OPTIMIZATION OF MEDIUM C/N RATIO AND INITIAL PH ON LIPID PRODUCTION BY RHODOTORULA TORULOIDES IN TWO-STAGE CULTIVATION USING RESPONSE SURFACE METHODOLOGY
The sap from oil palm agricultural waste is used to make brown palm sugar. Palm brown sugar can be utilized as a substitute carbon source for microbial-based lipid synthesis since it contains a variety of organic sugars and nitrogen molecules. Microbial-based lipid production has been an alternat...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83097 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The sap from oil palm agricultural waste is used to make brown palm sugar. Palm
brown sugar can be utilized as a substitute carbon source for microbial-based lipid
synthesis since it contains a variety of organic sugars and nitrogen molecules.
Microbial-based lipid production has been an alternative source of lipids other than
plants. Oleaginous yeast, such as Rhodotorula toruloides, can accumulate lipids up to
70 % of its cell dry weight. Initial medium pH and the C/N ratio are several important
parameters that affect microbial-based lipid synthesis. In this research, lipid production
by Rhodotorula toruloides will be optimized using response surface methodology. The
purpose of this study is to ascertain how three variables—the C/N ratio, the initial
medium pH, and the inoculum concentration—affect three responses: cell production
rate, maximum cell dry weight, and intracellular lipid content. Ammonium sulfate is
the nitrogen source in this study, whereas palm brown sugar is the carbon source. The
C/N ratio was varied by varying the concentration of nitrogen source addition at a
constant carbon source concentration. Response optimization was carried out under
conditions of constant inoculum concentration at 107 cells/mL. According to the
ANOVA analysis, the medium's C/N ratio was found to have a strong linear and
quadratic effect on the maximum cell dry weight and cell production rate, whereas the
medium's initial pH had no significant effect on both responses. The intracellular lipid
levels were not significantly affected by the medium's initial pH or C/N ratio. The
mathematical model for cell production rate and maximum cell dry weight were
significant mathematical models (p<0.05), while the mathematical model for
intracellular lipid content was not significant. Response optimization was only carried
out at the cell production rate and maximum cell dry weight. Predictions of intracellular
lipid content obtained by optimizing maximal cell dry weight were found to be greater
than those obtained from optimizing cell production rates. Optimization of the dry
weight of this cell resulted in the C/N ratio and initial pH of the medium being 3.7 and
6.5, respectively as optimum conditions. At an inoculum concentration of 107 cells/mL,
This condition yields predicted optimal values for the response of cell production rate,
maximum cell dry weight, and intracellular lipid content of 0.09 g/L.hour, 12.04 g/L,
and 53,48% w/w dry cell, respectively. |
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