Hydrothermal liquefaction of Malaysia's algal biomass for high-quality bio-oil production
Algae; Atmospheric chemistry; Biofuels; Carbon dioxide; Competition; Dyes; Energy utilization; Environmental impact; Gas emissions; Greenhouse gases; Liquefaction; Planning; Pyrolysis; Sustainable development; Algal biomass; Aqueous environment; Atmospheric carbon dioxide; Competitive advantage; Cru...
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| Format: | Review |
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Wiley-VCH Verlag
2023
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| Summary: | Algae; Atmospheric chemistry; Biofuels; Carbon dioxide; Competition; Dyes; Energy utilization; Environmental impact; Gas emissions; Greenhouse gases; Liquefaction; Planning; Pyrolysis; Sustainable development; Algal biomass; Aqueous environment; Atmospheric carbon dioxide; Competitive advantage; Crude bio-oil; Hydrothermal liquefactions; Microwave assisted; Renewable resource; Biomass; biofuel; carbon dioxide; plastic; aquatic environment; aquatic plant; biofuel; biomass power; carbon dioxide; environmental impact; fossil fuel; greenhouse gas; hydrothermal system; liquefaction; renewable resource; sustainable development; anaerobic digestion; aquatic species; biomass; biomass production; brown alga; Chlorophyceae; diatom; dinoflagellate; energy consumption; fermentation; gasification; heating; liquefaction; Malaysia; marine alga; microwave cooking; moisture; nonhuman; pyrolysis; red alga; Review; seaweed; species diversity; transesterification; Malaysia; algae |
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