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Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends

The scarcity of fossil fuels had greatly prompted a thorough search for alternative renewable resources. Diesel fuel made of petroleum could be replaced with biodiesel, an alternative energy source. One of the main constituents in biodiesel fuels is esters which are made of vegetable or animal fats....

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Main Author: Ong, Guan Kai
Format: Monograph
Language:English
Published: Universiti Sains Malaysia 2022
Subjects:
T Technology
TJ Mechanical engineering and machinery
Online Access:http://eprints.usm.my/55585/1/Effects%20Of%20Air%20Inlet%20Angle%20On%20The%20Combustion%20And%20Emission%20Characteristics%20Of%20A%20Cylindrical%20Chamber%20Fueled%20With%20Waste%20Cooking%20Oil%20Blends_Ong%20Guan%20Kai.pdf
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spelling my.usm.eprints.55585 http://eprints.usm.my/55585/ Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends Ong, Guan Kai T Technology TJ Mechanical engineering and machinery The scarcity of fossil fuels had greatly prompted a thorough search for alternative renewable resources. Diesel fuel made of petroleum could be replaced with biodiesel, an alternative energy source. One of the main constituents in biodiesel fuels is esters which are made of vegetable or animal fats. They are regarded as effective, healthy, and natural energy alternatives for fossil fuels. However, vegetable oil or waste cooking oil (WCO) is less combustible and possess higher viscosity compared with pure diesel. Larger droplets are generally produced due to the poor atomization quality. These droplets will burn slowly because of the shorter ignition delay. In addition, poor atomization characteristics of WCO will lead to poor air-fuel mixing. The poor air-fuel mixing results in bad performance of combustion and emission. Therefore, swirl motion is introduced to improve air-fuel mixing by creating an intense turbulent recirculation zone. The inlet angle affects the air motion inside the combustion chamber. A cylindrical combustion chamber with two tangential air inlets were created. The effects of air swirling with tangential air inlet angles of 0°, 10°, 20°, 30° and 45° were investigated using Ansys Fluent with a model of species transport. The mass flow rate of air and fuel are the same for all models to compare the effects of swirl motion better. The temperature and velocity profiles as well as the mass fraction of O2, CO2 and pollutant NO are comprehensively evaluated. Over the range of tangential air inlet angles examined, the optimal angle was discovered to be 45°. The combustion chamber with tangential angle of 45° emitted the least pollutants of NO. Furthermore, it was also found that kerosene is slightly better than WCO fuel in terms of combustion and emissions characteristics. The viscosity and cetane number of kerosene is lower than that of WCO fuel so that it is comparatively poor in atomization and vaporization characteristics. This phenomenon has resulted in lower emissions of CO2 and pollutant NO. However, WCO fuel can be an alternative resource of energy as it is renewable and biodegradable. It also has similar combustion performance with the conventional fuel. Universiti Sains Malaysia 2022-07-24 Monograph NonPeerReviewed application/pdf en http://eprints.usm.my/55585/1/Effects%20Of%20Air%20Inlet%20Angle%20On%20The%20Combustion%20And%20Emission%20Characteristics%20Of%20A%20Cylindrical%20Chamber%20Fueled%20With%20Waste%20Cooking%20Oil%20Blends_Ong%20Guan%20Kai.pdf Ong, Guan Kai (2022) Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends. Project Report. Universiti Sains Malaysia, Pusat Pengajian Kejuruteraan Mekanikal. (Submitted)
institution Universiti Sains Malaysia
building Hamzah Sendut Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Sains Malaysia
content_source USM Institutional Repository
url_provider http://eprints.usm.my/
language English
topic T Technology
TJ Mechanical engineering and machinery
spellingShingle T Technology
TJ Mechanical engineering and machinery
Ong, Guan Kai
Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends
description The scarcity of fossil fuels had greatly prompted a thorough search for alternative renewable resources. Diesel fuel made of petroleum could be replaced with biodiesel, an alternative energy source. One of the main constituents in biodiesel fuels is esters which are made of vegetable or animal fats. They are regarded as effective, healthy, and natural energy alternatives for fossil fuels. However, vegetable oil or waste cooking oil (WCO) is less combustible and possess higher viscosity compared with pure diesel. Larger droplets are generally produced due to the poor atomization quality. These droplets will burn slowly because of the shorter ignition delay. In addition, poor atomization characteristics of WCO will lead to poor air-fuel mixing. The poor air-fuel mixing results in bad performance of combustion and emission. Therefore, swirl motion is introduced to improve air-fuel mixing by creating an intense turbulent recirculation zone. The inlet angle affects the air motion inside the combustion chamber. A cylindrical combustion chamber with two tangential air inlets were created. The effects of air swirling with tangential air inlet angles of 0°, 10°, 20°, 30° and 45° were investigated using Ansys Fluent with a model of species transport. The mass flow rate of air and fuel are the same for all models to compare the effects of swirl motion better. The temperature and velocity profiles as well as the mass fraction of O2, CO2 and pollutant NO are comprehensively evaluated. Over the range of tangential air inlet angles examined, the optimal angle was discovered to be 45°. The combustion chamber with tangential angle of 45° emitted the least pollutants of NO. Furthermore, it was also found that kerosene is slightly better than WCO fuel in terms of combustion and emissions characteristics. The viscosity and cetane number of kerosene is lower than that of WCO fuel so that it is comparatively poor in atomization and vaporization characteristics. This phenomenon has resulted in lower emissions of CO2 and pollutant NO. However, WCO fuel can be an alternative resource of energy as it is renewable and biodegradable. It also has similar combustion performance with the conventional fuel.
format Monograph
author Ong, Guan Kai
author_facet Ong, Guan Kai
author_sort Ong, Guan Kai
title Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends
title_short Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends
title_full Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends
title_fullStr Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends
title_full_unstemmed Effects Of Air Inlet Angle On The Combustion And Emission Characteristics Of A Cylindrical Chamber Fueled With Waste Cooking Oil Blends
title_sort effects of air inlet angle on the combustion and emission characteristics of a cylindrical chamber fueled with waste cooking oil blends
publisher Universiti Sains Malaysia
publishDate 2022
url http://eprints.usm.my/55585/1/Effects%20Of%20Air%20Inlet%20Angle%20On%20The%20Combustion%20And%20Emission%20Characteristics%20Of%20A%20Cylindrical%20Chamber%20Fueled%20With%20Waste%20Cooking%20Oil%20Blends_Ong%20Guan%20Kai.pdf
http://eprints.usm.my/55585/
_version_ 1751537246525194240
score 13.211869

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