dynamics (CFD) Study on the Influence of Airflow Patterns on Carbon Dioxide Distribution and Emission Rate in a Scaled Livestock Building.

Computational Fluid Dynamics (CFD) Study on the Influence of Airflow Patterns on Carbon Dioxide Distribution and Emission Rate in a Scaled Livestock Building.
Model: 3D Piston. Diesel Engine Piston Studies the deformation and distribution of stresses in a suggested design at steady-state conditions Applied piston.

Model: 3D Piston. Diesel Engine Piston Studies the deformation and distribution of stresses in a suggested design at steady-state conditions Applied piston.
2010 Diesel Emission Reduction Consortium Experimental Studies of Exhaust Chemistry and Aftertreatment Professor Thatcher Root Department of Chemical and.

2010 Diesel Emission Reduction Consortium Experimental Studies of Exhaust Chemistry and Aftertreatment Professor Thatcher Root Department of Chemical and.
ME 475/675 Introduction to Combustion Lecture 8. Announcements.

ME 475/675 Introduction to Combustion Lecture 8. Announcements.
Micro Electronics Processing Lab Wet and Dry Oxide Growth Team 1B Sudipta Bera Matthew Berg Cooper Swenson Glenda Anderson Dana Olson.

Micro Electronics Processing Lab Wet and Dry Oxide Growth Team 1B Sudipta Bera Matthew Berg Cooper Swenson Glenda Anderson Dana Olson.
University of South Carolina FCR Laboratory Dept. of Chemical Engineering By W. K. Lee, S. Shimpalee, J. Glandt and J. W. Van Zee Fuel Cell Research Laboratory.

University of South Carolina FCR Laboratory Dept. of Chemical Engineering By W. K. Lee, S. Shimpalee, J. Glandt and J. W. Van Zee Fuel Cell Research Laboratory.
ME 475/675 Introduction to Combustion

ME 475/675 Introduction to Combustion

Similar presentations

Ads by Google