Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition

Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition

In order to study the effect of negative valve overlap on combustion and emission characteristics of a homogeneous charge compression ignition engine fueled with natural gas and hydrogen, the test and the simulation were conducted using an engine cycle model coupling the chemical kinetic reaction me...

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Main Authors: Yuelin Li, Zihan Zhang, Zhiqiang Liu, Peng Tong, Dezhi Yang, Wulong Zhang
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:International Journal of Aerospace Engineering
Online Access:http://dx.doi.org/10.1155/2021/8898796
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spelling doaj-4f804856bc904462b558fdbe4fbe72a72021-02-22T00:01:40ZengHindawi LimitedInternational Journal of Aerospace Engineering1687-59742021-01-01202110.1155/2021/8898796Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen AdditionYuelin Li0Zihan Zhang1Zhiqiang Liu2Peng Tong3Dezhi Yang4Wulong Zhang5College of Automotive and Mechanical EngineeringCollege of Automotive and Mechanical EngineeringCollege of Automotive and Mechanical EngineeringCollege of Automotive and Mechanical EngineeringCollege of Automotive and Mechanical EngineeringCollege of Automotive and Mechanical EngineeringIn order to study the effect of negative valve overlap on combustion and emission characteristics of a homogeneous charge compression ignition engine fueled with natural gas and hydrogen, the test and the simulation were conducted using an engine cycle model coupling the chemical kinetic reaction mechanism under different valve timing conditions. Results show that the internal EGR formed by using negative valve overlap could heat the inlet mixtures and improve the spontaneous ignition characteristic of the engine. The residual exhaust gas could slow down the heat release rate, decrease the pressure rise rate and the maximum combustion temperature, and reduce the NOx emission simultaneously. Among the three NVO schemes, the strategy of changing the intake valve opening timing individually can create the least power loss, and the symmetric NVO strategy which changes both the exhaust valve closing timing and the intake valve opening timing simultaneously can achieve the best heating effect of inlet mixtures and the satisfactory decrease of combustion temperature, as well as the largest reduction of NOx emission.http://dx.doi.org/10.1155/2021/8898796
collection DOAJ
language English
format Article
sources DOAJ
author Yuelin Li
Zihan Zhang
Zhiqiang Liu
Peng Tong
Dezhi Yang
Wulong Zhang
spellingShingle Yuelin Li
Zihan Zhang
Zhiqiang Liu
Peng Tong
Dezhi Yang
Wulong Zhang
Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition
International Journal of Aerospace Engineering
author_facet Yuelin Li
Zihan Zhang
Zhiqiang Liu
Peng Tong
Dezhi Yang
Wulong Zhang
author_sort Yuelin Li
title Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition
title_short Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition
title_full Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition
title_fullStr Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition
title_full_unstemmed Effect of Negative Valve Overlap on Combustion and Emissions of CNG-Fueled HCCI Engine with Hydrogen Addition
title_sort effect of negative valve overlap on combustion and emissions of cng-fueled hcci engine with hydrogen addition
publisher Hindawi Limited
series International Journal of Aerospace Engineering
issn 1687-5974
publishDate 2021-01-01
description In order to study the effect of negative valve overlap on combustion and emission characteristics of a homogeneous charge compression ignition engine fueled with natural gas and hydrogen, the test and the simulation were conducted using an engine cycle model coupling the chemical kinetic reaction mechanism under different valve timing conditions. Results show that the internal EGR formed by using negative valve overlap could heat the inlet mixtures and improve the spontaneous ignition characteristic of the engine. The residual exhaust gas could slow down the heat release rate, decrease the pressure rise rate and the maximum combustion temperature, and reduce the NOx emission simultaneously. Among the three NVO schemes, the strategy of changing the intake valve opening timing individually can create the least power loss, and the symmetric NVO strategy which changes both the exhaust valve closing timing and the intake valve opening timing simultaneously can achieve the best heating effect of inlet mixtures and the satisfactory decrease of combustion temperature, as well as the largest reduction of NOx emission.
url http://dx.doi.org/10.1155/2021/8898796
work_keys_str_mv AT yuelinli effectofnegativevalveoverlaponcombustionandemissionsofcngfueledhccienginewithhydrogenaddition
AT zihanzhang effectofnegativevalveoverlaponcombustionandemissionsofcngfueledhccienginewithhydrogenaddition
AT zhiqiangliu effectofnegativevalveoverlaponcombustionandemissionsofcngfueledhccienginewithhydrogenaddition
AT pengtong effectofnegativevalveoverlaponcombustionandemissionsofcngfueledhccienginewithhydrogenaddition
AT dezhiyang effectofnegativevalveoverlaponcombustionandemissionsofcngfueledhccienginewithhydrogenaddition
AT wulongzhang effectofnegativevalveoverlaponcombustionandemissionsofcngfueledhccienginewithhydrogenaddition
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