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Proceedings Papers

Paper presented at the Offshore Technology Conference Asia, November 2–August 19, 2020
Paper Number: OTC-30124-MS
Proceedings Papers

Paper presented at the SPE Annual Technical Conference and Exhibition, September 24–26, 2018
Paper Number: SPE-191402-MS
Proceedings Papers

Paper presented at the SPE Nigeria Annual International Conference and Exhibition, August 2–4, 2016
Paper Number: SPE-184231-MS
... Current estimates suggest between 10 to 20% of hydrocarbon deposits in DW gulf of Guinea are located within ICTB facies. In DW, ICTBs are overbank/levee deposits, channel margin deposits that show rapid lithological changes at centimeter scale with good to excellent lateral continuity...
Proceedings Papers

Paper presented at the SPE Nigeria Annual International Conference and Exhibition, August 4–6, 2015
Paper Number: SPE-178330-MS
.... production monitoring drawdown facies production control Upstream Oil & Gas flow rate Reservoir Surveillance thin bed production logging xy-p well ICTB dw turbidite reservoir reservoir shut-in pass CSM producibility oil production plt flow-1 perforation flow potential contribution...
Proceedings Papers

Paper presented at the Offshore Technology Conference, May 2–5, 2011
Paper Number: OTC-21587-MS
... Asphaltene Management in GOM DW Subsea Development Alberto Montesi, Chevron North America Exploration and Production Company, Robert Pinnick, Chevron North America Exploration and Production Company, Siva Subramanian, Chevron Energy Technology Company, Jianxin Wang, Chevron Energy Technology Company, Jeff...
Proceedings Papers

Paper presented at the Offshore Technology Conference, May 5–8, 2008
Paper Number: OTC-19207-MS
... as Hurricanes Katrina and Rita hit in 2005, and resulted in the formation of DW RUPE - Pipelines Co-Ownership Group in May of 2007. Included in this paper is a description of the repair methods developed, and repair tools being procured and developed for affecting 10 to 24 inch ANSI pipeline repairs in 1,000...
Proceedings Papers

Paper presented at the Offshore Technology Conference, May 1–4, 2006
Paper Number: OTC-17772-MS
... environment. The results of the FMEA where used in selecting the candidate repair methods for DW RUPE. The recommendations contained in this paper are thought to be an up-to-date, comprehensive discussion of the deepwater repair scenarios, and provide cost effective solutions to meet the requirements set...
Proceedings Papers

Paper presented at the Offshore Technology Conference, April 30–May 3, 2018
Paper Number: OTC-28806-MS
... occur, which will also cause the reduction of natural gas recovery. The DWS (downhole water sink) method has shown that this technology could increase oil production and control water coning when exploiting oil. This paper adopted this technology and made some improvements to fit in the exploitation...
Proceedings Papers

Paper presented at the Carbon Management Technology Conference, July 17–20, 2017
Paper Number: CMTC-502487-MS
... downhole water sink CMTC-502487-MS Hybrid Process of Gas and Downhole Water Sink - Assisted Gravity Drainage (G&DWS-AGD) to Enhance Oil Recovery in Reservoirs with Water Coning Watheq J. Al-Mudhafar, Andrew K. Wojtanowicz, and Dandina N. Rao; Louisiana State University Copyright 2017, Carbon Management...
Proceedings Papers

Paper presented at the 22nd World Petroleum Congress, July 9–13, 2017
Paper Number: WPC-22-1683
..., environment issues, water disposal costs and in the end speed up well abandoning operation. So far, several methods and techniques have been proposed to combat water coning. In this paper, we compare efficiency of gel injection, oil barrier and DWS methods using simulation. We also consider the variables...
Proceedings Papers

Paper presented at the SPE Annual Technical Conference and Exhibition, October 3–6, 1999
Paper Number: SPE-56721-MS
... production rate water sink oil recovery water drainage completion withdrawal experiment water cut drainage rate dw well recovery conformance improvement recovery process dw completion enhanced recovery modeling & simulation Copyright 1999, Society of Petroleum Engineers Inc. This paper...
Images
Three wells (<b>DW</b>-1, <b>DW</b>-2, and <b>DW</b>-3) in <b>DW</b> field, an example of deepwater fie...
Published: 20 October 2015
Figure 5 Three wells (DW-1, DW-2, and DW-3) in DW field, an example of deepwater field in SE Asia. The field is a large four-way structure formed by a deepwater thrusting system. DW-1 penetrates the crest of the anticline while DW-2 and DW-3 on the flanks. The distance between one well More
Images
The contact angles of droplets of (a) brine, (c) <b>DW</b>, (e) <b>DW</b>+surfactant, (g)...
Published: 18 April 2018
Fig. 7 The contact angles of droplets of (a) brine, (c) DW, (e) DW+surfactant, (g) DW+clay stabilizer, and (i) slickwater equilibrated on the surface of the oil-saturated plugs immersed in kerosene. The contact angles of reservoir-oil droplets equilibrated on the oil-saturated plugs immersed More
Images
Total mass flow rate of <b>DW</b> and VW with and without CI versus L <b>DW</b>  at three...
Published: 23 May 2011
Figure 21 Total mass flow rate of DW and VW with and without CI versus L DW at three different GTR w values, DWs-4 of Table 4 , rich gas condensate fluid model of Table 2 . More
Images
PR of a <b>DW</b> with the deviation angle of 87° versus L <b>DW</b>  at different GTR w ...
Published: 23 May 2011
Figure 23 PR of a DW with the deviation angle of 87° versus L DW at different GTR w , DWs-10 of Table 4 , moderate gas condensate fluid of Table 1 . More
Images
The contact angles of droplets of (a) Produced brine, (c) <b>DW</b>, (e) <b>DW</b>+Surfac...
Published: 15 February 2017
Figure 11 The contact angles of droplets of (a) Produced brine, (c) DW, (e) DW+Surfactant, (g) DW+Clay stabilizer, and (i) slick water equilibrated on the surface of the rock samples immersed in kerosene. The contact angles of reservoir oil droplets equilibrated on the samples immersed in (b More
Images
Images
Information about fluid tested for SSASI. D, <b>DW</b> = distilled water (0 ppm br...
Published: 12 March 2020
Table 5 Information about fluid tested for SSASI. D, DW = distilled water (0 ppm brine) + 4 wt% Kl; F, FW = fracture water (26,800 ppm brine) + 4 wt% KI; P, PW = produced water (80,400 ppm brine) +4 wt% KI; C = carbonate-rich rock type; Q = quartz-rich rock type. More
Images
Results of all experimental parameters. D, <b>DW</b> = distilled water (0 ppm brin...
Published: 12 March 2020
Table 6 Results of all experimental parameters. D, DW = distilled water (0 ppm brine) + 4 wt% Kl; F, FW = fracture water (26,800 ppm brine) + 4 wt% KI; P, PW = produced water (80,400 ppm brine) +4 wt% KI; C = carbonate-rich rock type; Q = quartz-rich rock type. More
Images
Images of fixed‐point SEM before and after the <b>DW</b> damage (Core Sample 1). W...
Published: 17 February 2020
Fig. 9 Images of fixed‐point SEM before and after the DW damage (Core Sample 1). WD = work distance; EHT = extra high tension, an extremely high electrical voltage. More

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