Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing

affecting the combustion performance and emissions of the internal mixing air-assisted atomizers. Air-assisted atomizers are introduced to counter the low-pressure differential of a simplex nozzle, which reduces the atomization quality. The present study aims to determine the effects of Multi Circul...

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Main Authors: Kamaruddin, Ridzwan, Sulaiman, Syabillah, Khalid, Amir, Mohammad Arafat, Mohammad Arafat, Jaat, Norrizam, Zainal Abidin, Shaiful Fadzil, Mohamed, Norirda, Yasak, Mohd Fuad
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Language:English
Published: semarak ilmu 2024
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Online Access:http://eprints.uthm.edu.my/10902/1/J17341_917900f2f5ace74d4acb9ad2612a32bd.pdf
http://eprints.uthm.edu.my/10902/
https://doi.org/10.37934/cfdl.16.1.121137
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spelling my.uthm.eprints.109022024-05-12T03:22:58Z http://eprints.uthm.edu.my/10902/ Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing Kamaruddin, Ridzwan Sulaiman, Syabillah Khalid, Amir Mohammad Arafat, Mohammad Arafat Jaat, Norrizam Zainal Abidin, Shaiful Fadzil Mohamed, Norirda Yasak, Mohd Fuad TJ170-179 Mechanics applied to machinery. Dynamics affecting the combustion performance and emissions of the internal mixing air-assisted atomizers. Air-assisted atomizers are introduced to counter the low-pressure differential of a simplex nozzle, which reduces the atomization quality. The present study aims to determine the effects of Multi Circular Jet (MCJ) plates on the geometrical configurations of internal flows in mixing chamber and the internal flow of plate 3 using different properties of fuel. In this study, the realizable k-ε turbulence model, specifically designed for strongly swirling flows, is validated through numerical simulations. The turbulence model selected is a type of Reynolds averaged NavierStokes (RANS) model called the k-ε model. The MCJ plates provide the primary air entrance into the mixing chamber. Additionally, it acts as a turbulence generator and can be adjusted to alter the flow of fuel and air mixtures in a mixing chamber. The study compares several MCJ geometries in terms of pressure, speed, turbulent kinetic energy, and volume fraction and compares the performances of diesel and Crude Palm Oil (CPO) B30 biodiesel fuels. The findings imply that CPO B30 biodiesel has superior atomization and mixing due to its higher density and turbulent kinetic energy. CPO B30 biodiesel was compared to Diesel in terms of maximum pressure, average speed, turbulent kinetic energy per unit mass, and volume fraction. The results indicate that CPO B30 has lower pressure and higher velocity than Diesel, suggesting better fuel atomization and mixing. The higher density of CPO B30 leads to increased turbulent kinetic energy, improving fuel-air mixing inside the combustion chamber. The study demonstrates that the use of MCJ plates can enhance mixing in a mixing chamber. In addition, MCJ plates show the ability to control the spray and atomization. The findings of this study contribute to a better understanding of the relationships between geometry and fuel-air mixing, as well as the characteristics of the internal mixing airassisted atomizer, which will lead to future burner system improvements. semarak ilmu 2024 Article PeerReviewed text en http://eprints.uthm.edu.my/10902/1/J17341_917900f2f5ace74d4acb9ad2612a32bd.pdf Kamaruddin, Ridzwan and Sulaiman, Syabillah and Khalid, Amir and Mohammad Arafat, Mohammad Arafat and Jaat, Norrizam and Zainal Abidin, Shaiful Fadzil and Mohamed, Norirda and Yasak, Mohd Fuad (2024) Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing. CFD Letters, 16 (1). pp. 121-137. ISSN 2180-1363 https://doi.org/10.37934/cfdl.16.1.121137
institution Universiti Tun Hussein Onn Malaysia
building UTHM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tun Hussein Onn Malaysia
content_source UTHM Institutional Repository
url_provider http://eprints.uthm.edu.my/
language English
topic TJ170-179 Mechanics applied to machinery. Dynamics
spellingShingle TJ170-179 Mechanics applied to machinery. Dynamics
Kamaruddin, Ridzwan
Sulaiman, Syabillah
Khalid, Amir
Mohammad Arafat, Mohammad Arafat
Jaat, Norrizam
Zainal Abidin, Shaiful Fadzil
Mohamed, Norirda
Yasak, Mohd Fuad
Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing
description affecting the combustion performance and emissions of the internal mixing air-assisted atomizers. Air-assisted atomizers are introduced to counter the low-pressure differential of a simplex nozzle, which reduces the atomization quality. The present study aims to determine the effects of Multi Circular Jet (MCJ) plates on the geometrical configurations of internal flows in mixing chamber and the internal flow of plate 3 using different properties of fuel. In this study, the realizable k-ε turbulence model, specifically designed for strongly swirling flows, is validated through numerical simulations. The turbulence model selected is a type of Reynolds averaged NavierStokes (RANS) model called the k-ε model. The MCJ plates provide the primary air entrance into the mixing chamber. Additionally, it acts as a turbulence generator and can be adjusted to alter the flow of fuel and air mixtures in a mixing chamber. The study compares several MCJ geometries in terms of pressure, speed, turbulent kinetic energy, and volume fraction and compares the performances of diesel and Crude Palm Oil (CPO) B30 biodiesel fuels. The findings imply that CPO B30 biodiesel has superior atomization and mixing due to its higher density and turbulent kinetic energy. CPO B30 biodiesel was compared to Diesel in terms of maximum pressure, average speed, turbulent kinetic energy per unit mass, and volume fraction. The results indicate that CPO B30 has lower pressure and higher velocity than Diesel, suggesting better fuel atomization and mixing. The higher density of CPO B30 leads to increased turbulent kinetic energy, improving fuel-air mixing inside the combustion chamber. The study demonstrates that the use of MCJ plates can enhance mixing in a mixing chamber. In addition, MCJ plates show the ability to control the spray and atomization. The findings of this study contribute to a better understanding of the relationships between geometry and fuel-air mixing, as well as the characteristics of the internal mixing airassisted atomizer, which will lead to future burner system improvements.
format Article
author Kamaruddin, Ridzwan
Sulaiman, Syabillah
Khalid, Amir
Mohammad Arafat, Mohammad Arafat
Jaat, Norrizam
Zainal Abidin, Shaiful Fadzil
Mohamed, Norirda
Yasak, Mohd Fuad
author_facet Kamaruddin, Ridzwan
Sulaiman, Syabillah
Khalid, Amir
Mohammad Arafat, Mohammad Arafat
Jaat, Norrizam
Zainal Abidin, Shaiful Fadzil
Mohamed, Norirda
Yasak, Mohd Fuad
author_sort Kamaruddin, Ridzwan
title Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing
title_short Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing
title_full Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing
title_fullStr Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing
title_full_unstemmed Computational Fluid Dynamics: Flow Analysis on the Effect of Different Jet Orifice Angle Multi Circular Jet for Fuel and Air Mixing
title_sort computational fluid dynamics: flow analysis on the effect of different jet orifice angle multi circular jet for fuel and air mixing
publisher semarak ilmu
publishDate 2024
url http://eprints.uthm.edu.my/10902/1/J17341_917900f2f5ace74d4acb9ad2612a32bd.pdf
http://eprints.uthm.edu.my/10902/
https://doi.org/10.37934/cfdl.16.1.121137
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