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Artykuły w czasopismach na temat "Downhole water sink"

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Ali, Fadi, Hassan Bahrami, Po Chu Byfield, and Jijin Mathew. "Production optimisation and water control in oil/water producing wells using horizontal downhole water sink technology." APPEA Journal 51, no. 1 (2011): 577. http://dx.doi.org/10.1071/aj10041.

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Water breakthrough and the flow of water towards the perforations of a producing well increase production operation costs and influence overall recovery efficiency. To control water production, a downhole water sink can be used in which a well is completed in both oil and water zones. Water is produced from an interval in water zone, which can result in the same pressure drop below water oil contact (WOC) as the pressure drop created by oil or gas production. This system can reduce water production through oil zone perforations. Water produced from water zone perforations can then be injected
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Wojtanowicz, Andrew K., and Miguel Armenta. "Assessment of Down-Hole Water Sink Technology for Controlling Water Inflow at Petroleum Wells." Journal of Energy Resources Technology 126, no. 4 (2004): 334–41. http://dx.doi.org/10.1115/1.1831282.

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Water inflow to petroleum wells hampers production of oil or gas leading to early shut downs of the wells without sufficient recovery of hydrocarbons in place. Downhole water sink (DWS) is a completion/production technique for producing water-free hydrocarbons with minimum amount of water from reservoirs with bottom water drive and strong tendency to water coning. DWS eliminates water invasion to hydrocarbon production by employing hydrodynamic mechanism of coning control in situ at the oil-water or gas-water contact. The mechanism is based upon a localized water drainage generated by another
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Shirman, E. I., and A. K. Wojtanowicz. "More Oil Using Downhole Water-Sink Technology: A Feasibility Study." SPE Production & Facilities 15, no. 04 (2000): 234–40. http://dx.doi.org/10.2118/66532-pa.

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Qin, Wenting, Pingya Luo, Lijie Guo, and Andrew K. Wojtanowicz. "Water leak control for the oil-producing wells using Downhole Water Sink Technology." Journal of Environmental Management 301 (January 2022): 113834. http://dx.doi.org/10.1016/j.jenvman.2021.113834.

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Anietie, N. Okon, Appah Dulu, and U. Akpabio Julius. "Water Coning Prediction Review and Control: Developing an Integrated Approach." Journal of Scientific Research & Reports 14, no. 4 (2017): 1–24. https://doi.org/10.9734/JSRR/2017/33291.

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In petroleum industry, oil production strategy to circumvent water coning in reservoirs with strong water drive is quit challenging. To ameliorate this oil production related problem, several water coning prediction models and control approaches have been developed by researchers. The prediction approaches include analytical, empirical and numerical approach. The analytical and empirical prediction approaches are qualitative water coning prediction approach with limited field scale application. However, these approaches model predictions can gain field application if upscale. Numerical approac
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Al-Mudhafar, Watheq J., David A. Wood, Dahlia A. Al-Obaidi, and Andrew K. Wojtanowicz. "Well Placement Optimization through the Triple-Completion Gas and Downhole Water Sink-Assisted Gravity Drainage (TC-GDWS-AGD) EOR Process." Energies 16, no. 4 (2023): 1790. http://dx.doi.org/10.3390/en16041790.

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Gas and downhole water sink-assisted gravity drainage (GDWS-AGD) is a new process of enhanced oil recovery (EOR) in oil reservoirs underlain by large bottom aquifers. The process is capital intensive as it requires the construction of dual-completed wells for oil production and water drainage and additional multiple vertical gas-injection wells. The costs could be substantially reduced by eliminating the gas-injection wells and using triple-completed multi-functional wells. These wells are dubbed triple-completion-GDWS-AGD (TC-GDWS-AGD). In this work, we design and optimize the TC-GDWS-AGD oil
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Al-Mudhafar, Watheq J., Dandina N. Rao, and Andrew K. Wojtanowicz. "Leveraging Designed Simulations and Machine Learning to Develop a Surrogate Model for Optimizing the Gas–Downhole Water Sink–Assisted Gravity Drainage (GDWS-AGD) Process to Improve Clean Oil Production." Processes 12, no. 6 (2024): 1174. http://dx.doi.org/10.3390/pr12061174.

