PEMODELAN PRODUKSI ASTAKSANTIN PADA KULTUR HAEMATOCOCCUS PLUVIALIS MELALUI PEMBERIAN CEKAMAN INTENSITAS CAHAYA
Along with the increasing trend of healthy lifestyles in the community, the demand for health and beauty products made from natural ingredients is also increasing, one of which is astaxanthin. Haematococcus pluvialis is one of the microalgae that is known to have the potential to produce natural...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/61173 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Along with the increasing trend of healthy lifestyles in the community, the demand
for health and beauty products made from natural ingredients is also increasing,
one of which is astaxanthin. Haematococcus pluvialis is one of the microalgae that
is known to have the potential to produce natural astaxanthin as a raw material in
the pharmaceutical and neurochemical fields. This study aims to build a simulation
model that is useful for the design and management of H. pluvialis cultivation. Mini
research was carried out for the cultivation of H. pluvialis in commercial NPK
fertilizer media with continuous light stress (photoperiod 24:0) to produce
astaxanthin. This study also carried out a growth model simulation using the
Baranyi-Roberts model and astaxanthin production using the Luedeking-Piret
model at various light intensities. Modeling of growth and production of
astaxanthin was carried out using MATLAB application using tools ode23 for
parameter estimation and ode45 for model simulation. From mini research, it was
found that the increase in biomass in commercial NPK fertilizer media was 4.7
times with a productivity of 0.03 g/L day, while in the red phase astaxanthin did not
accumulate properly because no change in culture was observed to red. From the
modeling results, the highest specific maximum growth rate was obtained at an
intensity of 400 mol/m2s, which was 0.73 day-1. The increase of PPFD has been
shown to increase the content of astaxanthin. The highest astaxanthin content was
measured at an intensity of 400 mol/m2s on the 5th day of cultivation, which was
18.97 mg/g. The estimated productivity of astaxanthin showed that cultivation of H.
pluvialis with an intensity of 200 mol/m2s resulted in the highest productivity and
efficiency of light utilization, which was 28 (mg/L day)/(mmol/m2s) or about 1.28
times higher than the estimated productivity of astaxanthin per light intensity at 400
mol/m2s. The results of this study indicate that Photosynthetic Photon Flux Density
(PPFD) can affect biomass acumulation and synthesis of astaxanthin content in H.
Pluvialis increases as PPFD increases. |
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