Productivity Performance Comparisons of High Rate Water Pack and Frac-Pack Completion Techniques

Powell, K.R.; Hathcock, R.L.; Mullen, M.E.; Norman, W.D.; Baycroft, Perry

doi:10.2118/38592-ms

Cited by 23 publications

(1 citation statement)

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“…The laboratory data by Welling also showed that if gravel is mixed with sand, as can be the case with poor displacement of formation sand from the perforations by gravel during a gravel pack, the effective permeability of the gravel sand mixture easily can be only 10% of the original gravel permeability. Powell et al (1997) used pressure-transient testing to show that both the Darcy and non-Darcy skins from frac-pack completions were significantly lower than those of high-rate water-pack completions (a variation of gravel packing). While the frac pack can increase fracture length and then possibly yield a negative skin, pressure-transient testing rarely exhibits a negative skin for frac-pack completions.…”

Section: Details Of the New Methodologymentioning

confidence: 99%

A New Methodology To Safely Produce Sand-Controlled Wells With Increasing Skin

Chitale

Stein²,

Arias

et al. 2010

SPE Production &Amp; Operations

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Monitoring deepwater Gulf of Mexico (DW GOM) wells with gravel-pack and frac-pack completions is an increasingly challenging task. Wells often experience increasing skin, adding to the risk of completion failure. Historically, sand-control completions have experienced a 15% rate of sand-related completion failure (King et al. 2003). The industry tends to evaluate safe target rates qualitatively as skin increases. Reducing the flow rate entirely on the basis of an increase in global skin can be too conservative and can overrestrict target rate. Thus, it is important to know which components of the increase in skin can cause the completion to fail. Furthermore, it is not well understood how to quantify a safe target rate with the increased skin.This paper will present a new methodology to evaluate the components of skin increase that could cause sand-control completions to fail. The failure mechanism we address is perforation plugging by movement of fines and sand. Our new methodology helps to quantify the risk and convert it into a safe target rate. This paper will also present case studies of oil and gas wells in the Na Kika asset in DW GOM where this methodology was applied successfully.The well completions are monitored with BP's flux-based approach (Tiffin et al. 2003;Stein et al. 2005;Keck et al. 2005). In all cases, the wells experienced increased skin, causing the engineers to choke back the wells. The analysis showed that some of the skin increase was because of multiphase effects as the reservoir pressure was below the saturation pressure. We also determined which skin components likely caused perforation plugging, thereby increasing the completion flux. Accounting for multiphase-flow effects resulted in a higher safe-operating rate limit than with a conventional analysis. The results allowed the Na Kika asset to produce these wells at their maximum allowable safe-operating rate with the higher skin while producing within BP's flux-based guidelines.

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Section: Details Of the New Methodologymentioning

confidence: 99%

A New Methodology To Safely Produce Sand-Controlled Wells With Increasing Skin

Chitale

Stein²,

Arias

et al. 2010

SPE Production &Amp; Operations

View full text Add to dashboard Cite

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Producing gas from coal reservoirs

Flores,

Moore

2024

Coal and Coalbed Gas

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Single-Trip, Multiple-Zone Frac Packing Offshore Sand Control: Overview of 58 Case Histories

Liu

Deng

et al. 2006

International Oil &Amp; Gas Conference and Exhibition in China

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractIndustry experience has shown that frac pack completions can provide effective production stimulation and reliable sand control for unconsolidated sand reservoirs. One of the more rewarding areas of opportunity is in the completion of longer and more complex intervals that can be stimulated with a single frac pack, high-rate water-pack (HRWP) or EX-Tension Pac SM Service treatment. One of the major considerations in planning the \well completions in the BZ-25-1 field was design efficiency. To complete each individually zone independently with a Stack Pack completion would have been very time consuming. This paper presents the results from installing frac-pack and HRWP treatments through a single-trip, multiple-zone (STMZ) completion system in the offshore Bohai field in China. Using the 9 5/8 × 4.75-in. ID single-trip gravel pack tools, operators have performed frac packing and HRWP treatments on 58 wells, on three platforms, during 2003 and 2005 with an average of 3 to 5 zones per well, spending an average of less than 3 days to complete each well. This paper presents the selection process for the completion technique used to achieve high production efficiency and initial performance of the field. It provides guidelines and results associated with frac packing and demonstrates the importance of selecting completion techniques that will provide high-efficiency production.

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Productivity Performance Comparisons of High Rate Water Pack and Frac-Pack Completion Techniques

Cited by 23 publications

References 0 publications

A New Methodology To Safely Produce Sand-Controlled Wells With Increasing Skin

A New Methodology To Safely Produce Sand-Controlled Wells With Increasing Skin

Producing gas from coal reservoirs

Single-Trip, Multiple-Zone Frac Packing Offshore Sand Control: Overview of 58 Case Histories

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