Biodiesel Production from Waste Frying Oil: Using H2S04 and Transesterification Using Derived from Anadara granosa Esterification Cao Catalyst
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Date
2018-10-22
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Publisher
wahyu sari yeni
Abstract
Biodiesel is one of an environmentally friendly alternative fuels. This study aimed to synthesize
biodiesel from waste frying oil by the two step catalytic process, esterification of free fatty acids
using sulfuric acid catalyst and transesterification of trigycerides using Cao catalyst derived from
blood cockle shells (anadaro granosa). Cao catalyst was prepared by coarsely grounded cockie
shell using a mortar pestle, dried in an oven at 110 °C for overnight and calcined at 900 °C for 10
hours. The optimum conditions of the esterification and transesterification processes was
evaluated by varying temperature and time of reaction for both processes. The biodiesel
conversion was analyzed by using GC and the biodiesel chacteristics were analized and the results
were compared to Standar National for Biodiesel (SNI 04-7183-2006). The maximum yield of
biodiesel was 80.04% at reaction conditions of H2504 catalyst was 3%, the mole ratio of oil:
methanol was 1:18, temperature was 70°C, and reaction time was 2 hours, and the
transesterification condition were temperature at 60°C, and reaction time for 3 hours. The
characteristics of biodiesel were in the range of standar for biodiesel (SNI 04-7183-2006).
Description
Keywords
Biodiesel, waste frying oil, esterification, transesterification, CaO heterogeneous catalyst