This study investigated the microbiologically influenced corrosion (MIC) behavior of carbon steel used for the cooling system in a petroleum refinery in Tao-Yuan, Taiwan. The microbiological techniques were used to analyze the microbiological characteristics of the on-site cooling water. The accelerated MIC tests, including the bacteria culture and electrochemical impedance spectroscopy measurement, in the simulated on-site environments were carried out in the laboratory. Results showed that the amounts of bacteria were different at the different locations in the cooling system. The amounts of the anaerobic bacteria might increase on raising the amounts of the aerobic bacteria, namely the slime forming bacteria. The accelerated MIC tests could rapidly evaluate the effect of bacteria on the corrosion resistance of carbon steel. In the bacterium-containing or polluted environments, the stable biofilm could quickly form onto the carbon steel, leading to an increase in the electrochemical impedance of the metal. The sulfate-reducing bacteria (SRB) inside the biofilm would interact with the carbon steel, resulting in the formation of Fe-S-containing compound. Even though the environment was unsuitable for the formation of biofilm on the metal surface, the pre-existing biofilm on the metal could still apparently continue to grow. In this study, the initial MIC behavior of carbon steel was investigated. An ongoing study is required to understand the long-term MIC behavior of metals.