Strategic Waterflood Optimization with Innovative Active Injection Control Devices in Tight Oil Reservoirs | SLB
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Canada, North America
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Strategic Waterflood Optimization with Innovative Active Injection Control Devices in Tight Oil Reservoirs


This paper presents the successful implementation of an innovative approach for improving oil recovery by water injection optimization with injection control devices (ICDs) in unconventional reservoirs. Over the past decade, operators in southeast Saskatchewan have been continually innovating and finding efficiencies to improve water injectivity across horizontal wellbores. In late 2016, Crescent Point Energy started a trial campaign applying ICDs in relatively low-flow-rate environments to offset production decline and improve recovery in the Bakken, Shaunavon, and Midale Formations. Early results show greater than 25% improvement is possible in oil recovery over typical waterflood configurations.

The operator had applied waterflood as a secondary recovery method and found field trials to stabilize production decline and improve ultimate recovery. The effectiveness of waterflood in unconventional, fractured reservoirs has been debated. In some cases, short circuiting of injection water to production wells through fracture channels has occurred. This has been found to reduce sweep efficiency. The issue was evaluated and it was determined that there was a need to equalize the injection profile across the horizontal wellbore. Understanding the flow profiles of injection wells was instrumental in developing diversion strategies. Applying distributed temperature surveys (DTS) has been found to be an effective method of estimating flow profiles at relatively low flow rates. Using processed DTS data, a reservoir simulation model has been used to match unique injection profiles along horizontal wellbores. The results from these models supported the need to pursue injection diversion.

Several means to optimize injection profiles have been trialed, the results of which support the theory of sweep optimization. However, the limited number of isolated injection points achievable with given wellbore diameters has impeded the potential for this development. The introduction of ICD injection strings allows an optimum number of injection points, improving sweep efficiency and accelerating voidage replacement.

This paper reviews the design, execution, and evaluation process used in more than 50 successful ICD installations in various fields across Saskatchewan. The performance of these ICD strings was then monitored and evaluated in collaboration with the operator and service providers.

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