Expanding Solvent SAGD in Heavy Oil Reservoirs

Govind, Pradeep Ananth; Das, Swapan Kumar; Srinivasan, Sanjay; Wheeler, Thomas J.

doi:10.2118/117571-ms

Cited by 77 publications

(29 citation statements)

References 5 publications

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“…A limited number of experimental and modeling studies have considered the application of n-heptane for heavy oil and bitumen recovery [4][5][6][7]. Shu and Hartman [4] conducted a series of simulation studies to investigate the effect of solvent type and concentration on thermal bitumen recovery methods.…”

Section: Introductionmentioning

confidence: 99%

Modeling and measurement of thermo-physical properties for Athabasca bitumen and n -heptane mixtures

Nourozieh

Kariznovi

Abedi

2015

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Section: Introductionmentioning

confidence: 99%

Modeling and measurement of thermo-physical properties for Athabasca bitumen and n -heptane mixtures

Nourozieh

Kariznovi

Abedi

2015

Fuel

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“…With a fully perforated 500 m long horizontal well pair, the reservoir model consists of 250 × 1 × 100 gridblocks of which the unit gridblock size is 1 m × 500 m × 0.48 m. It will be straightforward to extend the proposed approach for a three-dimensional reservoir having multiple gridblocks along the well pair. Table 1 Butane is the solvent employed in this study with regards to reservoir pressure and temperature [48]. Dynamic grid refinement based on the mole fraction of butane with a tolerance value of 0.1 is imposed to capture the short-length scale mass and heat transfer at the vapor/liquid boundary of the vapor chamber.…”

Section: Resultsmentioning

confidence: 99%

“…A steam trap control of 2 K is allocated to the producer. Butane is the solvent employed in this study with regards to reservoir pressure and temperature [48]. Dynamic grid refinement based on the mole fraction of butane with a tolerance value of 0.1 is imposed to capture the short-length scale mass and heat transfer at the vapor/liquid boundary of the vapor chamber.…”

Section: Resultsmentioning

confidence: 99%

Quick Screening of Pareto-Optimal Operating Conditions for Expanding Solvent–Steam Assisted Gravity Drainage Using Hybrid Multi-Objective Optimization Approach

2017

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Solvent-steam mixture is a key factor in controlling the economic efficiency of the solvent-aided thermal injection process for producing bitumen in a highly viscous oil sands reservoir. This paper depicts a strategy to quickly provide trade-off operating conditions of the Expanding Solvent-Steam Assisted Gravity Drainage (ES-SAGD) process based on Pareto-optimality. Response surface models are employed to evaluate multiple ES-SAGD scenarios at low computational costs. The surrogate models play a role of objective-estimators in the multi-objective optimization that provides qualified ES-SAGD scenarios regarding bitumen recovery, steam-energy efficiency, and solvent-energy efficiency. The developed hybrid approach detects positive or negative correlations among the performance indicators of the ES-SAGD process. The derived Pareto-optimal operating conditions give flexibility in field development planning and thereby help decision makers determine the operating parameters of the ES-SAGD process based on their preferences.

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“…Alternatives to SAGD have been proposed. Those techniques include modified versions of SAGD through different well configurations or numbers of wells (e.g., Cross or X-SAGD, Fast SAGD and single well SAGD or SW-SAGD) or using additives (e.g., ES-SAGD) to steam [61][62][63][64]), respectively. However, all the proposed methods are at early stage of evaluation and are not expected to have an impact on oil production in the near future.…”

Section: Thermal Methodsmentioning

confidence: 99%

Enhanced Oil Recovery: An Update Review

2010

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With the decline in oil discoveries during the last decades it is believed that EOR technologies will play a key role to meet the energy demand in years to come. This paper presents a comprehensive review of EOR status and opportunities to increase final recovery factors in reservoirs ranging from extra heavy oil to gas condensate. Specifically, the paper discusses EOR status and opportunities organized by reservoir lithology (sandstone and carbonates formations and turbiditic reservoirs to a lesser extent) and offshore and onshore fields. Risk and rewards of EOR methods including growing trends in recent years such as CO 2 injection, high pressure air injection (HPAI) and chemical flooding are addressed including a brief overview of CO 2 -EOR project economics.

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Expanding Solvent SAGD in Heavy Oil Reservoirs

Cited by 77 publications

References 5 publications

Modeling and measurement of thermo-physical properties for Athabasca bitumen and n -heptane mixtures

Modeling and measurement of thermo-physical properties for Athabasca bitumen and n -heptane mixtures

Quick Screening of Pareto-Optimal Operating Conditions for Expanding Solvent–Steam Assisted Gravity Drainage Using Hybrid Multi-Objective Optimization Approach

Enhanced Oil Recovery: An Update Review

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