Eliminating the Silver Bullet from SAGD Casing Cementing

Lim, B. W.; Forsyth, J. J.; Kelly, JJ; McDonald, Michael

doi:10.2118/174492-ms

All Days 2015

DOI: 10.2118/174492-ms

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Eliminating the Silver Bullet from SAGD Casing Cementing

B. W. Lim¹,

J. J. Forsyth

JJ Kelly

et al.

Abstract: A "Silver Bullet" is defined as a solution that relies on using one portion of a number of complex processes to quickly and easily achieve a desired result. In the case of Steam Assisted Gravity Drainage (SAGD) casing cementing, the objective is to achieve complete annular zonal isolation from the intermediate casing shoe to surface. Cement is often cited as providing a "Silver Bullet" solution for a number of well construction deficiencies.An integrated design approach is a philosophy that incorporates critic… Show more

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2017

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Optimization of Cement Designs for Thermal Stimulated Wells by Means of Placement Techniques, Mechanical Properties Characterization and Well Life Simulations

Soucy¹,

Chan²

2017

Day 2 Wed, November 29, 2017

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Long term zonal isolation is critical for Enhanced Oil Recovery (EOR) wells. The paper will present placement techniques along with the use of mechanical properties characterization and modeling software used to optimize the cement design ensuring well life integrity and longevity for thermal EOR wells in particular. Results and supporting data will also be compared to field performance. The approach taken incorporates slurry design and mechanical properties characterization of typical standard cements compared to modern slurry design. Cement properties and well operating procedures are simulated using software to model potential failure points during well life. Multiple design and model iterations were performed by adjusting mechanical properties required to withstand well life operating procedures. This method was used to develop an optimized cement design. Field operations and placement technique processes were also developed to enhance proper placement and support overall slurry performance. Data showing typical mechanical properties required to withstand the simulated wellbore stresses over the life of the well will be compared. This will demonstrate that enhanced mechanical properties are necessary. Standard/conventional slurry design data such as Youngs Modulus, Poissons Ratio, Long term expansion data and tensile data is compared and simulated to show how different types of cements may fail or survive under the same imposed wellbore stresses. Interesting findings demonstrated by software model simulations also show that certain properties, like expansion, are critical to the integrity of the cement sheath. Another observation shows that optimized placement techniques designed for large annulus thermal wells can result in the removal of potentially detrimental accelerating additives, which are typically used. This allows for improved slurry design and performance by reducing the potential for corrosion, shrinkage and increased permeability. Utilizing tools such as complex well integrity software to simulate well operations can be valuable in evaluating your well life performance to develop novel cement blends and placement techniques. It can be used to determine the desired cement performance properties required to maintain long term wellbore isolation and integrity.

show abstract

Optimization of Cement Designs for Thermal Stimulated Wells by Means of Placement Techniques, Mechanical Properties Characterization and Well Life Simulations

Soucy¹,

Chan²

2017

Day 2 Wed, November 29, 2017

View full text Add to dashboard Cite

show abstract

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Eliminating the Silver Bullet from SAGD Casing Cementing

Cited by 1 publication

References 9 publications

Optimization of Cement Designs for Thermal Stimulated Wells by Means of Placement Techniques, Mechanical Properties Characterization and Well Life Simulations

Optimization of Cement Designs for Thermal Stimulated Wells by Means of Placement Techniques, Mechanical Properties Characterization and Well Life Simulations

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