Cleaner energy for cleaner production: Modeling and optimization of biogas generation from Carica papayas (Pawpaw) fruit peels
No Thumbnail Available
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Description
In this study, the potentials of pretreated and untreated Carica papayas fruit peels for biogas generation
was evaluated alongside its process optimization after employing the combination of mechanical and
thermo-alkaline pretreatment methods. The peel was anaerobically digested using a consortium of
microorganisms from cattle rumen content as inoculum. A batch system designed by the Central
Composite Design (CCD) was employed. The physicochemical and microbial characteristics of the substrates
and inoculum as well as the constituent of the generated biogas were evaluated using standard
methods and results showed elevated levels of most elements after anaerobic digestion. The most
feasible experimental biogas yields were 0.1839 m3/kg VS and 0.1361 m3/kg VS for the pretreated and
untreated experiments respectively. Microbiologically, members of the genus Clostridium dominated the
microbial flora and their succession patterns were affected by temperature and pH. The methane and
carbon dioxide content of biogas from both experiments were 61.5± 2.5%; 24± 1% and 52 ± 2%; 25± 1.5%
respectively. The Response Surface Methodology (RSM) and the Artificial Neural Networks (ANNs) were
employed in data optimization. Based on the optimized values, the predicted biogas yield for RSM was
0.1895 m3/kg VS and 0.1839 m3/kg VS for ANNs in the pretreated experiment. For the experiment
without pretreatment, the RSM predicted yield was 0.1361 m3/kg VS while that of ANNs was 0.1392 m3/
kg VS. In all, there was a 26.5% increase in predicted biogas yield in the pretreated experiment over the
untreated. Further usage of pawpaw peels for biofuels generation is advocated.
Keywords
T Technology (General), TP Chemical technology