TY  - JOUR
T1  - The Application of Moving Bed-Biofilm Sequencing Batch Reactor System in Decreasing Chemical Oxygen Demand (COD) Concentration on Palm Sugar Industry Wastewater
AU - Rosyadaand, Amrina AU - Moersidik, Setyo S. 
JO  - Journal of Engineering and Applied Sciences
VL  - 12
IS  - 18
SP  - 4752
EP  - 4758
PY  - 2017
DA  - 2001/08/19
SN  - 1816-949x
DO  - jeasci.2017.4752.4758
UR  - https://makhillpublications.co/view-article.php?doi=jeasci.2017.4752.4758
KW  - Moving-bed biofilm sequencing batch reactor
KW  -attached growth
KW  -cod removal efficiency
KW  -detention time
KW  -palm sugar wastewater
AB  - Palm sugar wastewater has a high concentration of COD (3270-3773 mg/L) which exceed the quality standard of Indonesia&#146;s Ministry of Environment and Forestry Law No. 5 of 2014. Moving-bed biofilm sequencing batch reactor is an attached growth system which able to tolerate high concentrations of organic matters in wastewater. This experiment was performed in a lab-scale reactor by varying detention time 12, 18 and 24 h. The ratio of BOD<SUB>5</SUB>/COD before and after the treatment was increased from 0.46-0.69. It happens presumably due to the hydrolysis process which convert the complex organic compound to simple organic compound. During the experiment, the optimum dissolved oxygen was 2.41-2.62 mg/L. The results showed the COD removal efficiency at 12, 18 and 24 h detention time, respectively are 84-89, 86-91 and 88-92%. The decreasing of organic loading rate will result in increased removal efficiency of COD. Therefore, the optimum organic loading rate to reach COD removal efficiency above 88% is in the range of 3.27-4.27 kg COD/m<SUP>3</SUP> day. The highest removal efficiency reached was 92% in 24 h detention time with organic loading, dissolved oxygen and pH effluent, respectively at 3.27 kg COD/m<SUP>3</SUP> day, 2.51 mg/L and 8.6. This study, showed that MBSBR system has an acceptable performance to treat wastewater with a high load of organic carbon at a certain detention time.
ER  - 