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"The microbial desalination cell (MDC) is a modification of the microbial fuel cell (MFC) system. The microbial desalination cell is a sustainable technology to desalinate saltwater by directly utilizing the electrical power generated by bacteria during the oxidation process of organic matter. In this study, tempe wastewater will be used as a substrate. Methylene blue (MB) at concentrations of 100 μM, 200 μM, and 400 μM in the anolyte is added as a redox mediator, and the effect on electricity production and desalination performance are evaluated. The average power density increases by 27.30% and 54.54% at MB concentrations of 100 μM and 200 μM, respectively. On the other hand, the increase of the MB concentration in the anolyte results in a decrease in the salt removal percentage. The observation made using a scanning electron microscope showed the presence of MB adsorption on the surface of the anion exchange membrane (AEM) and is suspected to be the cause of the disruption of anion transfer between MDC chambers causing a decrease in the salt removal percentage."

"The microbial desalination cell (MDC) is a modification of the microbial fuel cell (MFC) system. The microbial desalination cell is a sustainable technology to desalinate saltwater by directly utilizing the electrical power generated by bacteria during the oxidation process of organic matter. In this study, tempe wastewater will be used as a substrate. Methylene blue (MB) at concentrations of 100 ?M, 200 ?M, and 400 ?M in the anolyte is added as a redox mediator, and the effect on electricity production and desalination performance are evaluated. The average power density increases by 27.30% and 54.54% at MB concentrations of 100 ?M and 200 ?M, respectively. On the other hand, the increase of the MB concentration in the anolyte results in a decrease in the salt removal percentage. The observation made using a scanning electron microscope showed the presence of MB adsorption on the surface of the anion exchange membrane (AEM) and is suspected to be the cause of the disruption of anion transfer between MDC chambers causing a decrease in the salt removal percentage."

"Beberapa tahun kedepan Indonesia akan mengalami krisis air, mengingat kebutuhan air terus meningkat setiap tahunnya. Microbial Desalination Cell (MDC) merupakan pilihan teknologi yang baik untuk mendesalinasi air garam menjadi air bersih karena MDC dapat mendesalinasi air sekaligus menghasilkan energi listrik. Limbah cair tempe digunakan sebagai substrat dengan memanfaatkan sumber mikroorganisme didalamnya untuk efisiensi harga operasi. Selama penelitian digunakan limbah tempe model sebelum pada akhir penelitian diganti dengan limbah tempe industri. Untuk meningkatkan kinerja MDC, penelitian ini mengkaji penggunaan larutan buffer fosfat tanpa larutan elektrolit di ruang katoda dengan variasi konsentrasi 0,025 M, 0,05M, 0,1 M dan 0,15 M dan variasi pH buffer fosfat di ruang anoda dengan pH 6,6, pH 7,0, pH 7,4, dan pH 7,8. Hasil terbaik dari penelitian ini didapatkan pada penggunaan limbah tempe model, dengan buffer fosfat konsentrasi 0,1 M , dan pH 6,6 pada buffer fosfat di ruang anoda dengan besar slt removal 11,78% dan besar power density rata-rata yang dihasilkan 23,36 mW/m2.

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The next few years Indonesia will experience a water crisis, because the needs for water continues to increase every year. Microbial Desalination Cell (MDC) is a good choice of technology to desalinate salt water into fresh water because MDC can desalinate water and generating electricity. Tempe wastewater used as a substrate by using their source of microorganisms to efficiency price of operations. During experiment, model tempe wastewater was used before at the end of experiment was replaced with industrial tempe wastewater. To improve the performance of the MDC, this sexperiment examines the use of a phosphate buffer solution without the electrolyte solution in the cathode chamber with various concentration of 0.025 M, 0.05M, 0.1 M and 0.15 M phosphate buffer and the pH variation in the anode chamber with a pH of 6.6 , pH 7.0, pH 7.4 and pH 7.8. The The research shows that MDC using model tempe wastewater, with a concentration of 0.1 M phosphate buffer, pH 6.6 phosphate buffer in the anode chamber give the best performance by salt removal 11.78% and average power density 23 , 36 mW / m2.;"