Factorial Experimental Design for Biobutanol Production from Oil Palm Frond (OPF) Juice by Clostridium Acetobutylicum ATCC 824

Biobutanol is an alternative energy that can be promising as the future energy source. It can be produced from natural and renewable agriculture wastes such as oil palm frond (OPF) juice by microbes. Clostridium acetobutylicum has the ability to ferment the sugars in OPF juice as carbon source into biobutanol. This research aimed to investigate the effect of independent and interaction factors; initial pH medium (5-7), inoculum size (1-20%), initial total sugars concentration (40-60 g/L), temperature (32-42°C) and yeast extract concentration (1-10 g/L) on the production of biobutanol from oil palm frond (OPF) juice by C. acetobutylicum ATCC 824 using a two level half factorial design which have been developed by the Design Expert Software Version 7.1. Based on the factorial analysis, it was observed that the most significant parameter was yeast extract concentration, which contributes 8.20%, followed by inoculum size and temperature, which were contribute 7.84% and 7.56%, respectively. The analysis showed the R2 value for the model was 0.9805 and the interaction between inoculum size and temperature gave the highest influenced to the fermentation process with contribution up to 16.31%. From the validation experiments, the experimental values were reasonable close to the predicted values with only 5.87% and 10.09% of errors. It confirmed the validity and adequacy of the predicted models. Hence, the data analysis developed from the Design Expert Software could reliably predict biobutanol yields. This study indicated that each of the factors may affect the fermentation process of the biobutanol production

Biobutanol Production by Clostridium acetobutylicum ATCC 824 Using Oil Palm Frond (OPF) Juice

The aim of the present paper is to study the production of biobutanol from oil palm frond (OPF) juice by Clostridium acetobutylicum ATCC 824. The fermentation was carried out anaerobically in batch mode. The effect of total sugars concentration in OPF juice (10 – 60 g/L), temperature (32 – 42 oC), and initial pH (5 – 7) were investigated. The highest biobutanol yield (0.24 g/g) was obtained at 50 g/L of total sugars concentration, 37oC, and pH 6 with a biobutanol production value as high as 9.24 g/L. However, the production decreased to 3.09 g/L with a yield of 0.13 g/g when a higher value of initial total sugars concentration (60 g/L) was used. On the other hand, the production yield also low when the fermentation conditions were set at 42oC (0.04 g/g) and pH 5 (0.13 g/g). The results presented herewith showed that OPF juice is promising as a renewable carbon source for biobutanol production. The suitable fermentation environment can enhance the yield of biobutanol production