Erosion of sand screens by solid particles: a review of experimental investigations

Abduljabbar, Abdullah; Mohyaldinn, Mysara Eissa; Younis, Obai; Alghurabi, Ahmed; Alakbari, Fahd Saeed

doi:10.1007/s13202-022-01467-4

Cited by 15 publications

(8 citation statements)

References 48 publications

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“…Different particle flow rates and angles were used. As reported in previous works, 12,13 different impingement angles were used to check the nature of material whether it is brittle or ductile, brittle failure occurs at 90°, whereas ductile failure occurs at 30°. The particle flow rate is just an attempt to check what will be the results as we change the flow rate from 2 g/min to 3 g/min.…”

Section: Methodsmentioning

confidence: 99%

Metallurgical, erosion, and sensitization performance of TiAlN monolayer and TiAlN/TiN multilayer ceramic coatings on AISI 304 boiler steel

Kumar

Malhotra

Grewal

2023

Proceedings of the Institution of Mechanical Engineers, Part L:

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In the present work, TiAlN monolayer and TiAlN/TiN multilayer ceramic coatings were deposited on AISI 304 austenitic stainless steel by plasma arc physical vapor deposition (PAPVD) process. The metallurgical, erosion, and sensitization performance of these coatings were compared with uncoated 304 boiler steel. Metallurgical studies depicted formation of Al and Ti nitrides on monolayer and multilayer coated steel surfaces, which resulted into higher nitriding at the surface and dense coating formation on boiler steel substrate. Multilayer film exhibited comparatively lesser porosity, lower surface roughness, and higher hardness than monolayer coated and uncoated steel. The erosion performance was evaluated at 30° and 90° besides 2 g/min and 3 g/min flow rates of Al2O3 erodent material for coated and uncoated steel substrate. Multilayer coated 304 steel possessed lower erosion wear rate as evaluated through lesser weight loss before and after erosive wear, smaller crater formation, and minimal adherence of erodent material along with lesser Fe content on eroded surface relative to monolayer coated and uncoated steel. Multilayer coated steel thermally aged at 750° for 24 h had least degree of sensitization (DOS) compared to monolayer coated and uncoated aged boiler steel. Although monolayer coated steel performed better than uncoated one in erosion and sensitization performance but multilayer coating performance was best among all coated and uncoated steel used for present study. Thus, it was established that TiAlN/TiN multilayer coating on AISI 304 boiler steel has improved its metallurgical, erosion, and sensitization performance.

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Section: Methodsmentioning

confidence: 99%

Metallurgical, erosion, and sensitization performance of TiAlN monolayer and TiAlN/TiN multilayer ceramic coatings on AISI 304 boiler steel

Kumar

Malhotra

Grewal

2023

Proceedings of the Institution of Mechanical Engineers, Part L:

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“…Failure to implement sand management techniques can cause problems such as wellbore sanding, erosion, sand fouling, and sand accumulation which have the overall effect of causing formation damage, wellbore instability, casing collapse, impairment or failure of downhole and surface equipment, lost production time due to well shut-in, workover expenses, and environmental issues [4]. The main effect of sand production is damage to surface and sub-surface production equipment which could lead to material wear or mechanical erosion of the equipment [6]. Niger delta formations are unconsolidated as well and prone to sand production, and the oil and gas companies in the area also face these problems and effects associated with it.…”

Section: Introductionmentioning

confidence: 99%

“…Possible sand control methods include restricting production rate, increasing flow area, selective perforating, in-situ sand consolidation techniques, resin-coated gravel pack, and mechanical methods which involves the use of slotted liners, standalone screens, open hole and cased hole gravel pack, or frac-packs completions to prevent sand production [3]. Mechanical sand control methods are the most widely used due to their simplicity and low cost [6] which is the focus of this study.…”

Section: Introductionmentioning

confidence: 99%

“…According to Ahad et al [4], the most suitable mechanical sand control methods are standalone screens and gravel packs on the basis of information from literature. Research has however shown that standalone screens which is the simplest scenario for applying sand control methods can be used to effectively minimize sand production since it can prevent sand of a specified size from flowing into the wellbore [6]. Screens have different geometries and selection of a suitable screen depends on the particle size distribution of grains in the formation.…”

Section: Introductionmentioning

confidence: 99%

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Investigating the Impact of Sieve Analysis on the Choice of Gravel Pack Design for Wells in Unconsolidated Sandstone Formations in the Niger Delta

