Recently, a lot of researchers considered sediments as non-point sources of heavy metals pollution in waterbody. In the future, a large quantity of dredged sediments are going to be treated. Biotechnology can transform these sediments into resources which can replace physico-chemical treatment. Bioleaching (aerobic) is one of the biotechnologies that has been proved can remove or recover heavy metals from minerals and sludge, but only a few researches are using it in sediments. Besides, when bioleaching is operating, the aeration and stirring machine will increase the cost and the acid-mine drainage will become secondary pollution due to the acid production ability of microorganisms. Therefore, we use anaerobic bioleaching for removal of heavy metals from contaminated sediments. The advantages of this technology are that it is widely used for different kind of minerals, it can be operate without aeration and its low acid production are environmental-friendly as well. This research used facultative anaerobic sulfur oxidizing bacteria to operate anaerobic bioleaching in order to find out a best working parameter and evaluate the workability. This experiment used At. ferrooxidans to operate under different initial pH, sulfur dosage concentration, sediment solid dosage concentration, inoculation dosage and scale up from 800 mL to 2 L in order to evaluate the leaching efficiency. The result revealed that the best working condition is under initial pH 2, 5 g/L of sulfur dosage concentration, 1% of sediment solid dosage, 20% of inoculation dosage, and the leaching efficiency is increased when scale up. While T. denitrificans is used to operate under different initial pH, sulfur dosage concentration and sediment solid dosage concentration. The result revealed that the best working condition for metal leaching is under initial pH 4, 7 g/L of sulfur dosage concentration, and 1% of sediment solid dosage.Although this microorganism able to grow much more successful under initial pH 6, 1 g/L of sulfur dosage concentration, 7% of sediment solid dosage. Initial sediment is combine with heavy meatals mainly by carbonate, and the kind of boundary is the most important factor to meatal leaching. Heavy meatals combined with Fe/Mn oxides is the secondary.