TY - JOUR A1 - Hagos, F.Y. A1 - Abd Aziz, A.R. JF - SAE Technical Papers UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84899535395&doi=10.4271%2f2014-01-1336&partnerID=40&md5=5307ec2dfa450b6e7672f1cd52ad034a VL - 1 Y1 - 2014/// PB - SAE International SN - 01487191 N2 - This paper presents an analysis of the mass fraction burn (MFB) of an imitated low BTU gasification gas used as fuel in a four-stroke, single cylinder, direct-injection (DI), spark-ignition (SI) gas engine. The composition of the gas is 19 H2, 30 CO, 5 CH4 and balance of N2 with a lower calorific value of 7.67 MJ/Nm3. It is aimed at studying the combustion characteristics of the fuel for possible replacement to fossil fuels in the latest engine technology. The engine is operated at wide open throttle position at lean operation condition. Pressure reading from the engine cylinder by Kistler Piezoelectric pressure transducer is used to analyse the MFB with the help of Rassweiler-Withrow model. The result showed that the MFB function of low BTU gasification gas at ultra-lean operation deviated from the normal S-curve, experiencing a double-Wiebe function with a plateau shape at around 50 to 60 of the MFB for all speed ranges studied. The result was further compared with that of CNG operating at very lean charge and injected late at 90o before top dead centre (BTDC). The low BTU gasification gas was observed to have shorter flame development stage duration while longer rapid burning stage and longer overall combustion durations as compared to CNG. Copyright © 2014 SAE International. N1 - cited By 5; Conference of SAE 2014 World Congress and Exhibition ; Conference Date: 8 April 2014 Through 10 April 2014; Conference Code:104424 ID - scholars5396 TI - Mass fraction burn investigation of lean burn low BTU gasification gas in direct-injection spark-ignition engine KW - Combustion; Engine cylinders; Fossil fuels; Gas fuel analysis; Gases; Gasification KW - Combustion characteristics; Combustion duration; Direct injection spark ignition engines; Engine technology; Flame development; Piezoelectric pressure; Single cylinders; Wide open throttle KW - Direct injection CY - Detroit, MI AV - none ER -