Variable Nozzle-Based Inflow Control Device Completion: Inflow Distribution Comparison, Analysis, and Evaluation

El-Fattah, Mahmoud Abd; Al-Yateem, Karam; Qahtani, Hassan B.; Rajabian, Behzad

doi:10.2523/iptc-17168-ms

Cited by 9 publications

(1 citation statement)

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“…They said that these tools are often installed along the entire length of a horizontal well with the logic that because choking level is proportional to flow, the tool will automatically produce a more uniform flow profile. Abd Elfattah et al (2013) indicated that there are various types of ICDs which are tube, helical, orifice and nozzle types. Figure 2 shows a typical representation of the essential parts in an inflow control device; the screen, the housing and the nozzle where the fluid makes entrance into the completion Li et al (2011) said that the pressure drop created by ICD is considered impairment to the productivity of wells.…”

Section: Introductionmentioning

confidence: 99%

Optimizing oil recovery using new inflow-control devices (ICDs) skin equation

Uche¹,

Obah²,

Onwukwe³

et al. 2019

J. Petroleum Gas Eng.

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Inflow-control devices (ICDs) were developed to avoid coning problems in long horizontal wells mainly in heterogenous formations, but cause some additional drawdown which does not contribute to rate increase. This rate reduction is seen to be impairment to the productivity of horizontal wells. Therefore, horizontal wells that are equipped with ICDs require a pre-quantification of their productivity by determining skin caused by each ICD nozzle size. This will help prevent additional expenditure that will be spent for a corrective horizontal well intervention. Many authors have proposed equations that can be used to estimate skin due to damage, partial completion, slanted well and perforation. No author has provided a skin equation that can be used to estimate recoverable and productivity loss that may result from the use of inflow control devices. In this work, a 3D numerical model which includes inflow control devices along horizontal wells was used to investigate reservoir and production performances of various ICD nozzle sizes. Different productivity losses from different nozzle sizes were seen as skin and a 0.002ft 2 ICD nozzle flow area estimated to have a zero skin. Consequently, a simple equation for calculating this skin due to restricted fluid entry through ICD nozzles was derived. The derived equation which shows insignificant deviation from skin equation is then used for selecting the right nozzle size for production and recovery optimization from horizontal wells.

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Section: Introductionmentioning

confidence: 99%

Optimizing oil recovery using new inflow-control devices (ICDs) skin equation

Uche¹,

Obah²,

Onwukwe³

et al. 2019

J. Petroleum Gas Eng.

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Autonomous flow control device modelling and completion optimisation

Eltaher

Muradov

Davies

et al. 2019

Journal of Petroleum Science and Engineering

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Utilizing Production Logging Measurement Model Matching to Improve Inflow Control Device (ICD) Completion Design in Offshore Horizontal Wells

Zorbalas

Yateem

Elfattah

2013

SPE Annual Technical Conference and Exhibition

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A study was undertaken to evaluate the production performance/potential of horizontal wells equipped with inflow control devices (ICDs) in an offshore oil field in Saudi Arabia. Several challenges are associated with the optimum ICD completion design in this field due to the reservoir sequence of the thick sandstone with thin layers of shale, siltstone and limestone. The sand members are unconsolidated, which poses potential issues with fine migration for screen plugging. An additional challenge to the completion design is the practice of long open hole (OH) horizontal sections, normally drilled with net pay in the range of 3,000-4,000 ft MD with oil based mud (OBM). The reservoir has very good permeability and the high permeability streaks pose a threat of acute water production early in the life of the wells.Many representative wells were analyzed by constructing a calibrated ICD model based on their actual completion characteristics with ICD completion and the reservoir parameters of each well. The calibrated model was used to match the wells' production logging measurements profile and analyze future performance based on potential enhancements in the completion design. Results showed that using a nozzle based ICD instead of a helical ICD design for the same influx profile in these wells caused a reduction in the pressure drop across the completion. The use of additional isolation packers in the ICD sections has the potential to improve the influx balance profile by creating more compartmentalization in the long OH horizontal sections. These findings are taken under consideration for optimizing the completion practices in the future development of the field.

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Variable Nozzle-Based Inflow Control Device Completion: Inflow Distribution Comparison, Analysis, and Evaluation

Cited by 9 publications

References 0 publications

Optimizing oil recovery using new inflow-control devices (ICDs) skin equation

Optimizing oil recovery using new inflow-control devices (ICDs) skin equation

Autonomous flow control device modelling and completion optimisation

Utilizing Production Logging Measurement Model Matching to Improve Inflow Control Device (ICD) Completion Design in Offshore Horizontal Wells

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