Faculty of Engineering

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Browsing Faculty of Engineering by Subject "Alkalinity"

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    KESTABILAN BIOREAKTOR HIBRID ANAEROB BERMEDIA BATU PADA KONDISI START-UP DALAM PENGOLAHAN LIMBAH CAIR PABRIK SAGU
    (2013-02-08) Gharaufi, Hadzalie; Ahmad Adrianto; Bahruddin
    Meranti Islands is known as sago-producing districts in Riau Province. Developments in the field of agriculture and agricultural industry often result in increased agricultural wastes most of which contain organic compounds. Liquid waste containing organic compounds in biological systems can be processed by aerobic or anaerobic systems. The way of handling the problem of wastewater treatment can be done by using a hybrid anaerobic bioreactor. The stability of hybrid anaerobic bioreactor treating wastewater in sago indicated by the ratio of the concentration of volatile acids and alkalinity levels. This study uses as a sago factory wastewater using bioreactors susbtrat rock hybrid of media. . The purpose of this study was to determine the stability of hybrid anaerobic bioreactor mediated cubes in starch processing wastewater at start-up and also to determine the optimum start-up time. Volume of work hybrid bioreactor used in this study was 10 L with a hydraulic residence time (WTH), which is 5 days during conditions of start-up parameters observed in this study is the concentration of volatile acidity and alkalinity, and look at the ratio of TAV / alkalinity in the bioreactor with rock media. Observations were made at an interval of 2 days to reach steady state. The results of this study indicate the stability of hybrid anaerobic bioreactor mediated rocks at start-up conditions is 0,006 on day 54. These results indicate that the hybrid anaerobic bioreactor has a high level of stability.
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    Pengaruh Laju Alir Umpan Terhadap pH dan Alkalinitas Limbah Cair Sagu dalam Bioreaktor Hibrid Anaerob Bermedia Batu pada Kondisi Tunak
    (2012-10-23) Lestari, Yuliza Fuji; Ahmad Adrianto; Chairul
    In producing sago flour takes 20,000 liters of water per ton of starch, where 94% of the water would be liquid waste, so about 19,000 liters of wastewater generated sago starch per ton When directly discharged into the water on a continuous basis it could lead to pollution of the waters. The way of handling the problem of wastewater treatment can be done by using a hybrid anaerobic bioreactor mediated stones. One of the factors that influence of the anaerobic process success is pH and alkalinity. The purpose of this research to determine the effect of feed flow rate on pH and alkalinity in anaerobic hybrid bioreactor at steady state by looking at the pH and alkalinity parameters and determine the optimum conditions for anaerobic processes. Process variables measured were feed flow rate of 2.5 L / day, 3.3 L / day, 5 L / day, and 10 L / day operating conditions at room temperature and the bioreactor working volume 10 L. The results showed that the optimum feed flow rate obtained on 2.5 L / day with an average pH of 6.8 and alkalinity of 2280 mg / L.