Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali

Microalgae cultivation system has been proposed to be incorporated into palm oil industry for simultaneous palm oil mill effluent (POME) bioremediation and CO2 sequestration. In this context, raceway pond is the most suitable cultivation method to be used nevertheless its tendency to degas the suppl...

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Main Author: Razali, Mohd Shahrizi
Format: Thesis
Language:English
Published: 2020
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Online Access:https://ir.uitm.edu.my/id/eprint/59565/1/59565.pdf
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spelling my.uitm.ir.595652022-05-13T04:07:34Z https://ir.uitm.edu.my/id/eprint/59565/ Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali Razali, Mohd Shahrizi Analytical chemistry Algal biotechnology Microalgae cultivation system has been proposed to be incorporated into palm oil industry for simultaneous palm oil mill effluent (POME) bioremediation and CO2 sequestration. In this context, raceway pond is the most suitable cultivation method to be used nevertheless its tendency to degas the supplied dissolved carbon dioxide (DCO2) into the atmosphere. Accordingly, a 220 L Fed-batch Raceway Pond (FRP) was designed to address this problem where it embodies a variable-volume fed-batch culture [from 60 L (batch stage) to 220 L (fed-batch stage)], with a movable-semi-circular barrier for ensuring a constant liquid depth level, a movable vertical flow separator for flow circulation, a variable-speed paddlewheel for flow generation, and a membrane contactor for the carbonation of fresh growth medium. The first objective of this study include determining the growth kinetics of Chlorella sp. UKM2 in untreated POME medium at various CO2 levels in 1 L flask in order to provide information valuable to the design and operation of the FRP. Secondly, this study attempts to scale-up microalgae growth from 1 L flask to 60 L FRP, and subsequently to demonstrate its growth at quasi-steady state in fed-batch stage of the FRP. In the first experimental part which involved Chlorella sp. UKM2 cultivation in 1 L flask showed that its maximum specific growth rate (μmax) in untreated POME medium with 10,000 lux lighting has a maximum value of 1.18 d-1 at CO2 level varied from 0.04–10% (v/v). Following that, the scale-up of Chlorella sp. UKM2 growth at 60 L FRP scale was attempted with Bold’s basal Medium (BBM) through a stepwise experimental approach. However, the attempt failed and the problem areas were narrowed down to be related with variables mixing and inoculum, as identified through The Monitor Experiments, given the mixing in the FRP was not able to sustain Chlorella sp. UKM2 in suspension resulting in its sedimentation and collapsed, nonetheless that the said variables have been upgraded to reach their operational limits from 2,500 lux to 10,000 lux and from 4-bladed, fixed-speed, paddlewheel to 8-bladed, variable-speed paddlewheel, respectively. In the same operational conditions, scale-up was again conducted with Scenedesmus sp. UKM9, and appropriate growth with maximum biomass concentration (Xmax) of 1.067 g/L and μmax = 0.2842 d-1 was obtained, even though considerable difference against the 1 L flask scale cultivation was still observable in particular to its half reduction in its biomass productivity. Thereafter, Scenedesmus sp. UKM9 cultivations at fed-batch stage of the FRP were demonstrated using BBM and POME medium, where both cultivations reached quasi-steady state since their biomass concentration (X) remained fairly constant at 0.92 ± 0.04 g/L and 0.42 ± 0.036 g/L when dilution rate (D) was set at 0.0792 d-1 and 0.14 d-1, respectively. The CO2 recovery (Crecovery) for both cultivations was determined at 115.29% and 129.6% respectively, based on assumption that Scenedesmus sp. UKM9 in the culture conducted growth entirely by photosynthesis. The more than 100% recovery obtained in this study signifies that all the supplied DCO2 had been captured in the quasi-steady state growth and incorporated into the biomass, and none degassed out from the liquid culture, with some CO2 dissolved from the atmosphere too being captured and incorporated into biomass, bridging the recovery to higher than 100%. 2020-04 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/59565/1/59565.pdf (2020) Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali. Masters thesis, thesis, Universiti Teknologi MARA.
