Knock modeling: an integrated tool for detailed chemistry and engine cycle simulation
(2003) SAE Powertrain & Fluid Systems Conference & Exhibition, 2003- Abstract
- For the simultaneous evaluation of the influence on engine knock of both chemical conditions and global operating parameters, a combined tool was developed. Thus, a two-zone kinetic model for SI engine combustion calculation (Ignition) was implemented into an engine cycle simulation commercial code. The combined model predictions are compared with experimental data from a single-cylinder test engine. This shows that the model can accurately predict the knock onset and in-cylinder pressure and temperature for different lambda conditions, with and without EGR. The influence of nitric oxide amount from residual gas in relation with knock is further investigated. The created numerical tool represents a useful support for experimental... (More)
- For the simultaneous evaluation of the influence on engine knock of both chemical conditions and global operating parameters, a combined tool was developed. Thus, a two-zone kinetic model for SI engine combustion calculation (Ignition) was implemented into an engine cycle simulation commercial code. The combined model predictions are compared with experimental data from a single-cylinder test engine. This shows that the model can accurately predict the knock onset and in-cylinder pressure and temperature for different lambda conditions, with and without EGR. The influence of nitric oxide amount from residual gas in relation with knock is further investigated. The created numerical tool represents a useful support for experimental measurements, reducing the number of tests required to assess the proper engine control strategies. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/593909
- author
- Gogan, Adina LU ; Sundén, Bengt LU ; Montorsi, L. ; Ahmed, S.S. and Mauss, Fabian LU
- organization
- publishing date
- 2003
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- host publication
- Spark Ignition and Compression Ignition Engines Modeling
- conference name
- SAE Powertrain & Fluid Systems Conference & Exhibition, 2003
- conference location
- Pittsburgh, PA, United States
- conference dates
- 2003-10-27 - 2003-10-30
- external identifiers
-
- scopus:85072444178
- ISBN
- 978-0-7680-1321-4
- language
- English
- LU publication?
- yes
- additional info
- SAE 2003-01-3122
- id
- ad2491cd-7026-4173-93fd-c54b830f8ef0 (old id 593909)
- date added to LUP
- 2016-04-04 13:07:29
- date last changed
- 2022-03-16 01:07:20
@inproceedings{ad2491cd-7026-4173-93fd-c54b830f8ef0, abstract = {{For the simultaneous evaluation of the influence on engine knock of both chemical conditions and global operating parameters, a combined tool was developed. Thus, a two-zone kinetic model for SI engine combustion calculation (Ignition) was implemented into an engine cycle simulation commercial code. The combined model predictions are compared with experimental data from a single-cylinder test engine. This shows that the model can accurately predict the knock onset and in-cylinder pressure and temperature for different lambda conditions, with and without EGR. The influence of nitric oxide amount from residual gas in relation with knock is further investigated. The created numerical tool represents a useful support for experimental measurements, reducing the number of tests required to assess the proper engine control strategies.}}, author = {{Gogan, Adina and Sundén, Bengt and Montorsi, L. and Ahmed, S.S. and Mauss, Fabian}}, booktitle = {{Spark Ignition and Compression Ignition Engines Modeling}}, isbn = {{978-0-7680-1321-4}}, language = {{eng}}, title = {{Knock modeling: an integrated tool for detailed chemistry and engine cycle simulation}}, year = {{2003}}, }