Improved Understanding of Acid Wormholing in Carbonate Reservoirs through Laboratory Experiments and Field Measurements

Burton, Robert C.; Nozaki, Manabu; Zwarich, Nola R.; Furui, Kenji

doi:10.2118/191625-pa

Cited by 18 publications

(2 citation statements)

References 65 publications

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“…As a basic variant of acid in the study let's use acetic (ethanoic) acid [4,8,9] repeatedly described in the lite-rature at a concentration of 20 % in solution with a carrier. The main advantages of acetic acid are low reaction rate, which is important for high-temperature collectors, high stability, compatibility with basic solvents.…”

Section: Methods Of Researchmentioning

confidence: 99%

Improvement of acid solutions for stimulation of compacted high-temperature carbonate collectors

Zimin

2021

TAPR

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The object of research in this work is the intensification of hydrocarbon production. The most problematic task of the study is the efficiency of intensification of compacted high-temperature carbonate reservoirs. Despite the gradual transition to renewable energy sources, natural gas and oil will play a dominant role in the world's energy balance in the next 20–30 years. Carbonate rocks have significant mining potential, but low filtration properties require intensification to improve reservoir permeability. High temperatures and pressures at great depths require the improvement of existing hydrocarbon production technologies. The most popular method for treating reservoirs containing carbonates is acid treatments in different variations, but for effective treatment it is necessary to achieve deep penetration of the solution into the formation. The study solves the problem of selection of effective carrier liquids for the preparation of acid solutions for the treatment of compacted high-temperature reservoirs with high carbonate content. To ensure quality treatment, acid solutions must have low viscosity and surface tension coefficient, low reaction rate, their chemical properties must ensure the absence of insoluble precipitates in the process of reactions with fluids and rocks, as well as be environmentally friendly. To select the most optimal carrier liquid, experiments were conducted to determine which candidate liquids provide the minimum reaction rate of acidic solutions with carbonates. Based on the analysis of industrial application data and literature sources, water, nephras, methanol, ethyl acetate, and methyl acetate were selected for further research. Widely studied acetic acid was chosen as the basic acid. Studies have shown that methyl acetate has a number of advantages, namely low reaction rate, low viscosity and surface tension coefficient. As well as the possibility of hydrolysis in the formation with the release of acetic acid, which significantly prolongs the reaction time of the solution with the rock and the depth of penetration of the active solution into the formation.

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Section: Methods Of Researchmentioning

confidence: 99%

Improvement of acid solutions for stimulation of compacted high-temperature carbonate collectors

Zimin

2021

TAPR

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“…They observed that as a hydraulic fracture approaches a natural fracture, the natural fracture simultaneously experiences compressive (the region of the natural fracture shadowed by the hydraulic fracture) and tensile (the region of the natural fracture in front of the hydraulic fracture) stresses which can further result in the partial failure of the natural fracture and in both the crossing and the intersection of the hydraulic fracture with the natural fracture [14]. The presence of natural fractures in carbonate reservoirs, which are candidates for acid fracturing, tend to reduce the productivity of acid fractured wells, because the natural fractures increase leakoff, which causes the main hydraulic fracture to be shorter [15,[37][38][39][40][41]. Alsulaiman et al (2020) developed a model to explain acid (reactive fluid system) distribution in hydraulic and intersecting natural fractures and then used it to explain the complex interactions of acid fractures in naturally fractured carbonate formations and to optimize acid fracture design parameters.…”

Section: Relationship Between Hydraulic Fractures and Natural Fracturesmentioning

confidence: 99%

Fracturing Fluids and Their Application in the Republic of Croatia

Gaurina-Međimurec

Brkić

Topolovec³

et al. 2021

Applied Sciences

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Hydraulic fracturing operations are performed to enhance well performance and to achieve economic success from improved production rates and the ultimate reserve recovery. To achieve these goals, fracturing fluid is pumped into the well at rates and pressures that result in the creation of a hydraulic fracture. Fracturing fluid selection presents the main requirement for the successful performance of hydraulic fracturing. The selected fracturing fluid should create a fracture with sufficient width and length for proppant placement and should carry the proppant from the surface to the created fracture. To accomplish all those demands, additives are added in fluids to adjust their properties. This paper describes the classification of fracturing fluids, additives for the adjustment of fluid properties and the requirements for fluid selection. Furthermore, laboratory tests of fracturing fluid, fracture stimulation design steps are presented in the paper, as well as a few examples of fracturing fluids used in Croatia with case studies and finally, hydraulic fracturing performance and post-frac well production results. The total gas production was increased by 43% and condensate production by 106% in selected wells including wellhead pressure, which allowed for a longer production well life.

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Carbonate matrix stimulation

Ziauddin

2022

Fluid Chemistry, Drilling and Completion

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Improved Understanding of Acid Wormholing in Carbonate Reservoirs through Laboratory Experiments and Field Measurements

Cited by 18 publications

References 65 publications

Improvement of acid solutions for stimulation of compacted high-temperature carbonate collectors

Improvement of acid solutions for stimulation of compacted high-temperature carbonate collectors

Fracturing Fluids and Their Application in the Republic of Croatia

Carbonate matrix stimulation

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