First Openhole Hydraulic Fracturing Treatment Using Diverter Technology in India

Adil, Faraaz; Pande, Karan; Raina, Bhavna

doi:10.2118/167690-ms

Cited by 4 publications

(2 citation statements)

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“…Stanojcic et al (2010) provides a good overview of many of them, and McDaniel (2014) offers a more current update of hydra-jet perforating tools and related fracturing applications. Pinpoint stimulations have been successfully applied globally (Adil et al 2014;Chellani et al 2012;Garzon et al 2010;Gilbert et al 2005;Mohsen et al 2010;Pongratz et al 2008;Surjaatmadja et al 2005) using all types treatment fluid systems, including acid fracturing (Surjaatmadja et al 2002). In addition, pinpoint stimulation is the only hydraulic fracturing method to be successfully applied in both cased and cemented completions as well as openhole without liners (Love et al 1998;Surjaatmadja et al 1998 and2002) and also slotted liner (Jakobsen et al 2009) completions.…”

Section: Overview Of Hydra-jet Pinpoint Fracturing Techniquesmentioning

confidence: 99%

A New Stimulation Method to Significantly Improve Hydrocarbon Recovery Using Temporary Beneficial Changes in Stress Anisotropy

Lewis

Surjaatmadja

2015

SPE Latin American and Caribbean Petroleum Engineering Conference

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As a result of the creation of a hydraulic fracture, transient geomechanics forces are exerted on the formation, which modify the stress landscape near the wellbore and the fracture plane. It has been observed that the potential exists for temporary reversal in the minimum stress direction, enabling a brief time interval in which a second hydraulic fracture can be created in a completely different direction. This provides hydraulic fracturing connectivity to previously unattainable locations in the formation, which can significantly improve initial hydrocarbon production and economic ultimate recovery from the formation. This paper presents a computational validation of this multioriented hydraulic fracturing (MOHF) process. A unique transient 3D computational geomechanic fracture simulator was developed to perform this study, as traditional hydraulic fracture simulations are derived using static formation properties and steady-state assumptions. The new model incorporates cohesive zone elements to represent the fracture plane and friction elements to account for plastic energy storage of the multiple formation rock layers in the model. Time lapse stress fields show distinct windows of opportunity wherein new fractures can be influenced to extend in alternate directions.This new stimulation method enhances the state-of-the-art in hydraulic fracturing. However, a deeper understanding of the transient geomechanic response in the treatment area is necessary to successfully design and perform the stimulation operation. Unfortunately, it also creates new complications with respect to industry standard hydraulic fracture models being incapable of modeling the transient response of the system. Furthermore, the availability of data related to the dynamic behavior of rocks is limited, and unique testing equipment and procedures must be developed to obtain such data.

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Section: Overview Of Hydra-jet Pinpoint Fracturing Techniquesmentioning

confidence: 99%

A New Stimulation Method to Significantly Improve Hydrocarbon Recovery Using Temporary Beneficial Changes in Stress Anisotropy

Lewis

Surjaatmadja

2015

SPE Latin American and Caribbean Petroleum Engineering Conference

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“…More than 20 different pinpoint stimulation techniques (Stanojcic et al 2010) exist that have been successfully applied globally (Adil et al 2014;Chellani et al 2012;Garzon et al 2010;Gilbert et al 2005;Mohsen et al 2010;Pongratz et al 2008;Surjaatmadja et al 2005). In addition, pinpoint stimulation is the only hydraulic fracturing method to be successfully applied with virtually every completion type, including openhole (Love et al 1998;Surjaatmadja et al 1998 and2002) and slotted liners (Jakobsen et al 2009).…”

Section: Pinpoint Fracturing Techniquesmentioning

confidence: 99%

An Evaluation of Coiled Tubing Fracturing Compared to Traditional Completion Techniques in Horizontal Wells

