Affiliation:
1. University of Ilorin Department of Chemical Engineering P.M.B 1515 Ilorin Kwara State Nigeria
2. Middle Tennessee State University Department of Chemistry 1301 East Main Street TN 37132 Murfreesboro USA
Abstract
AbstractA major problem retarding the commercialization of biodiesel is the derivation of catalysts and feedstocks from high‐cost materials. Hence, the following proposal is being put forward to mitigate this challenge: Extract and characterize castor oil, synthesize and characterize cocoa pod ash as the base catalyst, and apply the base catalyst for biodiesel production. Cocoa pods were heated at 600 °C for 35 min in a muffle furnace and the product sieved to obtain ash with uniform size distribution. The yield of castor oil extracted was 42 %, and the synthesized catalyst was capable of transesterifying the extracted oil. Castor oil was converted to biodiesel with cocoa pod ash as catalyst. A biodiesel yield of 88 % was obtained. The catalyst was characterized by various methods to confirm the presence of active sites. The physicochemical properties of the biodiesel product are consistent with literature values.
Subject
Industrial and Manufacturing Engineering,General Chemical Engineering,General Chemistry