The Air and Energy Engineering Research Laboratory (AEERL) has been investigating the injection of dry calcium hydroxide into combustion streams for the removal of sulfur oxides. It has been known, for some time, that the reactivity of Ca(OH)2 with sulfur oxides varies over a wide range for different batches of calcium hydroxide. The reactivity is a critical factor in the economics of the process. Because of this it is desirable to have a method to predict the reactivity of calcium hydroxide batches. The reactivity can be affected by many factors including the origin of the calcium carbonate mineral from which the hydroxide is produced, the production conditions, and the concentration of additives used for reactivity enhancement. It has been theorized that all of the preceding contribute to such physical characteristics as surface area, particle size, and porosity. The examination of these physical characteristics has provided the basis for understanding the reaction processes but has net provided all the factors necessary to correlate intrinsic sorbent characteristics with reactivity.