Abstract
Microbial fuel cell (MFC) is a bioreactor utilizing bacteria as electrocatalysts to convert bioenergy from biomass into electrical energy. The aim of this research were to determine the effects of the electrode distance on the bacterial density and the electrical value generated by the MFC as well as to evaluate the ability of MFC in reducing the pollutant. Single chamber MFC system with various electrode distances including 2 cm, 4 cm, and 6 cm were assembled. The wastewater of fish pindang processing was used as the medium<br />for the MFC. The results showed that the distance had no effect on the biofilm density of the electrode and the reduction of the wastewater pollutant load. However, the distance affected the electrical value of the<br />MFC. Biofilm density on the MFC electrode after 120 hours was 0.65-6.46 CFU/ cm2. The highest voltage was obtained from the 6 cm electrode distance with the voltage 0.38±0.01 V. Positive correlation (R2 = 0.99)<br />between microbial density and electricity produced at the cathode was observed, but weak at the anoda (R2 = 0.47). The MFC system could decrease the BOD value up to 50.78% and COD up to 33.29%, however the TAN value was increased to 6 mg/L.
Highlights
Sumber energi alternatif pada saat ini sangat dibutuhkan untuk menggantikan energi berbasis fosil karena ketersediaannya terbatas, juga tidak ramah lingkungan
The aim of this research were to determine the effects of the electrode distance on the bacterial density and the electrical value generated by the microbial fuel cell (MFC) as well as to evaluate the ability of MFC in reducing the pollutant
The wastewater of fish pindang processing was used as the medium for the MFC
Summary
Bahan yang digunakan dalam penelitian ini adalah limbah air perebusan ikan pindang yang diperoleh dari CV Cindy Group Bogor, lumpur aktif yang diperoleh dari unit pengolahan limbah Pelabuhan Perikanan Samudera (PPS) Nizam Zachman Jakarta, H2SO4 (Merck), K2Cr2O7 0,25 N (Merck), Ferrous ammonium sulfate [Fe(NH4)2(SO4)2]. Alat-alat yang digunakan dalam penelitian ini adalah jerigen 10 L, gelas ukur 1 L, MFC single-chamber air cathode berbentuk kubus dengan dimensi 7x10x10 cm, kabel, aerator (Recent RC-410), selang, batu apung, pH meter TOA HM-30V (DKK-TOA, Tokyo), DO meter LT Lutron DO-5510 (Lutron, Taipei), botol winkler 250-300 mL (Duran, Mainz), Erlenmeyer (Pyrex, New York), spektrofotometer UV-VIS Optima SP-300 (Optima, Tokyo), gunting kawat, sudip, pipet volumetric (Pyrex, New York), multimeter (UK 830LN), erlemeyer 125 mL (Pyrex, New York), buret (Pyrex, New York), tabung Kjeldahl, alat pemanas, inkubator (Memmert, Schwabach), dan cawan petri (Pyrex, New York)
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