Warm-Air Coking - A New Completion Method for Unconsolidated Sands

Terwilliger, P.L.; Smith, Frederick M.; Goodwin, Robert J.

doi:10.2118/630-pa

Cited by 8 publications

(2 citation statements)

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“…37 In unconsolidated formations containing reservoir oils with cokable residues, injection of warm air results in the deposition of an insoluble coke or resin that cements the sand grains in place. A novel consolidation method done in situ without plastic eliminates some of the disadvantages of plastic-consolidation methods.…”

Section: Sand Controlmentioning

confidence: 99%

An Overview of Formation Damage and Well Productivity in Oilfield Operations

Krueger¹

1986

Journal of Petroleum Technology

158

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Almost every field operation is a potential source of damage to well productivity. This paper provides a broad overview of the nature of formation damage problems, how they occur during various oilfield operations, and their effects on well productivity.Diagnosis of formation damage problems has led to the conclusion that formation damage is usually associated with either the movement and bridging of fine solids or chemical reactions and thermodynamic considerations. The fine solids may be introduced from wellbore fluids or generated in situ by the interaction of invading fluids with rock minerals or formation fluids.Control of formation damage requires proper design of treating fluids for chemical compatability and strict quality control of fluid physical and chemical properties during treatment. The use of treating fluid filtration, clean work strings (pipe), and inhibited fluids has been shown to be important in the control of formation damage during well treatment.Journal of Petroleum Technology, February 1986 JPT This paper is SPE 10029. Distinguished Author Series articles arc general, descriptive presentations that summarize the state of the art in an area of technology by describing recent developments for readers who are not specialists in the topics di~cusscd. Written by individuals recognized as experts in the areas, these articles provide key references to morc definitive work and present specific details only to illustrate the technology, Purpose: To inform the general readership of recent advances in various areas of petroleum engineering. A softbound anthology, SPE Distinguished Author Series: Dec.

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Section: Sand Controlmentioning

confidence: 99%

An Overview of Formation Damage and Well Productivity in Oilfield Operations

Krueger¹

1986

Journal of Petroleum Technology

158

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“…The rock strength improvement techniques through chemical consolidation are also known to the petroleum industry, mainly applied to sandstone formations to prevent the production of unconsolidated sand particles that could cause tubing erosion and plugging of surface facilities, which impair hydrocarbons extraction . The consolidation via in situ combustion or applying chemicals such as silicates, resins, or SiO 2 nanoparticles are the most commonly utilized practices in most sandstone formations. − There are sparse records on such practices applied to carbonate formations which represent a significant part of the world’s producing reservoirs that contain about 40% of gas and 60% of global oil reserves.…”

Section: Introductionmentioning

confidence: 99%

Carbonate Rock Chemical Consolidation Methods: Advancement and Applications

et al. 2022

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Chemical consolidation of rocks is a common practice in the petroleum industry. Usually, this technique is applied to sustain production from unconsolidated or weak sandstone formations and to avoid collapse from aging wells. Recent research has shown the significance of rock hardness in sustaining long-term conductivity of hydraulic fractures in carbonate formations. There are some notable attempts to adapt the techniques used in the cultural heritage industry for strengthening carbonate formations. Moreover, a novel carbonate rock strengthening methodology was developed that involves the mineral transformation of calcite to harder minerals. This work describes the existing techniques for carbonate rock consolidation and provides extensive research on chemicals that are (or can be) used as carbonate rock strengthening agents. Furthermore, this review provides the reaction mechanisms associated with a range of proposed chemicals. Also, laboratory methods that can be used to assess post-treatment hardness and investigate the changes in rock mineralogy are summarized. Finally, the review discusses chemicals with the prospect of their application in petroleum field operations.

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Simulation of edge water invasion mitigation of the SAGD chamber by low temperature oxidation (LTO) coking air injection and optimization of operating parameters

Huang,

Jiang

et al. 2024

Geoenergy Science and Engineering

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Warm-Air Coking - A New Completion Method for Unconsolidated Sands

Cited by 8 publications

References 0 publications

An Overview of Formation Damage and Well Productivity in Oilfield Operations

An Overview of Formation Damage and Well Productivity in Oilfield Operations

Carbonate Rock Chemical Consolidation Methods: Advancement and Applications

Simulation of edge water invasion mitigation of the SAGD chamber by low temperature oxidation (LTO) coking air injection and optimization of operating parameters

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