Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent
IKMs’ factory activity in Margoyoso produces liquid and solid wastes. The possible alternative was to use the liquid effluent as biogas raw material. This study focuses on the used of urea, ruminant, yeast, microalgae, the treatment of gelled and ungelled feed for biogas production, pH control durin...
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Diponegoro University
2010-12-01
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| Series: | International Journal of Science and Engineering |
| Online Access: | https://ejournal.undip.ac.id/index.php/ijse/article/view/1230 |
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doaj-eca630a2ad1343d4ab3436a3a6b12dee2020-11-24T21:25:57ZengDiponegoro UniversityInternational Journal of Science and Engineering 2086-50232302-57432010-12-0112333710.12777/ijse.1.2.33-37958Biogas Production Using Anaerobic Biodigester from Cassava Starch EffluentS. Sunarso0B. Budiyono1Siswo Sumardiono2Department of Animal Agriculture, Diponegoro University Jalan Prof. Sudharto, Tembalang, Semarang, IndonesiaDepartment of Chemical Engineering, Faculty of Engineering, Diponegoro University Jalan Prof. Sudharto, Tembalang, Semarang, IndonesiaDepartment of Chemical Engineering, Faculty of Engineering, Diponegoro University Jalan Prof. Sudharto, Tembalang, Semarang, IndonesiaIKMs’ factory activity in Margoyoso produces liquid and solid wastes. The possible alternative was to use the liquid effluent as biogas raw material. This study focuses on the used of urea, ruminant, yeast, microalgae, the treatment of gelled and ungelled feed for biogas production, pH control during biogas production using buffer Na2CO3, and feeding management in the semi-continuous process of biogas production that perform at ambient temperature for 30 days. Ruminant bacteria, yeast, urea, and microalgae was added 10% (v/v), 0.08% (w/v), 0.04% (w/v), 50% (v/v) of mixing solution volume, respectively. The pH of slurry was adjusted with range 6.8-7.2 and was measured daily and corrected when necessary with Na2CO3. The total biogas production was measured daily by the water displacement technique. Biogas production from the ungelling and gelling mixture of cassava starch effluent, yeast, ruminant bacteria, and urea were 726.43 ml/g total solid and 198 ml/g total solid. Biogas production from ungelling mixture without yeast was 58.6 ml/g total solid. Biogas production from ungelling mixture added by microalgae without yeast was 58.72 ml/g total solid and that with yeast was 189 ml/g total solid. Biogas production from ungelling mixture of cassava starch effluent, yeast, ruminant bacteria, and urea in semi-continuous process was 581.15 ml/g total solid. Adding of microalgae as nitrogen source did not give significant effect to biogas production. But adding of yeast as substrate activator was very helpful to accelerate biogas production. The biogas production increased after cassava starch effluent and yeast was added. Requirement of sodium carbonate (Na2CO3) to increase alkalinity or buffering capacity of fermenting solution depends on pH-valuehttps://ejournal.undip.ac.id/index.php/ijse/article/view/1230 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
S. Sunarso B. Budiyono Siswo Sumardiono |
| spellingShingle |
S. Sunarso B. Budiyono Siswo Sumardiono Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent International Journal of Science and Engineering |
| author_facet |
S. Sunarso B. Budiyono Siswo Sumardiono |
| author_sort |
S. Sunarso |
| title |
Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent |
| title_short |
Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent |
| title_full |
Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent |
| title_fullStr |
Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent |
| title_full_unstemmed |
Biogas Production Using Anaerobic Biodigester from Cassava Starch Effluent |
| title_sort |
biogas production using anaerobic biodigester from cassava starch effluent |
| publisher |
Diponegoro University |
| series |
International Journal of Science and Engineering |
| issn |
2086-5023 2302-5743 |
| publishDate |
2010-12-01 |
| description |
IKMs’ factory activity in Margoyoso produces liquid and solid wastes. The possible alternative was to use the liquid effluent as biogas raw material. This study focuses on the used of urea, ruminant, yeast, microalgae, the treatment of gelled and ungelled feed for biogas production, pH control during biogas production using buffer Na2CO3, and feeding management in the semi-continuous process of biogas production that perform at ambient temperature for 30 days. Ruminant bacteria, yeast, urea, and microalgae was added 10% (v/v), 0.08% (w/v), 0.04% (w/v), 50% (v/v) of mixing solution volume, respectively. The pH of slurry was adjusted with range 6.8-7.2 and was measured daily and corrected when necessary with Na2CO3. The total biogas production was measured daily by the water displacement technique. Biogas production from the ungelling and gelling mixture of cassava starch effluent, yeast, ruminant bacteria, and urea were 726.43 ml/g total solid and 198 ml/g total solid. Biogas production from ungelling mixture without yeast was 58.6 ml/g total solid. Biogas production from ungelling mixture added by microalgae without yeast was 58.72 ml/g total solid and that with yeast was 189 ml/g total solid. Biogas production from ungelling mixture of cassava starch effluent, yeast, ruminant bacteria, and urea in semi-continuous process was 581.15 ml/g total solid. Adding of microalgae as nitrogen source did not give significant effect to biogas production. But adding of yeast as substrate activator was very helpful to accelerate biogas production. The biogas production increased after cassava starch effluent and yeast was added. Requirement of sodium carbonate (Na2CO3) to increase alkalinity or buffering capacity of fermenting solution depends on pH-value |
| url |
https://ejournal.undip.ac.id/index.php/ijse/article/view/1230 |
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