Effect of sulfuric acid pretreatment on biogas production from Salvinia molesta

•Pretreatment decreased and increased the fiber and non-fiber carbohydrate respectively.•Pretreatment produced higher total biogas yield than unpretreatment case.•Pretreatment using concentration of 2–4% decreased the lag time in biogas production.•Pretreatment using concentration 6% caused the long...

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Published inJournal of environmental chemical engineering Vol. 7; no. 1; p. 102857
Main Authors Syaichurrozi, Iqbal, Villta, Putri Kurnia, Nabilah, Nabilah, Rusdi, Rusdi
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2019
Subjects
Biogas
Pretreatment
Salvinia molesta
Sulfuric acid
Salvinia molesta
Biogas
Pretreatment
Sulfuric acid
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Abstract •Pretreatment decreased and increased the fiber and non-fiber carbohydrate respectively.•Pretreatment produced higher total biogas yield than unpretreatment case.•Pretreatment using concentration of 2–4% decreased the lag time in biogas production.•Pretreatment using concentration 6% caused the long lag time in biogas production.•Modified Gompertz was more suitable than first order kinetic model. The effect of sulfuric acid pretreatment on biogas yield from Salvinia molesta (SM) was studied. The sulfuric acid concentration was varied to be 2, 4, 6% v/v. Pretreatment was carried out under batch system at room temperature and pressure of 1 atm for two days. Then, the digestion was carried out for 30 days under batch system at room temperature and pressure of 1 atm. The pretreatment decreased the lignin content and increased the nitrogen free extract content (non-fiber carbohydrate). The more the sulfuric acid concentration, the more the change of these contents. Furthermore, cumulative biogas yield from pretreated SM using sulfuric acid 2–6% (22.72–24.14 mL/g VS) was higher than that from raw SM (13.28 mL/g VS). For digestion during 30 days, the best pretreatment was 4% because it produced the highest total biogas yield (24.14 mL/g VS) and had very short lag time (0 day). The measured data was simulated using the modified Gompertz and first order kinetic model. The calculation showed that the modified Gompertz model (error 6.141–12.431%) was better than the first order kinetic model (error 7.336–47.606%).
AbstractList •Pretreatment decreased and increased the fiber and non-fiber carbohydrate respectively.•Pretreatment produced higher total biogas yield than unpretreatment case.•Pretreatment using concentration of 2–4% decreased the lag time in biogas production.•Pretreatment using concentration 6% caused the long lag time in biogas production.•Modified Gompertz was more suitable than first order kinetic model. The effect of sulfuric acid pretreatment on biogas yield from Salvinia molesta (SM) was studied. The sulfuric acid concentration was varied to be 2, 4, 6% v/v. Pretreatment was carried out under batch system at room temperature and pressure of 1 atm for two days. Then, the digestion was carried out for 30 days under batch system at room temperature and pressure of 1 atm. The pretreatment decreased the lignin content and increased the nitrogen free extract content (non-fiber carbohydrate). The more the sulfuric acid concentration, the more the change of these contents. Furthermore, cumulative biogas yield from pretreated SM using sulfuric acid 2–6% (22.72–24.14 mL/g VS) was higher than that from raw SM (13.28 mL/g VS). For digestion during 30 days, the best pretreatment was 4% because it produced the highest total biogas yield (24.14 mL/g VS) and had very short lag time (0 day). The measured data was simulated using the modified Gompertz and first order kinetic model. The calculation showed that the modified Gompertz model (error 6.141–12.431%) was better than the first order kinetic model (error 7.336–47.606%).
ArticleNumber 102857
Author Nabilah, Nabilah
Villta, Putri Kurnia
Rusdi, Rusdi
Syaichurrozi, Iqbal
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Keywords Salvinia molesta
Biogas
Pretreatment
Sulfuric acid
Language English
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SubjectTerms Biogas
Pretreatment
Salvinia molesta
Sulfuric acid
Title Effect of sulfuric acid pretreatment on biogas production from Salvinia molesta
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