Dyeing industry which is one of the highly polluting industries produces a great quantity of high color and high salinity wastewater. Chemical coagulation is generally the most cost-effective process. In most factories, calcium hydroxide is extensively used as coagulants since it can provide alkalinity and absorb dye compounds resulting in significantly reducing color in dye wastewater. However, a large amount of waste sludge is produced during the addition of calcium hydroxide in dye wastewater. Moreover, during the preparation of calcium hydroxide coagulants, calcium hydroxide fine particles are easily suspended in the air which is harmful for the workers. Therefore, in this study, the feasibility of replacing calcium hydroxide by calcium chloride as an alternative coagulant was investigated in treating dye wastewater. In this study, a real stream of dye wastewater and composite dye wastewater were applied to compare the coagulation performance using calcium hydroxide and calcium chloride. The results showed that the removal performance of COD and color in addition of calcium hydroxide and calcium chloride as coagulants were similar in a single stream of dye wastewater or integrated dye wastewater. Nevertheless, in addition of calcium chloride resulted in less sludge production and prevention in over dosage. Although the experimental data showed that higher dosage of calcium chloride had little effect on COD removal, in some wastewater, addition of higher dosage of calcium chloride can improve decolorization. In jar tests, the optimal dosage of calcium chloride and ferrous sulfate were 2.6 g/L and 5.7 g/L, respectively. And the calcium chloride dosing point was right after adding the ferrous sulfate. In real wastewater application, it was found that the cost of treating per ton of dye wastewater was cheaper by using calcium chloride than calcium hydroxide, mainly due to a 32% reduction of sludge. Furthermore, by using calcium chloride as the alternative coagulant, it can improve the sludge dewaterability, floc settlement and reduce sludge production.