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The utilization of seawater for the hydrolysis of macroalgae and subsequent bioethanol fermentation.


ABSTRACT: A novel seawater-based pretreatment process was developed to improve the hydrolysis yield of brown (Laminaria digitata), green (Ulva linza) and red (Porphyra umbilicalis) macroalgae. Pre-treated with 5% sulphuric acid at 121?°C, 15?minutes, L. digitata, U. linza and P. umbilicalis liberated 64.63?±?0.30%, 69.19?±?0.11% and 63.03?±?0.04% sugar in seawater compared with 52.82?±?0.16%, 45.93?±?0.37% and 48.60?±?0.07% in reverse-osmosis water, respectively. Low hydrolysis yields (2.6-11.7%) were observed in alkali and hydrothermal pretreatment of macroalgae, although seawater led to relatively higher yields. SEM images of hydrolyzed macroalgae showed that reverse-osmosis water caused contortions in the remaining cell walls following acid and hydrothermal pre-treatments in the L. digitata and U. linza samples. Fed-batch fermentations using concentrated green seaweed hydrolysates and seawater with marine yeast Wickerhamomyces anomalus M15 produced 48.24?±?0.01?g/L ethanol with an overall yield of 0.329?g/g available sugars. Overall, using seawater in hydrolysis of seaweed increased sugar hydrolysis yield and subsequent bioethanol production.

SUBMITTER: Greetham D 

PROVIDER: S-EPMC7297732 | biostudies-literature | 2020 Jun

REPOSITORIES: biostudies-literature

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The utilization of seawater for the hydrolysis of macroalgae and subsequent bioethanol fermentation.

Greetham Darren D   Adams Jessica M JM   Du Chenyu C  

Scientific reports 20200616 1


A novel seawater-based pretreatment process was developed to improve the hydrolysis yield of brown (Laminaria digitata), green (Ulva linza) and red (Porphyra umbilicalis) macroalgae. Pre-treated with 5% sulphuric acid at 121 °C, 15 minutes, L. digitata, U. linza and P. umbilicalis liberated 64.63 ± 0.30%, 69.19 ± 0.11% and 63.03 ± 0.04% sugar in seawater compared with 52.82 ± 0.16%, 45.93 ± 0.37% and 48.60 ± 0.07% in reverse-osmosis water, respectively. Low hydrolysis yields (2.6-11.7%) were obs  ...[more]

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