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Analytical chemistry
Algal biotechnology
spellingShingle Analytical chemistry
Algal biotechnology
Razali, Mohd Shahrizi
Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali
description Microalgae cultivation system has been proposed to be incorporated into palm oil industry for simultaneous palm oil mill effluent (POME) bioremediation and CO2 sequestration. In this context, raceway pond is the most suitable cultivation method to be used nevertheless its tendency to degas the supplied dissolved carbon dioxide (DCO2) into the atmosphere. Accordingly, a 220 L Fed-batch Raceway Pond (FRP) was designed to address this problem where it embodies a variable-volume fed-batch culture [from 60 L (batch stage) to 220 L (fed-batch stage)], with a movable-semi-circular barrier for ensuring a constant liquid depth level, a movable vertical flow separator for flow circulation, a variable-speed paddlewheel for flow generation, and a membrane contactor for the carbonation of fresh growth medium. The first objective of this study include determining the growth kinetics of Chlorella sp. UKM2 in untreated POME medium at various CO2 levels in 1 L flask in order to provide information valuable to the design and operation of the FRP. Secondly, this study attempts to scale-up microalgae growth from 1 L flask to 60 L FRP, and subsequently to demonstrate its growth at quasi-steady state in fed-batch stage of the FRP. In the first experimental part which involved Chlorella sp. UKM2 cultivation in 1 L flask showed that its maximum specific growth rate (μmax) in untreated POME medium with 10,000 lux lighting has a maximum value of 1.18 d-1 at CO2 level varied from 0.04–10% (v/v). Following that, the scale-up of Chlorella sp. UKM2 growth at 60 L FRP scale was attempted with Bold’s basal Medium (BBM) through a stepwise experimental approach. However, the attempt failed and the problem areas were narrowed down to be related with variables mixing and inoculum, as identified through The Monitor Experiments, given the mixing in the FRP was not able to sustain Chlorella sp. UKM2 in suspension resulting in its sedimentation and collapsed, nonetheless that the said variables have been upgraded to reach their operational limits from 2,500 lux to 10,000 lux and from 4-bladed, fixed-speed, paddlewheel to 8-bladed, variable-speed paddlewheel, respectively. In the same operational conditions, scale-up was again conducted with Scenedesmus sp. UKM9, and appropriate growth with maximum biomass concentration (Xmax) of 1.067 g/L and μmax = 0.2842 d-1 was obtained, even though considerable difference against the 1 L flask scale cultivation was still observable in particular to its half reduction in its biomass productivity. Thereafter, Scenedesmus sp. UKM9 cultivations at fed-batch stage of the FRP were demonstrated using BBM and POME medium, where both cultivations reached quasi-steady state since their biomass concentration (X) remained fairly constant at 0.92 ± 0.04 g/L and 0.42 ± 0.036 g/L when dilution rate (D) was set at 0.0792 d-1 and 0.14 d-1, respectively. The CO2 recovery (Crecovery) for both cultivations was determined at 115.29% and 129.6% respectively, based on assumption that Scenedesmus sp. UKM9 in the culture conducted growth entirely by photosynthesis. The more than 100% recovery obtained in this study signifies that all the supplied DCO2 had been captured in the quasi-steady state growth and incorporated into the biomass, and none degassed out from the liquid culture, with some CO2 dissolved from the atmosphere too being captured and incorporated into biomass, bridging the recovery to higher than 100%.
format Thesis
author Razali, Mohd Shahrizi
author_facet Razali, Mohd Shahrizi
author_sort Razali, Mohd Shahrizi
title Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali
title_short Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali
title_full Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali
title_fullStr Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali
title_full_unstemmed Scale-up of microalgae growth from 1 L flask to 60 L fed-batch raceway pond (FRP) and its growth at quasi-steady state in pome medium / Mohd Shahrizi Razali
title_sort scale-up of microalgae growth from 1 l flask to 60 l fed-batch raceway pond (frp) and its growth at quasi-steady state in pome medium / mohd shahrizi razali
publishDate 2020
url https://ir.uitm.edu.my/id/eprint/59565/1/59565.pdf
https://ir.uitm.edu.my/id/eprint/59565/
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