High-throughput integrated pretreatment strategies to convert high-solid loading microalgae into high-concentration biofuels

Authors
Ha, Geon-SooSaha, ShouvikBasak, BikramKurade, Mayur B.Kim, Gyeong-UkJi, Min-KyuAhn, YongtaeSalama, El-SayedChang, Soon WoongJeon, Byong-Hun
Issue Date
2021-11
Publisher
ELSEVIER SCI LTD
Citation
BIORESOURCE TECHNOLOGY, v.340
Abstract
The commercial feasibility of energy-efficient conversion of highly concentrated microalgal suspensions to produce high-titer biofuels is a major bottleneck due to high energy consumption. Herein, high-titer biofuels (bioethanol, higher-alcohols, and biodiesel) were generated from carbohydrate-rich Chlamydomonas mexicana and lipid-rich Chlamydomonas pitschmannii biomass through energy-saving microwave pretreatment, successive fermentation, and transesterification. Microwave pretreatment needed low specific energy (4.2 MJ/kg) for 100 g/L of microalgal suspension. Proposed sustainable integrated pretreatments method achieved unprecedented total conversion efficiency (67%) and highest biomass utilization (87%) of C. pitschmannii (100 g/L) with high yields of bioethanol (0.48 g-ethanol/g-carbohydrates), higher-alcohols (0.44 g-higher-alcohols/g-proteins), and biodiesel (0.90 g-biodiesel/g-lipids). Transmission electron microscopy showed the changes in the microalgal cellular integrity before and after sequential fermentations. Energy-efficient integrated pretreatments enhanced the extraction efficiency and whole utilization of high-concentration microalgae to generate high-titer biofuels with minimum waste production.
Keywords
BIODIESEL PRODUCTION; BIOMASS; MICROWAVE; LIPIDS; BIOREFINERY; EXTRACTION; BIOETHANOL; TRANSESTERIFICATION; BIOENERGY; Microalgal biorefinery; High titer biofuel; Integrated pretreatment; Waste management; Cell disruption
ISSN
0960-8524
URI
https://pubs.kist.re.kr/handle/201004/116172
DOI
10.1016/j.biortech.2021.125651
Appears in Collections:
KIST Article > 2021
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