A Placement Model for Matrix Acidizing of Vertically Extensive, Heterogeneous Gas Reservoirs

Nozaki, Manabu; Hill, A.D.

doi:10.2118/124881-ms

Cited by 5 publications

(1 citation statement)

References 15 publications

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“…A definição da condutividade mínima foi definida como 1000 mD.ft (300 mD.m) como valor mínimo aceitável para que o faturamento ácido seja considerado uma opção de estimulação melhor do que a acidificação matricial (Nozaki et al, 2009 • Tensão efetiva mínima representando a condição inicial do reservatório, definida como a diferença entre a tensão de fechamento e a pressão no interior da fratura e nos espaços entre grãos, que numa condição estática (sem fluxo), equivale à pressão de poros original, ou seja:…”

Section: Análise Dos Dados Experimentaisunclassified

Estudos De Métodos Indiretos Na Determinação De Condutividade De Fraturas Ácidas Em Carbonatos Profundos

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Section: Análise Dos Dados Experimentaisunclassified

Estudos De Métodos Indiretos Na Determinação De Condutividade De Fraturas Ácidas Em Carbonatos Profundos

GAMA¹

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The Effect of Spent Acid on Carbonate Rock Wettability

et al. 2010

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This is an experimental study aimed at improving the recovery of spent acid in carbonate gas reservoirs. When acidizing, the spent acid penetrates deeper into the formation beyond the stimulated zone. The spent acid needs to be removed in order to restore the permeability to gas and enhance well performance. One of the most important factors that control spent acid recovery is rock wettability. In this study, we investigate the changes in the wettability of carbonate rocks when invaded by spent acid experimentally. These changes in the wettability are due to the various additives that are added to the acid treatment. In this paper, we explain quantitatively the effect of wettability on spent acid recovery and we present experimental results on the effect of spent acid on carbonate rock wettability. Our results show that carbonate rocks are not strongly water-wet; spent acid (HCl) by itself does not change wettability of the rock; some commonly used additives can change the wettability of the rock either towards stronger water-wetting or less water-wetting. To the best of our knowledge, there is no published data on the effect of spent acid on rock wettability and how that relates to the rate of recovery and its ultimate value.

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The Effect of Spent Acid on Carbonate Rock Wettability

Saneifar

2009

SPE Annual Technical Conference and Exhibition

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This paper was presented as part of the student paper contest associated with the 2009 SPE Annual Technical Conference and Exhibition. Abstract This is a study aimed at improving the efficiency of the matrix acidizing process, a well stimulation procedure applied to thousands of wells annually around the world. In these treatments, aqueous solutions of strong acid are injected into the formation. The injected water, which is referred to as spent acid after it reacts with the formation, will penetrate deeper into the formation beyond the stimulated zone. The spent acid needs to be easily removed so that the permeability to oil or gas can be restored. The time required for the cleanup of the spent acid from the formation depends on the formation permeability as well as the wettability and relative permeability characteristics. An investigation of the possible changes in the wettability of the carbonate rock due to the invasion of spent acid and as a result of the additives added to the acid treatment showed that the carbonate rock by itself is relatively water wet and spent HCl does not change wettability of the rock. Experiments were further repeated with Zonly-8740, as a surface tension reducer additive and showed that Zonly-8740 changes wettability to gas wetting. A future plan is underway to investigate the effect of various additives and to study the long term effect on the wettability at reservoir conditions. Introduction The permeability in the region around the wellbore is commonly reduced during drilling, completion, and production by the invasion of solid particles entrained in the fluids used in these processes. As a result of this reduction in near-well permeability, commonly known as formation damage, the productivity of the well is often greatly impaired. Successful matrix acidizing treatments can overcome this damage effect, and even increase the well productivity over that of the undamaged reservoir (Economides et al., 1994). However, for an acidizing treatment to have its full effect, the water that carries the reactive species into the formation must be recovered, so that the permeability to oil and gas are not impaired by the increased water saturation around the well.

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A Placement Model for Matrix Acidizing of Vertically Extensive, Heterogeneous Gas Reservoirs

Cited by 5 publications

References 15 publications

Estudos De Métodos Indiretos Na Determinação De Condutividade De Fraturas Ácidas Em Carbonatos Profundos

Estudos De Métodos Indiretos Na Determinação De Condutividade De Fraturas Ácidas Em Carbonatos Profundos

The Effect of Spent Acid on Carbonate Rock Wettability

The Effect of Spent Acid on Carbonate Rock Wettability

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