From our previous reports, Rhodococcus erythropolis strain NTU-1 isolated from oil-contaminated sludge efficiently removed 90 % of hydrocarbon pollutants such as normal and branched alkanes within 2 days via biodegradation and biosorption. In this study, NTU-1 was further evaluated for the purpose of practical application. R. erythropolis NTU-1 maintained its biodegradability and the formation of biofloccules characteristic under saline conditions (1.2-3.6% NaCl), as well as in sea water. After 68 h of incubation under saline conditions, 80-90 % removal of n-hexadecane (2000 ppmv) was achieved with 50-60% of biodegradation and 30-35% of biosorption. In sea water, about 50 % of n-hexadecane was removed within 140 h. Addition of NB (0.24 g/L) in culture medium facilitated the cell growth and also aggregation. Besides, in batch cultures with 1 % diesel or crude oil, approximately 90% removal was achieved within 4 days (about 30 % of biodegradation and 60 % of biosorption). NTU-1 could degrade C10–C32 of n-alkanes in diesel oil or crude oil. Moreover, NTU-1 utilized the n-hexadecane at relatively high concentration (1-10 %) with fast degradation rate. In bioreactors with aeration, medium exchange and pH adjustment, an intermittent feed (42000 ppmv n-hexadecane; 35000 ppmv diesel and crude oil) resulted in approximately 85-90 % removal within 2-4 weeks (25-35% of biodegradation and 50-60 % of biosorption). During the biodegradation, the amount of H+ ions released corresponded well to the carbon-chain length of the n alkanes (either n-tetradecane, n-hexadecane or n-octadecane). With the relationship, n-alkanes consumption could be reasonably estimated by monitoring pH changes in the medium. This procedure presented a convenient alternative as compared with some complex or expensive method such as organic solvent extractions and gas chromatography analysis. The amount of H+ ions released correlated well with the carbon-chain length of the n alkanes. The results showed that Rhodococcus erythropolis NTU-1 possessed great potential in bioremediaition process of sites polluted with petroleum pollutants.