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The Gas and Downhole Water Sink–Assisted Gravity Drainage (GDWS-AGD) process addresses gas flooding limitations in reservoirs surrounded by infinite-acting aquifers, particularly water coning. The GDWS-AGD technique reduces water cut in oil production wells, improves gas injectivity, and optimizes oil recovery, especially in reservoirs with high water coning. The GDWS-AGD process installs two 7-inch production casings bilaterally. Then, two 2-3/8-inch horizontal tubings are completed. One tubing produces oil above the oil–water contact (OWC) area, while the other drains water below it. A hydra
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Wojtanowicz, Andrew K., and Ephim I. Shirman. "Inflow Performance and Pressure Interference in Dual-Completed Wells With Water Coning Control." Journal of Energy Resources Technology 124, no. 4 (2002): 253–61. http://dx.doi.org/10.1115/1.1521165.

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Dual-completed wells with Downhole Water Sink (DWS) are used for water coning control in oil reservoirs with bottom water drive. In DWS wells, the second (bottom) completion—placed in the water column—is used for draining water. This prevents the water cone invasion and allows free oil inflow in the top completion. The decision on using DWS or a conventional (single-completed) well is based upon deliverability comparison of the two wells. This paper shows how to describe DWS well deliverability in terms of the top and bottom production rates, water cut, and pressure drawdown. Also, the effect
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Geng, Changyou, Xinli Lu, Hao Yu, Wei Zhang, Jiaqi Zhang, and Jiansheng Wang. "Theoretical Study of a Novel Power Cycle for Enhanced Geothermal Systems." Processes 10, no. 3 (2022): 516. http://dx.doi.org/10.3390/pr10030516.

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As obtained geofluids from enhanced geothermal systems usually have lower temperatures and contain chemicals and impurities, a novel power cycle (NPC) with a unit capacity of several hundred kilowatts has been configured and developed in this study, with particular reference to the geofluid temperature (heat source) ranging from 110 °C to 170 °C. Using a suitable CO2-based mixture working fluid, a transcritical power cycle was developed. The novelty of the developed power cycle lies in the fact that an increasing-pressure endothermic process was realized in a few-hundred-meters-long downhole h
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Lubis, Gerdha Agreska, and Maman Djumantara. "EVALUASI RESERVOIR BATURAJA PADA LAPANGAN FALCON DENGAN MENGGUNAKAN SIMULASI RESERVOIR UNTUK MEMAKSIMALKAN PRODUKSI." PETRO:Jurnal Ilmiah Teknik Perminyakan 6, no. 3 (2019): 71–76. http://dx.doi.org/10.25105/petro.v6i3.4275.

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Falcon Field begins with the discovery of the GG-1 wells are explored in August 1974. The program DST performed on one zone at Falcon Field in the Baturaja Formation producing 429 BOPD and 0.14 MMCFD. Then in 1978, Falcon Field was developed by constructing three wells on the platform GGA and in 1988 made eight more wells on the platform GGB. Falcon Field is thepeak production in 1978 amounted to 5670 BOPD. Currently Falcon Field still in production of 1000 BOPD and 451 MCFPD of four wells. Cumulative production in January 2014 at 10.57 and 9.08 MMCF MMBO, and Recovery Factor is currently at 1
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Części książek na temat "Downhole water sink"

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Al-Mudhafar, Watheq J., Dahlia A. Al-Obaidi, Dayanand Saini, Andrew K. Wojtanowicz, and Mohammed S. Al-Jawad. "Feasibility of the Gas and Downhole Water Sink-Assisted Gravity Drainage (GDWS-AGD) Process to Enhance the Recovery of Oil in Reservoirs with Strong Aquifer." In Macromolecular Characterization of Hydrocarbons for Sustainable Future. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-6133-1_7.

