Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market

The objective of this study is to investigate and compare the performance and emission characteristics of the liquefied petroleum gas (LPG)-fuelled engine generator and the conventional gasoline-fuelled engine generator. The approach involves converting a gasoline engine generator, commonly used in...

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Main Authors: Yusaf T.F., Said M.A., Hussein I.
Other Authors: 23112065900
Format: Article
Published: 2023
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Air
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spelling my.uniten.dspace-306752023-12-29T15:51:13Z Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market Yusaf T.F. Said M.A. Hussein I. 23112065900 34975797200 7006902818 Emission Gasoline Liquefied petroleum gas Night market Spark-ignition engine Air Air quality Alternative fuels Butane Carbon dioxide Carbon monoxide Combustion chambers Commerce Computational fluid dynamics Computer software Electric sparks Engines Gas emissions Gas industry Gasoline Hydrocarbons Leakage (fluid) Liquefied petroleum gas Mixers (machinery) Nitric oxide Nitrogen oxides A/F ratio Air flow Brake-specific fuel consumption Computational Fluid Dynamics software Constant speed Conventional gasoline Emission Emission concentration Emission test Engine generator Exhaust temperature Gasoline engines Gasoline fuels Generate electricity High load Higher loads Load range LPG engine LPG injection system Malaysians Performance and emissions Single-cylinder engines Spark ignition engines Venturi Engine cylinders The objective of this study is to investigate and compare the performance and emission characteristics of the liquefied petroleum gas (LPG)-fuelled engine generator and the conventional gasoline-fuelled engine generator. The approach involves converting a gasoline engine generator, commonly used in Malaysian night markets to generate electricity, to the LPG engine generator. A four-stroke SI single-cylinder engine is equipped with an LPG injection system with minor modifications and then tested with both LPG and gasoline fuels. A venturi mixer (carburettor) was designed and in house constructed and then installed to deliver a proper A/F ratio to the combustion chamber. The commercial computational fluid dynamics software FLUENT was used for simulation of air flow inside the mixer. The converted engine was tested at constant speed for its brake-specific fuel consumption (BSFC), efficiency, exhaust temperature, and exhaust gas emissions. The results show that the performance and emission characteristics of the LPG-fuelled engine are well suited for use in night markets. Average BSFC and average efficiency for the LPG engine over a range of loads were quite similar to those for the gasoline engine: the average BSFC was 0.95 kg/kWh for the LPG engine and 1 kg/kWh for the gasoline engine. The use of LPG as fuel in a gasoline engine causes only a slight reduction in efficiency as a 17 per cent reduction in average efficiency was recorded over the entire load range; however, the LPG engine fared better at higher loads than the gasoline engine for which only as low as a 4 per cent reduction was recorded at high loads. Emission tests seem to verify the minimal pollution products; there are significant reductions in the emission concentration results when LPG is used. Average decreases of 32 per cent for nitrogen oxide, 10 per cent for carbon dioxide, and 40 per cent for carbon monoxide were recorded. Although higher values of hydrocarbon (HC) were recorded, a 50 per cent reduction in HC was found for loads higher than 700 W. The study verified the more favourable features of LPG compared to gasoline as it is one of the best alternative fuels to gasoline for spark-ignition engine generators to solve the air pollution problem in night markets. � 2010 Authors. Final 2023-12-29T07:51:12Z 2023-12-29T07:51:12Z 2010 Article 10.1243/09576509JPE882 2-s2.0-77952682860 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77952682860&doi=10.1243%2f09576509JPE882&partnerID=40&md5=bb43e65b5d286dcad64f76e73f9d12c5 https://irepository.uniten.edu.my/handle/123456789/30675 224 3 339 347 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Emission
Gasoline
Liquefied petroleum gas
Night market
Spark-ignition engine
Air
Air quality
Alternative fuels
Butane
Carbon dioxide
Carbon monoxide
Combustion chambers
Commerce
Computational fluid dynamics
Computer software
Electric sparks
Engines
Gas emissions
