In the treating of large amount of phenolic wastewater, biological treatment would be more economical and less sludge production. Also phenol could be completely decomposed into substances that are harmless to the environment. The main shortcoming of biodegradation of high concentrated phenol wastewater would be the inhibition of phenol to the growth of micro-organism even though phenol is the only carbon and energy source. The biodegradation of phenolic wastewater by activated sludge in a batch reactor was studied. At low phenol concentration 150 mgL^(-1), with different MLSS concentration, there was a difference in the degradation rate by raw activated sludge. However, this was not observed in the case of the acclimatized activated sludge. But at high phenol concentration 2,000 mgL^(-1), this trend was again observed. To simulate the concentration of MLSS in membrane bio-reactor, raised the MLSS concentration to 8,000 mgL^(-1) to investigate the effect of phenol concentration on the degradation rate. It was found that even at the concentration 3,000 mgL^(-1), phenol could be decomposed at both cases of raw and acclimatized sludge. Apparently, acclimatized sludge had a higher rate than that of raw sludge. In the case of 2,500 mgL^(-1), the decomposition time by acclimatized sludge was only 50 hours which is short than 80 hours by raw sludge. This outcome could be useful for the rational design of a continuous membrane bioreactor to treat the high phenol concentration wastewater.