An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode

An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode

This study explored methods to evaluate the test engine characteristics operated based on the reactivity controlled compression ignition (RCCI) technology to reduce fuel consumption and exhaust emissions, especially PM and NOx. Consequently, gasoline and diesel, respectively, considered as the low r...

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Main Authors: Tien Duy Nguyen, Trung Tran Anh, Vinh Tran Quang, Huy Bui Nhat, Vinh Nguyen Duy
Format: Article
Language:English
Published: AIMS Press 2020-12-01
Series:AIMS Energy
Subjects:
rcci engine
exhaust emissions
compression ratio
coefficient of variation
partially premixed combustion
brake thermal efficiency
Online Access:http://awstest.aimspress.com/article/doi/10.3934/energy.2020.6.1069?viewType=HTML
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spelling doaj-aec38b2be1d2490888ad7b7c36ccf0792020-12-24T08:23:17ZengAIMS PressAIMS Energy2333-83262333-83342020-12-01861069108710.3934/energy.2020.6.1069An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI modeTien Duy Nguyen0Trung Tran Anh1Vinh Tran Quang2Huy Bui Nhat3Vinh Nguyen Duy41. Department of Internal Combustion Engine, School of Transportation Engineering, Hanoi University of Science and Technology, 1 Dai Co Viet Road, Hanoi, Viet Nam2. Faculty of Vehicle and Energy Engineering, Phenikaa University, Hanoi, Vietnam2. Faculty of Vehicle and Energy Engineering, Phenikaa University, Hanoi, Vietnam2. Faculty of Vehicle and Energy Engineering, Phenikaa University, Hanoi, Vietnam2. Faculty of Vehicle and Energy Engineering, Phenikaa University, Hanoi, VietnamThis study explored methods to evaluate the test engine characteristics operated based on the reactivity controlled compression ignition (RCCI) technology to reduce fuel consumption and exhaust emissions, especially PM and NOx. Consequently, gasoline and diesel, respectively, considered as the low reactivity fuel (LRF) and high reactivity fuel (HRF), are injected in the intake manifold and combustion chamber. The experimental procedure is conducted at a constant speed of 2000 rpm, and brake mean effective pressure (BMEP) from low load 0.84 bar to high load 4.24 bar. The injection strategy is varied according to the engine loads. Indeed, at the low and medium engine load condition, the diesel fuel is injected double injection pulse, at the high load, the diesel fuel is injected single injection pulse. The injection timing is advanced from the top dead center (TDC) until knocking happens or the coefficient of variation (COV) higher than 10%, and maximum advanced injection timing is 65 crank angle degree (℃A) before the top dead center (BTDC). The results of advanced injection timing show that limit of advanced timing in low load is COV while at high load is knocking; at medium load, the diesel injection timing can be advanced to 65℃A BTDC. The exhaust emissions of CO and HC are higher than conventional diesel engines, while soot is hugely lower in all operating points. NOx emission is much dependent on injection timing, at 10 to 20℃A BTDC NOx highest, and approximately to the conventional diesel engine, NOx reduction when injection timing advanced.http://awstest.aimspress.com/article/doi/10.3934/energy.2020.6.1069?viewType=HTMLrcci engineexhaust emissionscompression ratiocoefficient of variationpartially premixed combustionbrake thermal efficiency
collection DOAJ
language English
format Article
sources DOAJ
author Tien Duy Nguyen
Trung Tran Anh
Vinh Tran Quang
Huy Bui Nhat
Vinh Nguyen Duy
spellingShingle Tien Duy Nguyen
Trung Tran Anh
Vinh Tran Quang
Huy Bui Nhat
Vinh Nguyen Duy
An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode
AIMS Energy
rcci engine
exhaust emissions
compression ratio
coefficient of variation
partially premixed combustion
brake thermal efficiency
author_facet Tien Duy Nguyen
Trung Tran Anh
Vinh Tran Quang
Huy Bui Nhat
Vinh Nguyen Duy
author_sort Tien Duy Nguyen
title An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode
title_short An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode
title_full An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode
title_fullStr An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode
title_full_unstemmed An experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in RCCI mode
title_sort experimental evaluation of engine performance and emissions characteristics of a modified direct injection diesel engine operated in rcci mode
publisher AIMS Press
series AIMS Energy
issn 2333-8326
2333-8334
publishDate 2020-12-01
description This study explored methods to evaluate the test engine characteristics operated based on the reactivity controlled compression ignition (RCCI) technology to reduce fuel consumption and exhaust emissions, especially PM and NOx. Consequently, gasoline and diesel, respectively, considered as the low reactivity fuel (LRF) and high reactivity fuel (HRF), are injected in the intake manifold and combustion chamber. The experimental procedure is conducted at a constant speed of 2000 rpm, and brake mean effective pressure (BMEP) from low load 0.84 bar to high load 4.24 bar. The injection strategy is varied according to the engine loads. Indeed, at the low and medium engine load condition, the diesel fuel is injected double injection pulse, at the high load, the diesel fuel is injected single injection pulse. The injection timing is advanced from the top dead center (TDC) until knocking happens or the coefficient of variation (COV) higher than 10%, and maximum advanced injection timing is 65 crank angle degree (℃A) before the top dead center (BTDC). The results of advanced injection timing show that limit of advanced timing in low load is COV while at high load is knocking; at medium load, the diesel injection timing can be advanced to 65℃A BTDC. The exhaust emissions of CO and HC are higher than conventional diesel engines, while soot is hugely lower in all operating points. NOx emission is much dependent on injection timing, at 10 to 20℃A BTDC NOx highest, and approximately to the conventional diesel engine, NOx reduction when injection timing advanced.
topic rcci engine
exhaust emissions
compression ratio
coefficient of variation
partially premixed combustion
brake thermal efficiency
url http://awstest.aimspress.com/article/doi/10.3934/energy.2020.6.1069?viewType=HTML
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