Scale Deposition and Hydrodynamics - Benchtop to Pilot Rig

Goodwin, Neil; May, Mark A.; Nichols, David A.; Graham, Gordon Michael

doi:10.2118/190756-ms

Cited by 5 publications

(2 citation statements)

References 17 publications

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“…In conventional dynamic TBTs, the phenomena of supersaturation, precipitation, and adhesion occur in the scaling coil also referred to as a loop, with a shorter contact time (around 10 s) in these laminar flow systems. According to Goodwin et al [5], in standard TBT dynamic tests, scale is formed under laminar flow and shear conditions. However, these conditions are not representative of the turbulent high shear fluxes that are frequently encountered during oil and gas production.…”

Section: Discussionmentioning

confidence: 99%

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Evaluation of Calcium Carbonate Inhibitors Using Sintered Metal Filter in a Pressurized Dynamic System

2019

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Calcium carbonate scale is formed during oil and gas production. Tube-blocking tests (TBTs) are used to define the minimum inhibitory concentration (MIC) in order to prevent scale adhesion in the petroleum production system equipment. However, non-adhered crystals may favor heterogeneous nucleation to other deposits such as calcium naphthenates, causing a more severe scale problem, increasing production losses and treatment costs. The objective of the present work was to develop a new dynamic test methodology to determine the MIC for CaCO3 using a sintered metal filter. Organophosphorus inhibitors were selected for comparison with the conventional dynamic tube-blocking system. The results demonstrated that the use of the filter allowed an MIC of the inhibitors to be obtained considering the precipitation prevention. The inhibitor concentration in the conventional tube-blocking system does not prevent precipitation, acting only on adhesion and crystal growth on the capillary wall. Tests to evaluate the potential of calcium naphthenates formation in a naphthenate flow rig dynamic system demonstrated the influence of heterogeneous nucleation from non-adhered carbonate crystals, potentially aggravating deposition problems in oil and gas production systems.

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Section: Discussionmentioning

confidence: 99%

“…Scale formation is a complex phenomenon involving thermodynamic supersaturation, kinetics, and hydrodynamic effects (surface shear stress and turbulence) [5]. Supersaturation is the boundary to trigger precipitation or crystallization processes.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Calcium Carbonate Inhibitors Using Sintered Metal Filter in a Pressurized Dynamic System

2019

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Inorganic mineral scale mitigation

Graham¹,

Frigo²

2022

Flow Assurance

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Downhole Scales Associated with October Field Formation Waters and Water Injection Using a Shallow Aquifer

Askar

Abdallah

Gad

2020

Day 1 Wed, February 19, 2020

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Gulf of Suez Petroleum Company (GUPCO) has been producing from October field since 1977. Currently the total daily production from the field is 80 MBFPD with average water cut 76 %. October field contains four formations with extremely different characteristics. Each formation has unique combination of lithology, downhole conditions, and formation water chemistry. Through the whole life of October field, more than 300 downhole scale samples were collected, in addition to more than 180 wellhead water samples were completely analyzed. This set of data can be used to categorize formations according to their capability to deposit a certain type of inorganic scale. After reservoir depletion, sea water had been used in water injection. By the time, field needs changed and a shallow water aquifer replaced sea water in supporting some reservoirs. Several compatibility tests and scale tendency calculations had been done before using the shallow aquifer (Zeit formation). Each well was experiencing different production conditions which dedicated deposition of certain types and amounts of inorganic scale. Scale deposition depth depended on the degree of mixing between incompatible waters, and the introducion of pressure or temperature changes along wellbore. After water breakthrough, some pressure-supported wells faced some carbonate scale deposition due to the dissolved carbon dioxide in Zeit water. Generally, Zeit formation can be used as a good alternative for sea water in water injection projects in Gulf of Suez area. Some formations contain a self-scaling water which has the ability to deposit sulfate and sulfide scales without mixing with any other water e.g. Nubia formation water. Sea water cooling, in offshore wells, usually forces scale deposition at shallow depths especially against the downhole safety valve and Christmas tree valves. This study is expected to be a good tool in recommending scale inhibition methods or products for new wells drilled in October field or any analogous field. This study can compensate for the gap between commercial scale prediction software and actual scale deposits, as most current software products rely only on thermodynamic equations for surface-collected water samples.

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Scale Deposition and Hydrodynamics - Benchtop to Pilot Rig

Cited by 5 publications

References 17 publications

Evaluation of Calcium Carbonate Inhibitors Using Sintered Metal Filter in a Pressurized Dynamic System

Evaluation of Calcium Carbonate Inhibitors Using Sintered Metal Filter in a Pressurized Dynamic System

Inorganic mineral scale mitigation

Downhole Scales Associated with October Field Formation Waters and Water Injection Using a Shallow Aquifer

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