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Streszczenia konferencji na temat "Downhole water sink"

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Shirman, E. I., and A. K. Wojtanowicz. "Water Coning Reversal Using Downhole Water Sink-Theory and Experimental Study." In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 1997. http://dx.doi.org/10.2118/38792-ms.

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Marcano, L., and A. Wojtanowicz. "Dual Gas Lift in Wells With Downhole Water Sink Completion." In Canadian International Petroleum Conference. Petroleum Society of Canada, 2002. http://dx.doi.org/10.2118/2002-238.

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Arslan, O., C. D. White, and A. K. Wojtanowicz. "Nodal Analysis for Oil Wells With Downhole Water Sink Completions." In Canadian International Petroleum Conference. Petroleum Society of Canada, 2004. http://dx.doi.org/10.2118/2004-242.

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Shirman, Ephim I., and Andrew K. Wojtanowicz. "More Oil with Less Water Using Downhole Water Sink Technology: A Feasibility Study." In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 1998. http://dx.doi.org/10.2118/49052-ms.

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Ramos, Luis R., Ephim I. Shirman, and Andrew K. Wojtanowicz. "Vertical Interference Testing Method Using Dual Completions with Downhole Water Sink." In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 2000. http://dx.doi.org/10.2118/62921-ms.

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Wojtanowicz, A. K., E. I. Shirman, and H. Kurban. "Downhole Water Sink (DWS) Completion Enchance OIL Recovery in Reservoirs with Water Coning Problem." In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 1999. http://dx.doi.org/10.2118/56721-ms.

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Niz-Velasquez, E., H. S. Nagesar, R. V. Bhajan, and B. Nandlal. "Downhole Water Sink at High Mobility Ratio: The Tambaredjo Field Pilot Test." In SPE Latin American and Caribbean Petroleum Engineering Conference. SPE, 2023. http://dx.doi.org/10.2118/213139-ms.

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Abstract This study discusses the development and results of the Downhole Water Sink (DWS) pilot test in two wells of the Tambaredjo Field (Suriname). It includes the mechanical completion, design and execution of operating strategy, well performance and forecast, and reservoir simulation employing an oil-in-water emulsion formulation. The DWS process, well and reservoir information and properties are introduced. The problem of heavy oil production in oil-water contact (OWC) areas is explained. The results in terms of production data and its analysis, and issues encountered, are presented. A r
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Al-Azmi, Nasser H., Faisal A. Aladwani, and Pruthvi R. Kasaraneni. "Water Control Management Utilizing Downhole Water Sink Technology: Application of a Reservoir in the Middle East." In SPE Kuwait Oil & Gas Show and Conference. Society of Petroleum Engineers, 2017. http://dx.doi.org/10.2118/187663-ms.

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Qin, Wenting, Pingya Luo, Jigang Meng, et al. "Successful Field Trials of Water Control in High Water Cut Wells Using an Improved Downhole Water Sink/Drainage System." In Abu Dhabi International Petroleum Exhibition & Conference. Society of Petroleum Engineers, 2017. http://dx.doi.org/10.2118/188958-ms.

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Alblooshi, Y. A., and A. K. Wojtanowicz. "Dynamic Water Control in Naturally Fractured Bottom Water-Drive Reservoirs via Downhole Water Sink Well Deployment: First Experimental Study." In RDPETRO 2018: Research and Development Petroleum Conference and Exhibition, Abu Dhabi, UAE, 9-10 May 2018. American Association of Petroleum Geologists, Society of Exploration Geophysicists, European Association of Geoscientists and Engineers, and Society of Petroleum Engineers, 2018. http://dx.doi.org/10.1190/rdp2018-41789710.1.

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