Analysis Of Diesel And Rapeseed Methyl Ester Properties In Ceup Fuel Pipeline Using Frequency Dependent Damping Model

Qaisar Hayat; Fan Liyun; Song Enzhe; Xiuzhen Ma; Tian Bingqi; Naeim Farouk

doi:10.21307/ijssis-2017-667

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Analysis Of Diesel And Rapeseed Methyl Ester Properties In Ceup Fuel Pipeline Using Frequency Dependent Damping Model

International Journal on Smart Sensing and Intelligent Systems

Volume 7 (2022): Issue 2 (January 2022)

By: Qaisar Hayat, Fan Liyun, Song Enzhe, Xiuzhen Ma, Tian Bingqi and Naeim Farouk

Open Access

|Dec 2017

Abstract

During a fuel injection cycle pressure inside Combination Electronic Unit Pump (CEUP) fuel injection system varies from low (~50 bars) to very high (~1500 bars) in fractions of seconds depending on the operating conditions. Physical properties of fuel including density, acoustic wave speed and bulk modulus also vary as a function of rapidly varying fuel pressure. A detailed analysis of these key fuel properties with our improved frequency dependent model with viscous damping developed in MATLAB is presented for both diesel and biodiesel fuel Rapeseed Methyl Ester (RME). Quantitative analysis of developed model confirms that model predictions are quite realistic and accurate across range of operating conditions of diesel engine.

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Articles in this issue

DOI: https://doi.org/10.21307/ijssis-2017-667 | Journal eISSN: 1178-5608

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Language: English

Page range: 498 - 518

Submitted on: Feb 3, 2014

Accepted on: Jun 1, 2014

Published on: Dec 27, 2017

Published by: Macquarie University, Australia

In partnership with: Paradigm Publishing Services

Publication frequency: 1 issue per year

Keywords:

Density,

Acoustic wave speed,

Bulk modulus,

Frequency dependent damping,

Diesel,

Rapeseed Methyl Ester

Related subjects:

Engineering,

Introductions and overviews,

Engineering, other

© 2017 Qaisar Hayat, Fan Liyun, Song Enzhe, Xiuzhen Ma, Tian Bingqi, Naeim Farouk, published by Macquarie University, Australia
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Volume 7 (2022): Issue 2 (January 2022)