Akiko Isa scite author profile

Energy requirements for extracting 1-MJ equivalent of hydrocarbons from dehydrated algae cake (water content: 70 %) of Botryococcus braunii was estimated for four feasible hydrocarbon extraction processes for biofuel production from microalgae; hexane extraction, hexane extraction with hydrothermal pretreatment, supercritical carbon dioxide extraction, and DME extraction. Input energy per 1 MJ-equivalent hydrocarbon extraction under the assumed reported conditions was 0.73-1.83 MJ/MJ-equivalent hydrocarbon for the 4 extraction processes, and the input energy required in the optimum case amounted to more than 70 % of the recovered energy. Consideration of methods to reduce the energy required for extraction in each process revealed that the following studies were important: research on increasing the extraction rate of wet microalgae, device design to minimize losses of extraction media, and increased efficiencies of the heat recovery and power recovery equipment.

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Enhancement of Heat Transfer Rate and Thermal Efficiency by Combining Far Infrared Heating with Superheated Steam Treatment

Isa

Hagura

Suzuki

2006

Japan J. Food Eng.

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Investigation of Carbonization Energy for Waste Biomass in Superheated Steam Combined with Far-infrared Heating

2011

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Akiko Isa

Preliminary Study on Ethanol Production by Using Macro Green Algae

Size Effect of Biomass on Carbonization Rate Treated in Superheated Steam Combined with Far Infrared Heating

Estimation of Energy for Hydrocarbon Extraction in Biofuel Production from Microalgae

Enhancement of Heat Transfer Rate and Thermal Efficiency by Combining Far Infrared Heating with Superheated Steam Treatment

Investigation of Carbonization Energy for Waste Biomass in Superheated Steam Combined with Far-infrared Heating

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