Title :
Making biodiesel from coconut oil by reaction metanolisis heterogeneous catalyst
Author :
Awaluddin, Amir ; Padil ; Wahyuningsih, Siamet
Author_Institution :
Fac. of Math. & Natural Sci., Dept. of Chem., Univ. of Riau, Kode Pos, Indonesia
Abstract :
Biodiesel is one of alternative energies. Biodiesel can be made from coconut oil and is referred to as cocodiesel. This research studies the optimum condition of cocodiesel production by methanolysis reaction between coconut oil and methanol using heterogen catalyst of calcium carbonate (CaCO3) is calcined for 1.5 hours at 900°C. In order to get optimum condition, several experimental parameters are applied such as catalyst concentration 1-3 %-wt and molar ratio of methanol/coconut oil 4:1-12:1. The optimum condition obtained from this experimental as follow: catalyst concentration was 2%, molar ratio of methanol/coconut oil was 8:1 at 60°C, produced the higgest conversion of cocodiesel 75.02%. The cocodiesel meet the requirement of Standar National Indonesia (SNI) specifications, where the density was 860 kg/m3, kinematic viscosity was 2.44 mm2/s, flash point was 110°C, water content was 0,039%-v, setana number was 65.94, acid number was 0.049 mg KOH/g and iod number was 6.35 gr Iod/100 gr. Based on data analysis, the product has a qualification as diesel fuel.
Keywords :
biofuel; biotechnology; calcination; catalysts; reaction kinetics; vegetable oils; biodiesel; calcination; cocodiesel production; coconut oil; heterogen catalyst; metanolisis reaction; standard national Indonesia specifications; temperature 110 degC; temperature 60 degC; temperature 900 degC; time 1.5 h; Heating; Biodiesel; coconut oil; heterogen catalyst; methanolysis;
Conference_Titel :
Energy and Sustainable Development: Issues and Strategies (ESD), 2010 Proceedings of the International Conference on
Conference_Location :
Chiang Mai
Print_ISBN :
978-1-4244-8563-5
DOI :
10.1109/ESD.2010.5598785