The purposes of this study are to investigate the removals of color and dissolved organic carbon (DOC) by ferric coagulation, the Fenton and Fenton-like coagulation processes, to compare the removal mechanisms of color and DOC among three processes. The synthetic colored wastewater samples were prepared from 100 mg/L of a red reactive azo dyestuff, Red H-E3B, and contained color and DOC were 6,500 uint (expressed by ADMI method) and 16.5 mg/L, respectively. The experimental variables studied include dosages of iron salts (ferrous and ferric) and hydrogen peroxide (H2O2), pH. All experiments were conducted by the Jar test. Furthermore, the experiments for comparing the removal mechanisms among three processes were controlled at pH of 4. The result showed that optimum pH for color removal occurred at pH 3-5 and at pH 2-4 by ferric coagulation and the Fenton coagulation, respectively. The color removal can reach more than 80% by both ferric and the Fenton coagulation processes. The color removals by the Fenton and Fenton-like coagulation were markedly better than ferric coagulation. The ratio of color removal efficiency, expressed by color removed per iron dosage, between the Fenton, Fenton-like and ferric coagulation was 10.5. However, the DOC removals were the same among three processes. Since the Fenton and Fenton-like coagulation have dual functions of the hydroxyl radical(OH●) oxidation and ferric coagulation, the OH● oxidation can effectively remove color, but the removal of DOC was poor. In the presence of low iron dosages, more than 90% of color can be removed mainly by the OH● oxidation, whereas, only 25% of DOC was poorly removed by the Fenton and Fenton-like coagulation processes. In the presence of high dosages, the DOC removals can reach to more than 90% by both the Fenton and Fenton-like coagulation processes. Moreover, it was observed that the removal of DOC was mainly by ferric coagulation but the OH● oxidation. Besides, comparing the color removal mechanisms between the Fenton and Fenton-like coagulation processes, the ratio of color removal by the OH● oxidation and ferric coagulation was 4 to 1 for the Fenton coagulation. In contract, it was 4 to 1 for the Fenton-like coagulation. Therefore, it demonstrated that the color removal was mainly by the OH● oxidation and ferric coagulation, respectively, by the Fenton and Fenton-like coagulation. It is concluded that the DOC was mainly removed by ferric coagulation but the OH● oxidation. Both the Fenton and Fenton-like coagulation processes were better used for color removal but DOC removal.