Lewis

2015

All Days

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In this time of uncertainty within the industry, operators are under increasing pressure to reduce cost and increase operating efficiency. The cost in both time and resources for hydraulically stimulating a well is a substantial part of the total expenses for the well and the economic success of the investment, as most formations being drilled presently in North America (NA) are incapable of economic returns without multi-stage hydraulic fracturing. Coil tubing (CT) deployed hydra-jet perforated pinpoint stimulation methods both aim to improve the success of hydraulic fracturing treatments and deliver increased versatility in terms of the treatment design of the well. This is achieved by specifically targeting each section of the well with a customized treatment plan and fracture placement to optimize the formation return. This paper presents a summary of various pinpoint stimulation technologies and methods. An economic comparison to a traditional plug-and-perf stimulation is provided based on total treatment time, hydraulic horsepower (HHP) requirements, and percentage of treatment time spent in fracturing, perforating, setting plugs, drilling out plugs, and other necessary activities. Using these metrics, each of the pinpoint stimulation methods outperformed the plug-and-perf operation, with the addition of a reduced capital expense for equipment on location, reduced wear on tubular and tools in the wellbore, and the elimination of the cost, international importation challenges, and health, safety, and environment (HSE) risks with explosive shape charge perforation guns.

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First Application for a Sequenced Fracturing Technique to Divert Fractures in a Vertical Open Hole Completion: Case Study from Saudi Arabia

Bartko

Tineo

Aidagulov

et al. 2016

Day 2 Wed, February 10, 2016

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A unique sequenced fracturing technique using formation notching and degradable diversion pills was applied for the first time in a vertical open hole completion to stimulate multiple pay intervals in a well in the ЉQЉ sandstone formation of Saudi Arabia.The challenge to divert fractures in a vertical open hole is made more difficult by the large fracture surface area in contact with the wellbore. A robust, efficient and repeatable two-step technique was implemented to provide the diversion and controlled breakdown of higher-stressed sections of the interval. The first step used a specialized jetting nozzle to create circular notches and weaken the formation at target depths. The second step involved the pumping of a small volume of a composite fluid of degradable non-damaging fiber and particles that bridge at the fracture face, to divert the remainder of the treatment to under-stimulated sections of the interval.The target for this well was a shallower formation due to completion pressure limitations while fracturing. This left six pay intervals spread across the tight, heterogeneous sandstone layers of the Q formation, which was completed as a single 552-ft. vertical open hole section. Previous experience showed large stress variations in the layers with contained fractures, and fracturing all pay intervals required separate treatments for each interval. After notching the pay intervals to reduce breakdown pressures, the interval was fractured with three proppant ramps separated by two diversion pills in the span of 8 hours, improving efficiency by more than three times. Diversion was confirmed by: (1) pressure increases of 380 psi and 500 psi, respectively, when the pills landed on formation; (2) increasing trend of the instantaneous shut-in pressures (ISIP's) throughout the treatment, resulting in 1,270 psi of net pressure gain; and (3) comparison of post-diagnostic injection test temperature log data with post-fracturing neutron log data, showing where nonradioactive traceable proppant was placed, including into at least three pay intervals not broken down during the injection test. Post-treatment production expectations were met and confirmed with a well test. This paper will present the design, execution, and evaluation methodology and challenges overcome to divert hydraulic fractures in long vertical open hole intervals using this two-step diversion process for sequenced fracturing. The ability to do this consistently and predictably can provide a practical, efficient, and cost-effective preferred solution that does not exist today for completing and fracturing similar zones that are traditionally bypassed, resulting in increased production and reserves.

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First Openhole Hydraulic Fracturing Treatment Using Diverter Technology in India

Cited by 4 publications

References 0 publications

A New Stimulation Method to Significantly Improve Hydrocarbon Recovery Using Temporary Beneficial Changes in Stress Anisotropy

A New Stimulation Method to Significantly Improve Hydrocarbon Recovery Using Temporary Beneficial Changes in Stress Anisotropy

An Evaluation of Coiled Tubing Fracturing Compared to Traditional Completion Techniques in Horizontal Wells

First Application for a Sequenced Fracturing Technique to Divert Fractures in a Vertical Open Hole Completion: Case Study from Saudi Arabia

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