The development of industry and neo technologies, in addition to benefits for human, they have been major problems and troubles such as air pollution. One of the pollutant gases which is considered more than ever is sulfur dioxide. In this study, the stone wastes (sludge) which are generated in stonecutting factories was used in order to remove sulfur dioxideuse adsorption process. After sampling process, samples were dried and converted to powder form. At the next step, for identifying adsorbent features, XRD, XRF, SEM, FT-IR analysis were done. The experiments of capture of sulfur dioxide were conducted and effects of temperature, humid and sorbent dose were investigated. The results have shed light upon the fact that the major amount of adsorbed sulfur dioxide through raw samples is when the amount of adsorbent is 1 gram and the temperature and humid are respectively 25°C and 10 percent per unit of weight. In such circumstance, the adsorption efficiency of sorbent is 76.3 percent. Then, in order to modify sorbent efficiency, the calcination process was done at varies level of temperature including 400,500,600 and 700°C, in about one hour. After that, for investigation of the effect of temperature intensity during calcination on adsorption efficiency, the experiments were conducted on 1gram of sorbent at the temperature of 25°C and it revealed that the maximum adsorption efficiency is related to the samples which were calcined at 700°C. These samples were able to adsorb 63 percent of sulfur dioxide. At the next step, the impact of humidity were tested. The results have shown that calcined samples with 10 percent of wet can adsorb in about 94 percent of incoming sulfur dioxide to system. Finally, the study of kinetic reaction were done and it was found that the removal of sulfur dioxide by means of stone sludge powder is more consistent with Langmuir- Hinshelwood kinetic model. Keywords : Stone sludge powder, Adsorbent, Sulfur dioxide, Calcination