Chikwe

Nwanwe

Duru

et al. 2023

JERR

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Sand production is major problem for the oil and gas industry and solutions to this problem is a continuous process as new challenges arise with time. Various sand control methods have been proposed for tackling the sand production challenge, and research and experience have shown that the use of mechanical sand control methods are more suitable, with gravel packing being the most effective. Gravel packs are proven to be an effective mechanical sand control technique, and a good gravel pack completion design is of great importance to exclude sand from the wellbore while enhancing well productivity. Implementation of sand control by gravel packing in the Niger Delta is usually found to require importation of commercial gravel for the purpose of sand control which is a challenge in terms of high purchasing and transportation costs with import taxes. A solution is presented in this study which involves sourcing for gravel locally and investigating its suitability for sand control by gravel packing. Locally sourced gravel was compared with commercial gravel using sieve analysis and results showed that the locally sourced gravel closely met the requirements of the commercial gravel depicted by slot widths that are close to that obtained by the commercial gravel. Based on the results of this study, favorable performance is expected when locally sourced gravel is used for sand control by gravel packing in unconsolidated formations in the Niger Delta. It is recommended to source for different gravel types from different locations and evaluate using sieve analysis and Laser Particle Size Distribution Analysis to determine suitable gravel types for these type of formations.

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“…In comparison to chemical methods, mechanical techniques are typically more expensive and time-consuming ( ben Mahmud et al, 2020 ). They also face other issues like a decline in productivity index, complicated installation equipment, installation-related damage, workover difficulties, zonal isolation issues, collapsed screens, and equipment erosion and plugging ( Arukhe et al, 2005 ; Abduljabbar et al, 2022 ). Additionally, they are useless at containing tiny sand particles.…”

Section: Introductionmentioning

confidence: 99%

Optimization of calcium carbonate precipitation during alpha-amylase enzyme-induced calcite precipitation (EICP)

Albenayyan

Murtaza

Alarifi

et al. 2023

Front. Bioeng. Biotechnol.

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The sand production during oil and gas extraction poses a severe challenge to the oil and gas companies as it causes erosion of pipelines and valves, damages the pumps, and ultimately decreases production. There are several solutions implemented to contain sand production including chemical and mechanical means. In recent times, extensive work has been done in geotechnical engineering on the application of enzyme-induced calcite precipitation (EICP) techniques for consolidating and increasing the shear strength of sandy soil. In this technique, calcite is precipitated in the loose sand through enzymatic activity to provide stiffness and strength to the loose sand. In this research, we investigated the process of EICP using a new enzyme named alpha-amylase. Different parameters were investigated to get the maximum calcite precipitation. The investigated parameters include enzyme concentration, enzyme volume, calcium chloride (CaCl2) concentration, temperature, the synergistic impact of magnesium chloride (MgCl2) and CaCl2, Xanthan Gum, and solution pH. The generated precipitate characteristics were evaluated using a variety of methods, including Thermogravimetric analysis (TGA), Fourier-transform infrared spectroscopy (FTIR), and X-ray diffraction (XRD). It was observed that the pH, temperature, and concentrations of salts significantly impact the precipitation. The precipitation was observed to be enzyme concentration-dependent and increase with an increase in enzyme concentration as long as a high salt concentration was available. Adding more volume of enzyme brought a slight change in precipitation% due to excessive enzymes with little or no substrate available. The optimum precipitation (87%) was yielded at 12 pH and with 2.5 g/L of Xanthan Gum as a stabilizer at a temperature of 75°C. The synergistic effect of both CaCl2 and MgCl2 yielded the highest CaCO3 precipitation (32.2%) at (0.6:0.4) molar ratio. The findings of this research exhibited the significant advantages and insights of alpha-amylase enzyme in EICP, enabling further investigation of two precipitation mechanisms (calcite precipitation and dolomite precipitation).

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Erosion of sand screens by solid particles: a review of experimental investigations

Cited by 15 publications

References 48 publications

Metallurgical, erosion, and sensitization performance of TiAlN monolayer and TiAlN/TiN multilayer ceramic coatings on AISI 304 boiler steel

Metallurgical, erosion, and sensitization performance of TiAlN monolayer and TiAlN/TiN multilayer ceramic coatings on AISI 304 boiler steel

Investigating the Impact of Sieve Analysis on the Choice of Gravel Pack Design for Wells in Unconsolidated Sandstone Formations in the Niger Delta

Optimization of calcium carbonate precipitation during alpha-amylase enzyme-induced calcite precipitation (EICP)

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