TY - CONF TI - Thermochemical Characterization of Oil Palm Fronds, Coconut Shells, and Wood as A Fuel for Heat and Power Generation ID - scholars9804 KW - Aluminum compounds; ASTM standards; Calorific value; Carbon; Chlorine compounds; Energy conversion; Energy dispersive spectroscopy; Fuels; Gravimetric analysis; Hydrogen; Palm oil; Renewable energy resources; Wood KW - Energy conversion technologies; Energy dispersive X ray spectroscopy; Higher heating value; Proximate analysis; Renewable energy source; Standard procedures; Thermal conversion; Weight percentages KW - Silicon compounds N1 - cited By 13; Conference of 2018 UTP-UMP-VIT Symposium on Energy Systems, SES 2018 ; Conference Date: 18 September 2018 Through 19 September 2018; Conference Code:141921 N2 - This study investigated the thermochemical characterization of oil palm fronds (OPF), coconut shells (CS) and wood for their use as a solid fuel for thermal conversion processes. The ultimate analysis, proximate analysis, calorific values, and elemental contents through energy dispersive X-ray spectroscopy of OPF, CS, and wood samples were measured. The results of OPF and CS were compared with wood considered as benchmark solid fuel. Proximate analysis was performed as per ASTM standard procedure in a muffle furnace and used thermos-gravimetric analysis technique. The ultimate analysis was used to determine the weight percentage of carbon, hydrogen, and nitrogen in CHNS analyzer. Elements analysis was done using energy dispersive X-ray spectroscopy. The ultimate analysis results show carbon content was higher in CS as compared to OPF and wood. The hydrogen content was higher in OPF. Proximate analysis results revealed that volatile matter was higher in wood, whereas fixed carbon and higher heating value were found higher in CS while ash content was lower in CS. From EDX results found that the OPF has Al, Si, Cl, and K, while, in wood and CS these elements are absent. The thermochemical characterization results of OPF and CS were comparable with the wood. Therefore, it concluded that OPF and CS have the potential to be used as renewable energy source by using appropriate energy conversion technologies, such as gasification, pyrolysis, and torrefaction. © 2018 The Authors, published by EDP Sciences. AV - none VL - 225 A1 - Inayat, M. A1 - Sulaiman, S.A. A1 - Naz, M.Y. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85056750121&doi=10.1051%2fmatecconf%2f201822501008&partnerID=40&md5=7488c2314302142162aa5985139a4ce7 PB - EDP Sciences SN - 2261236X Y1 - 2018/// ER -