The Determination of Acid-Rock Reaction Kinetic Equation With Deep-Penetration and Low-Damage Acid
Abstract
Deep-penetration and low-damage host acid is composed of two kinds of organic acids, two kinds of inorganic acid and necessary organic additives, and the concentration is 16%. It is a kind of acid liquid system which has a strong versatility, less damage to the formation, strong acid rock reaction rate, high final dissolution rate, and organic inorganic scaling. In order to determine the reaction rate of the acid and the reaction kinetics equation of deep penetrating low damage acid, the acid rock reaction rate of common acid and deep-penetrating and low-damage acid is studied.
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[1] Gadiyar, B. R., & Civan, F. (1994, February). Acidization-induced formation damage: Experimental and modeling studies. SPE Formation Damage Control Symposium, Lafayette, Louisiana.
[2] Shuchart, C. E. (1995, May). HF acidizing returns analyses provide understanding of HF reactions. Paper presented at SPE European Formation Damage Conference, The Hague, Netherlands.
[3] Mehta, S. (1991, October). Imaging of wet specimens in their state using environmental scanning electron microscope (ESEM): Some examples of importance to petroleum technology. Paper presented at SPE Annual Technical Conference and Exhibition, Dallas, Texas.
[4] Kume, N. (1999). New HF acid system improves sandstone matrix acidizing success ratio by 400% over conventional mud acid system in Niger delta basin. SPE Ann. Tech. Conf. Exhbn., 185-199.
[5] Hill, A. D., Pourmik, M., Zou, C. L., Nieto, C. M., Melendez, M. G., Zhu, D., & Weng, X. W. (2007, January). Small-scale fracture conductivity crated by modern acid-fracture fluids. Paper presented at SPE Hydraulic Fracturing Technology Conference, College Station, Texas, U.S.A.
[6] Mumallah, N. A. (1998, February). Factors influencing the reaction rate of hydrochloric acid and carbonate rock. Paper presented at SPE International Symposium on Oilfield Chemistry, Anaheim, California.
[7] Gdanshi, R. D., & Norman, L. R. (2002). Using the hollow-core test to determine acid reaction rates. SPE Production Engineering, 1(2), 111-116.
DOI: http://dx.doi.org/10.3968/7688
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