This research focuses on the integration of the High-gravity Carbonation Process and electrodeionization technology to simultaneously reduce carbon dioxide emissions, hard water softening, and alkaline waste disposal. The purposes of this study include: (1) Explore the leaching of calcium ions in refining slag with different water samples (2) Study the effects of different operating conditions on carbonation; (3) Verify the feasibility of replacing fresh and carbonated refining slag as supplementary cementitious materials; (5) Evaluate the whole process from environmental, economic and engineering aspects. Refining slag is a by-product of the refining process in the steel industry. Unstable components such as free calcium oxide limit its use as building materials, while concentrate from electrodeionization has a high concentration of calcium. Both raw materials can be used to capture carbon dioxide. In this study, it was found that (1) the leaching process of the refining slag was completed in 15 minutes. (2) Reaction time, liquid-solid ratio and reactor rotation speed have a great influence on carbonation，and the surface coverage model represents the kinetics of carbonation well. In addition, the maximum achievable carbohydrate conversion rate was 69.8%. (3) Compressive strength can be enhanced by adding both fresh and carbonated refining slag. Cement cubes under 15% carbonated refining steel slag under 10% fresh refining slag had better compressive strength than pure Portland cement.