Integrated Approach to Analyze the Compatibility and Performance of Electrokinetic Low-Concentration Acid IOR in Heterogeneous Abu Dhabi Carbonate Reservoirs

Ansari, Arsalan; Haroun, Mohammed; Rahman, Motiur; Chilingar, George V.

doi:10.2118/179599-ms

Cited by 2 publications

(2 citation statements)

References 31 publications

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“…This is demonstrated in Eqs. ( 18)- (20). Equation (20) shows that the ratio of K e /K estimated from laboratory data can be used as a preliminary test for the success of EK-EOR in any given reservoir.…”

Section: Theoretical Basis For Ek-eormentioning

confidence: 99%

“…Some of these studies focused on the ionic interaction of connate water and the reservoir rock mineral surface with electricity [6,51,54,56,59]. Other laboratory investigations performed on both sandstone and carbonate reservoirs reveal that wettability is altered when direct current (DC) is introduced to the reservoir [15,16,20,32,37,64,65]. Despite the claims made by these studies, the question of whether EK-EOR is an effective recovery mechanism in conventional oil reservoirs remains unclear.…”

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confidence: 99%

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Effectiveness of electrokinetic-enhanced oil recovery (EK-EOR): a systematic review

et al. 2022

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Hydrocarbons continue to play an important role in providing affordable energy to meet rising energy demand. Amidst growing concerns on the environmental impact of oil and gas production processes, many researchers are increasingly exploring environmentally sustainable methods of extracting hydrocarbons from the reservoir. The introduction of direct current into the pore space activates mechanisms that enhance fluid flow, reduces produced water, decreases associated hydrogen sulfide production, and leaves no material footprint on the environment. Previous laboratory studies and field applications have reported varying degrees of success of the EK-EOR mechanism. However, the mechanism and effectiveness of this technique remain unclear. This systematic literature review provides an opportunity to critically evaluate laboratory results, establish a basis for the effectiveness of the EK-EOR mechanism and identify possible future research directions. In this study, 52 articles were identified and reviewed in a selection process that adhered to the PRISMA protocol. Data extracted from these articles were fed into the EK-EOR model, and Monte Carlo simulation (10,000 iterations) was used to determine the success rate of the EK-EOR process. Insights obtained from the simulation indicate that EK-EOR alone is not effective (with a success rate of 45%). Insights from published laboratory experiments indicate that interstitial clay affects the electro-osmotic permeability of reservoir rocks which determines the effectiveness of the EK-EOR mechanism. Salt deposition on the cathode and generation of gases (oxygen and chlorine at the anode) are significant limitations of the EK-EOR. The review concludes by identifying future areas of application of EK-EOR.

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Section: Theoretical Basis For Ek-eormentioning

confidence: 99%

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confidence: 99%

Effectiveness of electrokinetic-enhanced oil recovery (EK-EOR): a systematic review

et al. 2022

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Status, Experience, and Inspiration of Unconventional Resources Hydraulic Fracturing Technology

Jie,

Shuai,

Jianmin

et al. 2024

Day 2 Wed, May 08, 2024

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China's recoverable tight/shale oil resources amount up to 32 billion barrels, and 92% of the newfound proven reserves are low/ultra low permeability or unconventional reserves. Complex sedimentary structure & geological conditions, deeper reservoir burial and worse reservoir characteristics, fast decline, low recovery and high cost these all make it very hard to develop these kinds of reservoirs. In this paper, we firstly introduced the geology and reservoir characteristics of unconventional tight/shale oil and tight/shale gas reservoir, compared with North America, the organic-rich shales in China are characterized by large burial depth (about 65% of the shales with a burial depth > 3,500 m), complex surface conditions, and variety of types of organic-rich shale. These characteristics determine that the resource characteristics of these shale oil and gas are different from those of the widely developed in the United States. We summarized the past 30 years’ progress of hydraulic fracturing technology, from vertical well acidizing, vertical well hydraulic fracturing, and horizontal well multi-stage multi-cluster hydraulic fracturing. Small well spacing, dense cutting and 5-6m length per clusters is the optimal artificial fracture spacing for this kind reservoir via Geo.-Eng. integrated fracturing design. Extreme Limited-Entry (XLE) perforation design, 3-8 perforation holes per cluster is best for equilibrium artificial fracture initiation, 6-8 clusters per stage and over 85% fractures can be opened via downhole cameral monitor. P’N’P completion method and soluble well downhole plugs, saving non-pumping time and reducing fracturing costs. Multifunctional fluids and reusable low-cost variable-viscosity slickwater, featured with imbibition mechanism and increase oil recovery. Low-cost quartz sands wildly be used to reduce costs. Factory style hydraulic fracturing mode, increase the fracturing efficiency and reduce on-site organizational costs. The integrated technologies have been widely applied in unconventional wells. Application of the integrated technologies and the experience can be references for the development of similar marginal reservoirs.

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Integrated Approach to Analyze the Compatibility and Performance of Electrokinetic Low-Concentration Acid IOR in Heterogeneous Abu Dhabi Carbonate Reservoirs

Cited by 2 publications

References 31 publications

Effectiveness of electrokinetic-enhanced oil recovery (EK-EOR): a systematic review

Effectiveness of electrokinetic-enhanced oil recovery (EK-EOR): a systematic review

Status, Experience, and Inspiration of Unconventional Resources Hydraulic Fracturing Technology

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