Gas industry
Gasoline
Hydrocarbons
Leakage (fluid)
Liquefied petroleum gas
Mixers (machinery)
Nitric oxide
Nitrogen oxides
A/F ratio
Air flow
Brake-specific fuel consumption
Computational Fluid Dynamics software
Constant speed
Conventional gasoline
Emission
Emission concentration
Emission test
Engine generator
Exhaust temperature
Gasoline engines
Gasoline fuels
Generate electricity
High load
Higher loads
Load range
LPG engine
LPG injection system
Malaysians
Performance and emissions
Single-cylinder engines
Spark ignition engines
Venturi
Engine cylinders
spellingShingle Emission
Gasoline
Liquefied petroleum gas
Night market
Spark-ignition engine
Air
Air quality
Alternative fuels
Butane
Carbon dioxide
Carbon monoxide
Combustion chambers
Commerce
Computational fluid dynamics
Computer software
Electric sparks
Engines
Gas emissions
Gas industry
Gasoline
Hydrocarbons
Leakage (fluid)
Liquefied petroleum gas
Mixers (machinery)
Nitric oxide
Nitrogen oxides
A/F ratio
Air flow
Brake-specific fuel consumption
Computational Fluid Dynamics software
Constant speed
Conventional gasoline
Emission
Emission concentration
Emission test
Engine generator
Exhaust temperature
Gasoline engines
Gasoline fuels
Generate electricity
High load
Higher loads
Load range
LPG engine
LPG injection system
Malaysians
Performance and emissions
Single-cylinder engines
Spark ignition engines
Venturi
Engine cylinders
Yusaf T.F.
Said M.A.
Hussein I.
Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market
description The objective of this study is to investigate and compare the performance and emission characteristics of the liquefied petroleum gas (LPG)-fuelled engine generator and the conventional gasoline-fuelled engine generator. The approach involves converting a gasoline engine generator, commonly used in Malaysian night markets to generate electricity, to the LPG engine generator. A four-stroke SI single-cylinder engine is equipped with an LPG injection system with minor modifications and then tested with both LPG and gasoline fuels. A venturi mixer (carburettor) was designed and in house constructed and then installed to deliver a proper A/F ratio to the combustion chamber. The commercial computational fluid dynamics software FLUENT was used for simulation of air flow inside the mixer. The converted engine was tested at constant speed for its brake-specific fuel consumption (BSFC), efficiency, exhaust temperature, and exhaust gas emissions. The results show that the performance and emission characteristics of the LPG-fuelled engine are well suited for use in night markets. Average BSFC and average efficiency for the LPG engine over a range of loads were quite similar to those for the gasoline engine: the average BSFC was 0.95 kg/kWh for the LPG engine and 1 kg/kWh for the gasoline engine. The use of LPG as fuel in a gasoline engine causes only a slight reduction in efficiency as a 17 per cent reduction in average efficiency was recorded over the entire load range; however, the LPG engine fared better at higher loads than the gasoline engine for which only as low as a 4 per cent reduction was recorded at high loads. Emission tests seem to verify the minimal pollution products; there are significant reductions in the emission concentration results when LPG is used. Average decreases of 32 per cent for nitrogen oxide, 10 per cent for carbon dioxide, and 40 per cent for carbon monoxide were recorded. Although higher values of hydrocarbon (HC) were recorded, a 50 per cent reduction in HC was found for loads higher than 700 W. The study verified the more favourable features of LPG compared to gasoline as it is one of the best alternative fuels to gasoline for spark-ignition engine generators to solve the air pollution problem in night markets. � 2010 Authors.
author2 23112065900
author_facet 23112065900
Yusaf T.F.
Said M.A.
Hussein I.
format Article
author Yusaf T.F.
Said M.A.
Hussein I.
author_sort Yusaf T.F.
title Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market
title_short Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market
title_full Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market
title_fullStr Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market
title_full_unstemmed Performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a Malaysian night market
title_sort performance and emission investigation of a four-stroke liquefied petroleum gas spark-ignition engine generator used in a malaysian night market
publishDate 2023
_version_ 1806423506380914688
score 13.222552