CD Skripsi
Analisis Potensi Pembentukan Biogas Dari Sampah Organik Universitas Riau Dengan Metode Anaerobik Digester
ABSTRACT
The volume of waste generation is increasing as the consumption of the
Riau University community increases every day, where the processed organic
waste material is 137.16 Kg/day, which has an impact on the accumulation of
waste, especially at the TPS of Riau University. Therefore, an alternative waste
management is needed to reduce the volume of waste that will be transported to
the landfill by processing organic waste into biogas through biodigester
technology. This study aims to design an appropriate anaerobic digester reactor
system to treat the organic waste produced. By using the method of collecting and
processing secondary data, then the right reactor system is selected between the
wet system and the dry system, which is then analyzed economically using the
NPV (Net Present Velue) method. From the results of the economic analysis
carried out, the selected digester was obtained, namely the wet system digester,
because the results of the economic analysis of the wet system reactor had a
higher NPV value than the dry system reactor of Rp. 27,584,143. With the type of
fixed dome reactor with the description: The weight of the processed waste is
137.16 Kg/day; The volume of the raw material room is 8.2296 m3; The volume of
the gas chamber is 4.1148 m3; The total volume of the reactor is 12,344 m3;
Diameter 2,192 m; The reactor height is 2.181 m . The potential gas produced is
about 58.78 m3/day.
Keywords: Organic Waste, Biogas, Biocel Reactor, Fixed Dome Reactor, NPV
(Net PABSTRACT
The volume of waste generation is increasing as the consumption of the
Riau University community increases every day, where the processed organic
waste material is 137.16 Kg/day, which has an impact on the accumulation of
waste, especially at the TPS of Riau University. Therefore, an alternative waste
management is needed to reduce the volume of waste that will be transported to
the landfill by processing organic waste into biogas through biodigester
technology. This study aims to design an appropriate anaerobic digester reactor
system to treat the organic waste produced. By using the method of collecting and
processing secondary data, then the right reactor system is selected between the
wet system and the dry system, which is then analyzed economically using the
NPV (Net Present Velue) method. From the results of the economic analysis
carried out, the selected digester was obtained, namely the wet system digester,
because the results of the economic analysis of the wet system reactor had a
higher NPV value than the dry system reactor of Rp. 27,584,143. With the type of
fixed dome reactor with the description: The weight of the processed waste is
137.16 Kg/day; The volume of the raw material room is 8.2296 m3; The volume of
the gas chamber is 4.1148 m3; The total volume of the reactor is 12,344 m3;
Diameter 2,192 m; The reactor height is 2.181 m . The potential gas produced is
about 58.78 m3/day.
Keywords: Organic Waste, Biogas, Biocel Reactor, Fixed Dome Reactor, NPV
(Net Present Velue)resent Velue)
Ketersediaan
Informasi Detail
- Judul Seri
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- No. Panggil
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07 02. 121 (0088)
- Penerbit
- Pekanbaru : Universitas Riau –Fakultas Teknik – Teknik Lingkungan., 2021
- Deskripsi Fisik
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ix, 79 hlm.; ill.: 29 cm
- Bahasa
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Indonesia
- ISBN/ISSN
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- Klasifikasi
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07 02. 121 (0088)
- Tipe Isi
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- Tipe Media
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- Tipe Pembawa
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- Edisi
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- Subjek
- Info Detail Spesifik
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- Pernyataan Tanggungjawab
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