| Home | KSAE | E-Submission | Sitemap | Contact Us |  
top_img
International Journal of Automotive Technology > Volume 10(6); 2009 > Article
Engine, Emission Technology
International Journal of Automotive Technology 2009;10(6): 645-652.
HCCI COMBUSTION CHARACTERISTICS DURING OPERATION ON DME AND METHANE FUELS
Y. TSUTSUMI1, A. IIJIMA1, K. YOSHIDA1, H. SHOJI1, Jong Tai Lee2
1Nihon University
2Sungkyunkwan University
ABSTRACT
The Homogeneous Charge Compression Ignition (HCCI) engine has attracted much interest because it can simultaneously achieve high efficiency and low emissions. However, the ignition timing is difficult to control because this engine has no physical ignition mechanism. In addition, combustion proceeds very rapidly because the premixed mixture ignites simultaneously at multiple locations in the cylinder, making it difficult to increase the operating load. In this study, an HCCI engine was operated using blended test fuels comprised of dimethyl ether (DME) and methane, each of which have different ignition characteristics. The effects of mixing ratios and absolute quantities of the two types of fuel on the ignition timing and rapidity of combustion were investigated. Cool flame reaction behavior, which significantly influences the ignition, was also analyzed in detail on the basis of in-cylinder spectroscopic measurements. The experimental results revealed that within the range of the experimental conditions used in this study, the quantity of DME supplied substantially influenced the ignition timing, whereas there was little observed effect from the quantity of methane supplied. Spectroscopic measurements of the behavior of a substance corresponding to HCHO also indicated that the quantity of DME supplied significantly influenced the cool flame behavior. However, the rapidity of combustion could not be controlled even by varying the mixing ratios of DME and methane. It was made clear that changes in the ignition timing substantially influence the rapidity of combustion.
Key Words: Internal combustion engine, Combustion, HCCI, DME, Methane, Spectroscopic measurement
TOOLS
Preview  Preview
Full text via DOI  Full text via DOI
Download Citation  Download Citation
  Print
Share:      
METRICS
916
View
2
Download
Related articles
CHARACTERISTICS OF EXHAUST EMISSIONS CONVERSION OF COMMERCIAL CU- AND FE-SCR CATALYTS  2020 December;21(6)
EFFECTS OF ALTITUDE ON COMBUSTION CHARACTERISTIC DURING COLD START OF HEAVY-DUTY DIESEL ENGINE  2017 April;18(2)
PREDICTING AUTO-IGNITION CHARACTERISTICS OF RCCI COMBUSTION USING A MULTI-ZONE MODEL  2013 October;14(5)
EFFECTS OF INTAKE VALVE ANGLE ON COMBUSTION CHARACTERISTIC IN AN SI ENGINE  2013 August;14(4)
EFFECT OF CETANE ENHANCER ON SPRAY AND COMBUSTION CHARACTERISTICS OF COMPRESSED IGNITION TYPE LPG FUEL  2010 June;11(3)
Editorial Office
21 Teheran-ro 52-gil, Gangnam-gu, Seoul 06212, Korea
TEL: +82-2-564-3971   FAX: +82-2-564-3973   E-mail: manage@ksae.org
About |  Browse Articles |  Current Issue |  For Authors and Reviewers
Copyright © The Korean Society of Automotive Engineers.                 Developed in M2PI
Close layer
prev next