SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2955972625> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W2955972625 endingPage "195" @default.
W2955972625 startingPage "188" @default.
W2955972625 abstract "Abstract Wet lipid extraction combined with residual biomass anaerobic digestion are alternatives to reduce the overall energy consumption of biodiesel production from microalgae. Solvents with different polarities have been studied to assess dry and wet lipid extraction process from Isochrysis galbana microalga. Ethyl acetate (EA) and a chloroform:methanol (CM) mixture yielded the best lipid extraction results in the dry and wet route with suitable lipid compositions. Fatty acid methyl esters (FAMEs) conversion of dry and wet extracted lipids with these solvents was performed by using both homogeneous (H2SO4) and heterogeneous (resin CT 269) catalysts. FAME production from wet extracted lipids with the EA solvent using the CT-269 resin constitutes an advantageous process because it avoids the water elimination step, and the CT-269 is a heterogeneous commercial catalyst, readily to separate after reaction. Lipid-spent microalga was anaerobically digested, obtaining that waste biomass from the wet extraction with EA had the highest methane yield (310 mL CH4/g volatile solids (VS). Energy balance analysis for FAMEs production with EA solvent (wet route) and heterogeneous catalyst yielded an energy recovery of about 80% in terms of biodiesel and biogas. Therefore, this process constitutes a promising route under an energy-driven microalga biorefinery." @default.
W2955972625 created "2019-07-12" @default.
W2955972625 creator A5019526800 @default.
W2955972625 creator A5033662421 @default.
W2955972625 creator A5034631860 @default.
W2955972625 creator A5037544747 @default.
W2955972625 creator A5048345515 @default.
W2955972625 creator A5048718612 @default.
W2955972625 creator A5051266676 @default.
W2955972625 creator A5053042937 @default.
W2955972625 creator A5054021791 @default.
W2955972625 creator A5063298075 @default.
W2955972625 date "2020-02-01" @default.
W2955972625 modified "2023-10-04" @default.
W2955972625 title "Biodiesel and biogas production from Isochrysis galbana using dry and wet lipid extraction: A biorefinery approach" @default.
W2955972625 cites W1142687015 @default.
W2955972625 cites W1578329775 @default.
W2955972625 cites W1914742802 @default.
W2955972625 cites W1964111823 @default.
W2955972625 cites W1966350276 @default.
W2955972625 cites W1969413109 @default.
W2955972625 cites W1972705875 @default.
W2955972625 cites W1974840189 @default.
W2955972625 cites W1976608019 @default.
W2955972625 cites W1982190208 @default.
W2955972625 cites W1998977829 @default.
W2955972625 cites W2000036252 @default.
W2955972625 cites W2009641245 @default.
W2955972625 cites W2012929166 @default.
W2955972625 cites W2016632250 @default.
W2955972625 cites W2018341779 @default.
W2955972625 cites W2025364885 @default.
W2955972625 cites W2027002860 @default.
W2955972625 cites W2027841839 @default.
W2955972625 cites W2029435419 @default.
W2955972625 cites W2039756525 @default.
W2955972625 cites W2044046583 @default.
W2955972625 cites W2047873424 @default.
W2955972625 cites W2054568455 @default.
W2955972625 cites W2054996236 @default.
W2955972625 cites W2065690933 @default.
W2955972625 cites W2066616315 @default.
W2955972625 cites W2071650948 @default.
W2955972625 cites W2079520104 @default.
W2955972625 cites W2082582023 @default.
W2955972625 cites W2083266229 @default.
W2955972625 cites W2084915434 @default.
W2955972625 cites W2086172955 @default.
W2955972625 cites W2090213326 @default.
W2955972625 cites W2091398298 @default.
W2955972625 cites W2092477249 @default.
W2955972625 cites W2109022733 @default.
W2955972625 cites W2153412974 @default.
W2955972625 cites W2153922477 @default.
W2955972625 cites W2164880402 @default.
W2955972625 cites W2167879973 @default.
W2955972625 cites W2168003071 @default.
W2955972625 cites W2168526937 @default.
W2955972625 cites W2200340603 @default.
W2955972625 cites W2286266111 @default.
W2955972625 cites W2313457106 @default.
W2955972625 cites W2319324527 @default.
W2955972625 cites W2346002767 @default.
W2955972625 cites W2462465438 @default.
W2955972625 cites W2523035688 @default.
W2955972625 cites W2540638788 @default.
W2955972625 cites W2550249979 @default.
W2955972625 cites W2552240155 @default.
W2955972625 cites W2573144477 @default.
W2955972625 cites W2607498056 @default.
W2955972625 cites W2618538050 @default.
W2955972625 cites W2766134377 @default.
W2955972625 cites W3028567665 @default.
W2955972625 cites W414681644 @default.
W2955972625 cites W4233537042 @default.
W2955972625 cites W4239344502 @default.
W2955972625 doi "https://doi.org/10.1016/j.renene.2019.06.148" @default.
W2955972625 hasPublicationYear "2020" @default.
W2955972625 type Work @default.
W2955972625 sameAs 2955972625 @default.
W2955972625 citedByCount "41" @default.
W2955972625 countsByYear W29559726252020 @default.
W2955972625 countsByYear W29559726252021 @default.
W2955972625 countsByYear W29559726252022 @default.
W2955972625 countsByYear W29559726252023 @default.
W2955972625 crossrefType "journal-article" @default.
W2955972625 hasAuthorship W2955972625A5019526800 @default.
W2955972625 hasAuthorship W2955972625A5033662421 @default.
W2955972625 hasAuthorship W2955972625A5034631860 @default.
W2955972625 hasAuthorship W2955972625A5037544747 @default.
W2955972625 hasAuthorship W2955972625A5048345515 @default.
W2955972625 hasAuthorship W2955972625A5048718612 @default.
W2955972625 hasAuthorship W2955972625A5051266676 @default.
W2955972625 hasAuthorship W2955972625A5053042937 @default.
W2955972625 hasAuthorship W2955972625A5054021791 @default.
W2955972625 hasAuthorship W2955972625A5063298075 @default.
W2955972625 hasConcept C127413603 @default.
W2955972625 hasConcept C156380964 @default.