Re-Stimulation of Horizontal Well Water Injectors in the Danish Halfdan Field Using a Revised Diversion Approach
- Barry Ritchie (Total E&P Denmark) | Shaun Thomson (Total E&P Denmark) | Baglan Kiyabayev (Total E&P Denmark) | Freddy Oliveira-Martinez (Total E&P Denmark) | Rob Carter (Total E&P UK)
- Document ID
- Society of Petroleum Engineers
- SPE International Conference and Exhibition on Formation Damage Control, 19-21 February, Lafayette, Louisiana, USA
- Publication Date
- Document Type
- Conference Paper
- 2020. Society of Petroleum Engineers
- Water Injectors, Horizontal Wells, Particulate Diverters, Diversion, Acid Stimulation
- 36 in the last 30 days
- 36 since 2007
- Show more detail
- View rights & permissions
|SPE Member Price:||USD 9.50|
|SPE Non-Member Price:||USD 28.00|
The Danish North Sea Halfdan Field is developed with extremely long horizontal wells in a line drive producer/injector pattern. The carbonate reservoir requires successful acid stimulation to maximize the flow potential of the wells. High rate, matrix acidizing, relying on maximum pressure differential and injection rate (MAPDIR) was the initial stimulation process used to treat these wells.1 Later, this process was continued with the addition of chemical, in-situ viscosifying diverter stages to improve acid placement. Pre-drilled liner completions have been the primary method across the Halfdan field and has been a very cost effective, efficient way to complete the extended laterals required.
Multi-discipline pattern reviews are routinely held to review the producer/water injector performance within the field. These reviews included well flow performance, intervention history, stimulation review, caliper/corrosion history, and 4D seismic interpretation. Candidate wells were identified for possible intervention work, conformance, and stimulation opportunities.
Although the liner completions were designed to optimize acid placement, increased volumes of in-situ crosslinked acid, with seawater over flush, was used to improve placement. In addition, trials were developed to also include a particulate diverter material in several producing well restimulation treatments. The pressure response and the production gains were very encouraging and this led to additional re-stimulation candidate selection across the field.
This paper reviews the outcome of one of these reviews in regards to water injection performance in some parts of the Halfdan Field. Prior to this project, it was typical to stimulate all water injectors with high rate acid treatments and, in some cases, staged volumes of in-situ crosslinked acid for diversion, along with the pre-drilled limited entry liner. The particulate diverter, used on some producers, was soluble at temperatures higher than the bottomhole temperature of the water injectors. This challenge was addressed during the review and a method agreed on to evaluate the effectiveness of the particulate diverter to improve the acid distribution in these water injectors.
A project team worked together to produce a design for the re-stimulation treatments and to develop a methodology to use this particulate diverter in a low temperature environment. The team worked through a procedure to flowback the water injector following the re-stimulation treatment. A risk assessment was completed in terms of flowing back into a donor well and simulations were completed to determine that flowback rates were sufficient to return any solid material to surface.
The case history is reviewed to present the design and execution of the two water injector re-stimulation treatments. Following the cleanup/flowback of the wells, water injection was re-established to return to pretreatment bottomhole injection pressures. The results of the water injection rates are discussed as well as further plans for similar treatments.
|File Size||1 MB||Number of Pages||14|