TY - CONF CY - Melaka AV - none N2 - Currently the world's second largest palm oil producer Malaysia produces large amount of oil palm biomass each year. The abundance of the biomass introduces a challenge to utilize them as main feedstock for heat and energy generation. Although some oil palm parts and derivatives like empty fruit bunch and fibre have been commercialized as fuel, less attention has been given to oil palm fronds (OPF). Initial feasibility and characterization studies of OPF showed that it is highly feasible as fuel for gasification to produce high value gaseous fuel or syngas. This paper discusses the experimental gasification attempt carried out on OPF using a 50 kW lab scale downdraft gasifier and its results. The conducted study focused on the temperature distributions within the reactor and the characteristics of the dynamic temperature profile for each temperature zones during operation. OPF feedstock of one cubic inch in individual size with 15 average moisture content was utilized. An average pyrolysis zone temperature of 324°C and an average oxidation zone temperature of 796°C were obtained over a total gasification period of 74 minutes. A maximum oxidation zone temperature of 952°C was obtained at 486 lpm inlet air flow rate and 10 kg/hr feedstock consumption rate. Stable bluish flare was produced for more than 70 of the total gasification time. The recorded temperature profiles produced closely similar patterns with the temperature profiles recorded from the gasification of woody materials. Similar temperature profile was obtained comparing the results from OPF gasification with that of woody biomass. Furthermore, the successful ignition of the syngas produced from OPF gasification ascertained that OPF indeed has a higher potential as gasification feedstock. Hence, more detailed studies need to be done for better understanding in exploiting the biomass as a high prospect alternative energy solution. In addition, a study of the effect of initial moisture content of OPF feedstock on the temperature distribution profile along the gasifier bed showed that initial moisture content of feedstock in the range of 15 gives satisfactory result, while experiment with feedstock having higher moisture content resulted in lower zone temperature values. © 2012 American Institute of Physics. N1 - cited By 4; Conference of 4th International Meeting of Advances in Thermofluids, IMAT 2011 ; Conference Date: 3 October 2011 Through 4 October 2011 ID - scholars2504 TI - Experimental study on temperature profile of fixed - Bed gasification of oil-palm fronds SP - 233 Y1 - 2012/// SN - 0094243X UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84874435021&doi=10.1063%2f1.4704222&partnerID=40&md5=0a0b43c777b953df45cd40bd1b32c93b A1 - Atnaw, S.M. A1 - Sulaiman, S.A. A1 - Moni, M.N.Z. VL - 1440 EP - 241 ER -