Effect of microalgae storage conditions on methane yields

During the last decade, a lot of research has been focused on identifying the methane yields achievable when using microalgae biomass (fresh and pretreated) as a substrate in anaerobic digestion. Encountered differences are frequently attributed to the different microalgae strains (cell walls and ma...

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Bibliographic Details
Published in:Environmental science and pollution research international 2018-05, Vol.25 (14), p.14263-14270
Main Authors: Barreiro-Vescovo, Santiago, de Godos, Ignacio, Tomás-Pejó, Elia, Ballesteros, Mercedes, González-Fernández, Cristina
Format: Article
Language:English
Subjects:
Algae
Anaerobic digestion
Anaerobic processes
Anaerobiosis
Aquatic microorganisms
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Biofuels - analysis
Biomass
Cell walls
Cold Temperature
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental science
Freeze Drying
Hydrolysis
Inoculum
Macromolecules
Methane
Methane - analysis
Microalgae
Microalgae - chemistry
Mineralization
Nitrogen - analysis
Reaction kinetics
Research Article
Sludge
Storage conditions
Substrates
Time Factors
Waste Water Technology
Water Management
Water Pollution Control
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Summary:During the last decade, a lot of research has been focused on identifying the methane yields achievable when using microalgae biomass (fresh and pretreated) as a substrate in anaerobic digestion. Encountered differences are frequently attributed to the different microalgae strains (cell walls and macromolecular profiles) or the different metabolic activities of anaerobic sludge used as inoculum. Nevertheless, under the hypothesis that the state of microalgae upon biomass storage may also play a significant role, this study was designed to evaluate the effect of biomass processing and storage on methane yields and hydrolysis kinetics in batch mode assays. Slight changes in the macromolecular profile distribution of the different tested biomass were observed. Regardless of the time that the biomass was stored, results revealed that frozen biomass doubled the hydrolysis constant and enhanced methane yield by 1.56-fold compared to fresh microalgae biomass (82.4 mL CH 4  g COD in −1 ). Similar enhancement was obtained with the freeze-dried biomass, and slightly lower values were obtained (1.34-fold) for the biomass kept at 4 °C longer than a week. Likewise, the semi-continuously operated reactor fed with microalgae biomass stored for 28 days at 4 °C did not show any effect in terms of methane production, although nitrogen mineralization was higher than expected. Remarkably, the initial stage of the biomass should be carefully considered for comparison purposes with the available literature on batch mode assays. This study highlights the importance of considering how the biomass is stored before the anaerobic digestion process to avoid misleading conclusions.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-018-1643-9