Haider, Bader Y.A. (Kuwait Oil Company) | Rachapudi, Rama Rao Venkata Subba (Kuwait Oil Company) | Al-Yahya, Mohammad (Kuwait Oil Company) | Al-Mutairi, Talal (Kuwait Oil Company) | Al Deyain, Khaled Waleed (Kuwait Oil Company)
Production from Artificially lifted (ESP) well depends on the performance of ESP and reservoir inflow. Realtime monitoring of ESP performance and reservoir productivity is essential for production optimization and this in turn will help in improving the ESP run life. Realtime Workflow was developed to track the ESP performance and well productivity using Realtime ESP sensor data. This workflow was automated by using real time data server and results were made available through Desk top application.
Realtime ESP performance information was used in regular well reviews to identify the problems with ESP performance, to investigate the opportunity for increasing the production. Further ESP real time data combined with well model analysis was used in addressing well problems.
This paper describes about the workflow design, automation and real field case implementation of optimization decisions. Ultimately, this workflow helped in extending the ESP run life and created a well performance monitoring system that eliminated the manual maintenance of the data .In Future, this workflow will be part of full field Digital oil field implementation.
Poedjono, Benny (Schlumberger) | Beck, Nathan (Schlumberger) | Buchanan, Andrew (Eni Petroleum Co.) | Brink, Jason (Eni Petroleum Co.) | Longo, Joseph (Eni Petroleum Co.) | Finn, Carol A. (U.S. Geological Survey) | Worthington, E. William (U.S. Geological Survey)
Geomagnetic referencing is becoming an increasingly attractive alternativeto north-seeking gyroscopic surveys to achieve the precise wellbore positioningessential for success in today's complex drilling programs. However, thegreater magnitude of variations in the geomagnetic environment at higherlatitudes makes the application of geomagnetic referencing in those areas morechallenging.
Precise, real-time data on those variations from relatively nearby magneticobservatories can be crucial to achieving the required accuracy, butconstructing and operating an observatory in these often harsh environmentsposes a number of significant challenges. Operational since March 2010, theDeadhorse Magnetic Observatory (DED), located in Deadhorse, Alaska, was createdthrough collaboration between the United States Geological Survey (USGS) and aleading oilfield services supply company. DED was designed to produce real-timegeomagnetic data at the required level of accuracy, and to do so reliably underthe extreme temperatures and harsh weather conditions often experienced in thearea.
The observatory will serve a number of key scientific communities as well asthe oilfield drilling industry, and has already played a vital role in thesuccess of several commercial ventures in the area, providing essential,accurate data while offering significant cost and time savings, compared withtraditional surveying techniques.
We present results of monitoring studies on emergent coral reefs and submerged shoals, two potentially sensitive seabed habitats found within range of the modeled hydrocarbon plume from the 2009 Montara uncontrolled release in the Timor Sea.
Divers conducted reef surveys 6 and 16 months after the release was stopped. Hydrocarbons were detected in surface carbonate sediments at very low levels and declined between the two surveys in both frequency of occurrence and concentration. While hydrocarbon degradation precluded source matching, some samples were consistent with a Montara type oil, but there was also evidence for multiple sources of hydrocarbons in the region. Coral and fish communities were in good condition and potential indicators of disturbance in some elements, for example moderate levels of coral bleaching observed in 2010, were related to unusually warm sea surface temperatures rather than distance from the well head platform or plume.
The submerged shoals component targeted a series of nine discrete shoals ~30-150 km from Montara well head platform. The shoals have abrupt bathymetric profiles rising from 100-200 m depths to within 15-36 m of the sea surface. Sufficient light reaches these plateau environments to support benthic habitats for primary producers, including algae, corals and seagrass. Sampling used remotely deployed cameras and grabs.Benthic and fish communities were diverse and shared many species with shallow coral reefs. Hydrocarbon contamination was measured around the base of the shoals. While there was no conclusive evidence of a impact from the spill, spatial patterns in a subset of the fish data showed a reduction in abundance and diversity at shoals closest to the well head. Similarly a marked reduction in seagrass was noted on one shoal closest to the well head platform in the period between surveys, 6-16 months after the release was stopped. These observations may reflect an influence from the hydrocarbon release but could equally be the result of natural spatial patterns and disturbance events in the region.
Overall, the lack of sufficient prior data characterizing the region, especially for the shoals, constrained insights into any effect or otherwise of the spill and reinforces the need for regional scale baseline data. These surveys make a significant contribution and an excellent starting point for baseline characterization of the broader suite of emergent reefs and submerged shoal habitats in the Browse Basin.
This paper describes a novel instrumental technique using astronomical cameras modified to monitor the whole-of-sky light emissions visible to marine turtles nesting near industrial developments in Western Australia. The results provide quantitative and qualitative data on specific light sources including sky glow which cannot be otherwise be measured in a field setting. The quantitative and qualitative results provide environmental practitioners and managers with the first reliable tool with which to monitor light emissions. This instrumental method has application well beyond marine turtles and can be used to measure and monitor light in any setting and for any receptor (wildlife or human) exposed to light, either astral or artificial.