Abstract:
Biodiesel is a prominent biofuel that can be locally produced from various feedstock
options to replace/blend with diesel. This study explores the feasibility of biodiesel
production from waste chicken skin in the laboratory-scale. The average yield of rendered
oil obtained from waste chicken skin is 280 mL/kg. The rendered chicken skin oil
displayed minimal impurities and exhibited a yellow color, demonstrating the presence of
natural pigments. To determine the suitability of the rendered oil for biodiesel production,
experimental tests were conducted to measure the Free Fatty Acid (FFA) content and
Acid Value (AV). The FFA content was found to be less than 3%, indicating the possibility
of direct conversion of rendered chicken skin oil into biodiesel via transesterification. The
biodiesel yield obtained from the rendered chicken skin oil samples ranged with an
average yield of 43%. The results demonstrate the potential of waste chicken skin as a
viable feedstock for local biodiesel production. While density and net calorific value are
nearly the same, biodiesel samples display significantly lower kinematic viscosity,
suggesting improved flow characteristics while reporting a higher flash point than that of
diesel, indicating the requirement of a higher ignition temperature. Further, an economic
analysis was also performed to evaluate the overall production cost of a scaled-up
biodiesel production plant from waste chicken skin. This study demonstrates the
potential of waste chicken skin as a viable feedstock for biodiesel production and
supports important findings for future developments of commercial scale biodiesel
production from locally available bio-waste/food-waste sources.
