Other language confidence: 0.586879849005215
Surface sediment were extracted 4 times by ultrasonication with dichloromethane: methanol (9:1, v/v) for 15 min for FAs and alkanes. For quantification of FAs and alkanes, known amounts of 19-methylarachidic acid and squalane were added as internal standards prior to extraction. Supernatants from each extraction were obtained by centrifugation and combined. The total lipid extracts were concentrated and evaporated under a nitrogen stream. The total lipid extracts were saponified for 2 h at 80 °C with 1 mL of KOH (0.1 M) in methanol: H2O (9:1, v/v). After saponification, the neutral fractions were liquid-liquid extracted with n-hexane and alkanes were eluted from the neutral fractions by silica gel column chromatography with n-hexane. The remaining KOH solution was acidified to pH 1, from which FA were liquid-liquid extracted into dichloromethane. The extracted and dried FAs were converted to methyl ester derivatives (FAMEs) in methanol: HCl (95:5, v/v) at 60 °C for 12 h. After methylation, the FAME fraction was further purified by silica gel column chromatography using dichloromethane: hexane (2:1, v/v) to remove residual polar compounds. FAMEs and alkanes were analyzed on a 7890A gas chromatograph (GC) equipped with a DB-5MS fused silica capillary column (60 m, 250 µm, 0.25 µm) and a flame ionization detector (FID). Peak areas were determined by integrating the respective peaks and concentrations were calculated against the internal standards. FAME contents were subsequently corrected for the derivative methyl carbon to determine FA contents. FAs and alkanes were normalized to OC content.
Surface sediment were extracted 4 times by ultrasonication with dichloromethane: methanol (9:1, v/v) for 15 min for FAs and alkanes. For quantification of FAs and alkanes, known amounts of 19-methylarachidic acid and squalane were added as internal standards prior to extraction. Supernatants from each extraction were obtained by centrifugation and combined. The total lipid extracts were concentrated and evaporated under a nitrogen stream. The total lipid extracts were saponified for 2 h at 80 °C with 1 mL of KOH (0.1 M) in methanol: H2O (9:1, v/v). After saponification, the neutral fractions were liquid-liquid extracted with n-hexane and alkanes were eluted from the neutral fractions by silica gel column chromatography with n-hexane. The remaining KOH solution was acidified to pH 1, from which FA were liquid-liquid extracted into dichloromethane. The extracted and dried FAs were converted to methyl ester derivatives (FAMEs) in methanol: HCl (95:5, v/v) at 60 °C for 12 h. After methylation, the FAME fraction was further purified by silica gel column chromatography using dichloromethane: hexane (2:1, v/v) to remove residual polar compounds. FAMEs and alkanes were analyzed on a 7890A gas chromatograph (GC) equipped with a DB-5MS fused silica capillary column (60 m, 250 µm, 0.25 µm) and a flame ionization detector (FID). Peak areas were determined by integrating the respective peaks and concentrations were calculated against the internal standards. FAME contents were subsequently corrected for the derivative methyl carbon to determine FA contents. FAs and alkanes were normalized to OC content.
Umesterung von Pflanzenöl zu Methylester (ME), Daten nach #1 Auslastung: 8000h/a Brenn-/Einsatzstoff: Brennstoffe-Bio-flüssig Flächeninanspruchnahme: 7000000m² gesicherte Leistung: 100% Jahr: 2010 Lebensdauer: 20a Leistung: 12,5MW Nutzungsgrad: 95% Produkt: Brennstoffe-Bio-flüssig Verwendete Allokation: Allokation nach Energieäquivalenten
Umesterung von Pflanzenöl zu Methylester (ME), Daten nach #1 Auslastung: 8000h/a Brenn-/Einsatzstoff: Brennstoffe-Bio-flüssig Flächeninanspruchnahme: 7000000m² gesicherte Leistung: 100% Jahr: 2010 Lebensdauer: 20a Leistung: 12,5MW Nutzungsgrad: 95% Produkt: Brennstoffe-Bio-flüssig Verwendete Allokation: Allokation nach Energieäquivalenten
Umesterung von Pflanzenöl zu Methylester (ME), Daten nach #1 Auslastung: 8000h/a Brenn-/Einsatzstoff: Brennstoffe-Bio-flüssig Flächeninanspruchnahme: 7000000m² gesicherte Leistung: 100% Jahr: 2020 Lebensdauer: 20a Leistung: 12,5MW Nutzungsgrad: 95% Produkt: Brennstoffe-Bio-flüssig Verwendete Allokation: Allokation nach Energieäquivalenten
Umesterung von Pflanzenöl zu Methylester (ME), Daten nach #1 Auslastung: 8000h/a Brenn-/Einsatzstoff: Brennstoffe-Bio-flüssig Flächeninanspruchnahme: 7000000m² gesicherte Leistung: 100% Jahr: 2020 Lebensdauer: 20a Leistung: 12,5MW Nutzungsgrad: 95% Produkt: Brennstoffe-Bio-flüssig Verwendete Allokation: Allokation nach Energieäquivalenten
Umesterung von Palmöl zu Methylester (ME), Daten nach #1 Auslastung: 8000h/a Brenn-/Einsatzstoff: Brennstoffe-Bio-flüssig Flächeninanspruchnahme: 7000000m² gesicherte Leistung: 100% Jahr: 2010 Lebensdauer: 20a Leistung: 12,5MW Nutzungsgrad: 95% Produkt: Brennstoffe-Bio-flüssig Verwendete Allokation: Allokation nach Energieäquivalenten
Umesterung von Palmöl zu Methylester (ME), Daten nach #1 Auslastung: 8000h/a Brenn-/Einsatzstoff: Brennstoffe-Bio-flüssig Flächeninanspruchnahme: 7000000m² gesicherte Leistung: 100% Jahr: 2010 Lebensdauer: 20a Leistung: 12,5MW Nutzungsgrad: 91% Produkt: Brennstoffe-Bio-flüssig Verwendete Allokation: Allokation nach Energieäquivalenten
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