Advanced sandstone-acidizing designs with improved radial models

With the intent of encouraging and helping the reader to design a radial mo del tailored to a particular use, this paper discusses and describes radial models that have proved useful in exploring and simplifying the applicatio n of the kinetics of sandstone acidizing. With the recent development of a comprehensive theory for the complete chemistry and kinetics of sandstone a cidizing, it was appropriate to develop useful radial models for exploring and simplifying the application of the new technology. These radial models were designed to accommodate both the positive and negative aspects of the recent discoveries. These discoveries included ion-exchange transformation of brines, decomposition of clays in hydrochloric acid, precipitation of fl uosilicates, removal of carbonate to prevent the precipitation of complex a luminum fluorides (AlFx's), silica-gel filming, colloidal silica-gel precip itation, precipitation of the various complex AlFx's, mixing between the va rious stages of the treatment, damage removal, permeability modeling, and s kin evolution. Calculations were initially performed with a comprehensive w orkstation-based computer model so that the magnitude of the various effect s could be measured. These calculations showed that many negative effects c ould be minimized or eliminated by special design considerations. A PC-base d model was then written that could help design engineers avoid serious pro blems when acidizing sandstone formations and provide them with visual guid ance to some of the other issues that were relevant. This avoiding problems approach for the PC-based radial model provided a powerful basis for intro ducing advanced designs for sandstone acidizing that have dramatically impr oved the success rates of field treatments. In addition to choosing the cor rect HF fluid to avoid secondary precipitations, considerations for choice of preflushes to condition the formation proved essential. Proper choice of preflush is based on acid stabilities of the clays, carbonate removal, and the avoidance of deep clay swelling. Appropriate acid-preflush volumes hel p ensure carbonate removal for at least 24 in, and provide sufficient fluid spacing between formation brine and the spent HF fluids at the end of the treatment.