Statistical analysis of engine system-level factors for palm biodiesel fuelled diesel engine responses
Statistical analysis of engine system-level factors for palm biodiesel fuelled diesel engine responses
In this study, a 0D/1D gas dynamics numerical model of a single-cylinder, 4-stroke diesel engine is used to simulate entire engine cycle from air intake to exhaust product. The engine model is successfully validated against experimental data of both palm biodiesel and fossil diesel for pertinent combustion parameters such as pressure trace, rate of heat release and ignition delay period. This allows rapid system-level thermodynamics simulation of the entire engine. From it, 2000 cases generated from a combination of 13 engine parameters from within the combustion chamber, fuel injector and engine gas flow path, each with four levels were simulated and statistically analysed. Statistically significant independent main effects for outputs such as NOx, soot, brake specific fuel consumption and indicated power were identified using analysis of variance. Eight predictor equations to correlate the engine parameters to the outputs for both palm biodiesel and diesel were also formulated. In all, this study demonstrated the use of a validated simulation model for large parametric studies of engine parameters through the use of statistical analysis. The outcomes of this study can help in the design and optimisation of biodiesel fuelled diesel engines.
99-104
Ng, Jo-Han
4c9c51bd-1cfc-46c0-b519-23b77566fe50
Khor, Jing Huey
ba44a0bc-27f9-45f5-9332-297a2d8469ac
Wong, Kang Yao
7bbce6ab-89b5-4b6c-ab92-d853735a505b
Rajoo, Srithar
996afb3d-e970-43c7-affe-855203d50437
Chong, Cheng Tung
94e5dbc6-2c37-4d23-b200-dd1080174deb
28 August 2015
Ng, Jo-Han
4c9c51bd-1cfc-46c0-b519-23b77566fe50
Khor, Jing Huey
ba44a0bc-27f9-45f5-9332-297a2d8469ac
Wong, Kang Yao
7bbce6ab-89b5-4b6c-ab92-d853735a505b
Rajoo, Srithar
996afb3d-e970-43c7-affe-855203d50437
Chong, Cheng Tung
94e5dbc6-2c37-4d23-b200-dd1080174deb
Ng, Jo-Han, Khor, Jing Huey, Wong, Kang Yao, Rajoo, Srithar and Chong, Cheng Tung
(2015)
Statistical analysis of engine system-level factors for palm biodiesel fuelled diesel engine responses.
Energy Procedia, 75, .
(doi:10.1016/j.egypro.2015.07.147).
Abstract
In this study, a 0D/1D gas dynamics numerical model of a single-cylinder, 4-stroke diesel engine is used to simulate entire engine cycle from air intake to exhaust product. The engine model is successfully validated against experimental data of both palm biodiesel and fossil diesel for pertinent combustion parameters such as pressure trace, rate of heat release and ignition delay period. This allows rapid system-level thermodynamics simulation of the entire engine. From it, 2000 cases generated from a combination of 13 engine parameters from within the combustion chamber, fuel injector and engine gas flow path, each with four levels were simulated and statistically analysed. Statistically significant independent main effects for outputs such as NOx, soot, brake specific fuel consumption and indicated power were identified using analysis of variance. Eight predictor equations to correlate the engine parameters to the outputs for both palm biodiesel and diesel were also formulated. In all, this study demonstrated the use of a validated simulation model for large parametric studies of engine parameters through the use of statistical analysis. The outcomes of this study can help in the design and optimisation of biodiesel fuelled diesel engines.
This record has no associated files available for download.
More information
Published date: 28 August 2015
Identifiers
Local EPrints ID: 417182
URI: http://eprints.soton.ac.uk/id/eprint/417182
ISSN: 1876-6102
PURE UUID: 782e1594-201d-4a3e-9a4d-62cfefaaade6
Catalogue record
Date deposited: 24 Jan 2018 17:30
Last modified: 15 Mar 2024 18:04
Export record
Altmetrics
Contributors
Author:
Jing Huey Khor
Author:
Kang Yao Wong
Author:
Srithar Rajoo
Author:
Cheng Tung Chong
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics