An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance

An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance

In the current study, a single cylinder, four stroke gasoline engine was converted to HCCI engine. HCCI engine was run at 1400 rpm, between λ=1.9 and λ=2.74 lambda values with n-heptane, acetone/n-heptane (A20N80) and tetrahydrofuran/n-heptane (F20N80) fuel blends at full load. The effects of tetrah...

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Main Authors: Bilal AYDOĞAN, Alper CALAM, Ahmet UYUMAZ
Format: Article
Language:English
Published: Gazi University 2019-09-01
Series:Gazi Üniversitesi Fen Bilimleri Dergisi
Subjects:
Homogeneous Charged Compression Ignition
Engine Performance
Alternative Fuel
Online Access:https://dergipark.org.tr/en/download/article-file/801894
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spelling doaj-72fe272a14ba472d8859bc4cb978d0a52021-09-02T03:37:58ZengGazi UniversityGazi Üniversitesi Fen Bilimleri Dergisi2147-95262019-09-017370071110.29109/gujsc.571291An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine PerformanceBilal AYDOĞAN Alper CALAMAhmet UYUMAZIn the current study, a single cylinder, four stroke gasoline engine was converted to HCCI engine. HCCI engine was run at 1400 rpm, between λ=1.9 and λ=2.74 lambda values with n-heptane, acetone/n-heptane (A20N80) and tetrahydrofuran/n-heptane (F20N80) fuel blends at full load. The effects of tetrahydrofuran and acetone fuel addition on combustion characteristics and engine performance were researched. Combustion characteristics and engine performance were observed and compared with n-heptane. Knocking was seen with n-heptane and F20N80 with richer mixtures (λ=1.9 ve λ=1.92). But, knocking tendency reduced with the usage of A20N80 and HCCI engine was stably run. In-cylinder pressure and heat release rate decreased with leaner charge mixture for all test fuels. In addition, combustion was delayed and HC was reduced with leaner charge mixtures. As a result, it was seen that stable HCCI combustion could be achieved with alternative fuel and operating range of HCCI engine can be expanded at misfiring and knocking zones.https://dergipark.org.tr/en/download/article-file/801894Homogeneous Charged Compression IgnitionEngine PerformanceAlternative Fuel
collection DOAJ
language English
format Article
sources DOAJ
author Bilal AYDOĞAN
Alper CALAM
Ahmet UYUMAZ
spellingShingle Bilal AYDOĞAN
Alper CALAM
Ahmet UYUMAZ
An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance
Gazi Üniversitesi Fen Bilimleri Dergisi
Homogeneous Charged Compression Ignition
Engine Performance
Alternative Fuel
author_facet Bilal AYDOĞAN
Alper CALAM
Ahmet UYUMAZ
author_sort Bilal AYDOĞAN
title An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance
title_short An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance
title_full An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance
title_fullStr An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance
title_full_unstemmed An Experimental Investigation of the Effects of Acetone, Tetrahydrofuran and N-heptane Fuel Blends on HCCI Combustion and Engine Performance
title_sort experimental investigation of the effects of acetone, tetrahydrofuran and n-heptane fuel blends on hcci combustion and engine performance
publisher Gazi University
series Gazi Üniversitesi Fen Bilimleri Dergisi
issn 2147-9526
publishDate 2019-09-01
description In the current study, a single cylinder, four stroke gasoline engine was converted to HCCI engine. HCCI engine was run at 1400 rpm, between λ=1.9 and λ=2.74 lambda values with n-heptane, acetone/n-heptane (A20N80) and tetrahydrofuran/n-heptane (F20N80) fuel blends at full load. The effects of tetrahydrofuran and acetone fuel addition on combustion characteristics and engine performance were researched. Combustion characteristics and engine performance were observed and compared with n-heptane. Knocking was seen with n-heptane and F20N80 with richer mixtures (λ=1.9 ve λ=1.92). But, knocking tendency reduced with the usage of A20N80 and HCCI engine was stably run. In-cylinder pressure and heat release rate decreased with leaner charge mixture for all test fuels. In addition, combustion was delayed and HC was reduced with leaner charge mixtures. As a result, it was seen that stable HCCI combustion could be achieved with alternative fuel and operating range of HCCI engine can be expanded at misfiring and knocking zones.
topic Homogeneous Charged Compression Ignition
Engine Performance
Alternative Fuel
url https://dergipark.org.tr/en/download/article-file/801894
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AT alpercalam anexperimentalinvestigationoftheeffectsofacetonetetrahydrofuranandnheptanefuelblendsonhccicombustionandengineperformance
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