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Search Petrowiki: 5.6 Formation evaluation AND management
- Information Technology > Knowledge Management (0.83)
- Information Technology > Communications > Collaboration (0.83)
...Category:5.6.1 Open hole or cased hole log analysis . Pages in category "...5.6.1 Open hole or cased hole log analysis" The following 62 pages are in this category, out of 62 to...magnetic resonance (NMR) logging * PEH:Nuclear Magnetic Resonance Applications in Petrophysics and Formation Evaluation O * Oil density * Openhole caliper logs P * Permeability determination * Permeability estim...
- Information Technology > Knowledge Management (0.40)
- Information Technology > Communications > Collaboration (0.40)
...Category:5.6.8 Well performance monitoring or inflow performance . Pages in category "...5.6.8 Well performance monitoring or inflow performance" The following 6 pages are in this category, ...
- Information Technology > System Monitoring (0.70)
- Information Technology > Communications > Collaboration (0.40)
...Formation evaluation for acidizing Since the most common use of matrix acidizing is the removal of ...formation damage , it is important to understand the nature of the damage that exists so that an appropriate ...treatment can be designed. Contents * 1 Formation damage diagnosis * 2 Identify extent and type of damage * 3 Damage removal by chemical solvents ...
Since the most common use of matrix acidizing is the removal of formation damage, it is important to understand the nature of the damage that exists so that an appropriate treatment can be designed. Well testing and well test analysis generate a skin factor and well completion efficiency. This is insufficient alone for formation damage diagnosis. Well performance analysis has provided a beneficial tool to identify the location and thickness of damage at flow points in the near wellbore area. Models of flow into perforations and gravel-packed tunnels provide a way to relate the location and severity of damage to the completion procedure that preceded it.
- North America > United States > Texas (1.00)
- Europe (0.71)
- Asia (0.68)
- Geology > Mineral (1.00)
- Geology > Rock Type > Sedimentary Rock > Clastic Rock > Sandstone (0.98)
- Energy > Oil & Gas > Upstream (1.00)
- Materials > Chemicals > Commodity Chemicals > Petrochemicals (0.31)
- North America > United States > Texas > Permian Basin > Yeso Formation (0.99)
- North America > United States > Texas > Permian Basin > Yates Formation (0.99)
- North America > United States > Texas > Permian Basin > Wolfcamp Formation (0.99)
- (28 more...)
- Information Technology > Knowledge Management (0.40)
- Information Technology > Communications > Collaboration (0.40)
...Formation evaluation during mud logging ...Formation evaluation, for this discussion, is the process of: * Describing a geologic ...formation and any fluids contained within in terms of their constituent properties * Determining the propert...
Many data are interpreted to evaluate a petroleum-bearing formation, and we discuss the interpretations of data acquired through surface data logging in terms of the rock formation and fluid properties they help determine. The logging engineer or geologist gets information about the formation fluids directly from fluids that are released into the wellbore while drilling and circulating out suspended immiscibly in the drill fluid or remaining in the pores of larger cuttings that may not have been flushed. They receive information indirectly from remnants of the fluid that remain in pores of rock cuttings, as stains on the grain surface, or in solution in the drilling fluid. Oil may be identified as a sheen on the surface of water-based drilling fluid. If the circulating fluid density is sufficiently low as to render an underbalanced drilling condition, oil may be produced in large enough quantities that a sample may be skimmed off a whole mud sample.
- Geology > Rock Type > Sedimentary Rock (0.71)
- Geology > Geological Subdiscipline > Stratigraphy (0.69)
- North America > United States > California > Sacramento Basin > 4 Formation (0.99)
- North America > United States > California > Sacramento Basin > 3 Formation (0.99)
- Europe > United Kingdom > North Sea > Northern North Sea > East Shetland Basin > Block 211/7a > Magnus Field > Kimmeridge Formation > Magnus Formation (0.99)
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- Information Technology > Knowledge Management (0.40)
- Information Technology > Communications > Collaboration (0.40)
...Reservoir management PetroWiki (Redirected from Reservoir ...management programs) Petroleum reservoir ...management is a dynamic process that recognizes the uncertainties in reservoir performance resulting from our ...
Petroleum reservoir management is a dynamic process that recognizes the uncertainties in reservoir performance resulting from our inability to fully characterize reservoirs and flow processes. It seeks to mitigate the effects of these uncertainties by optimizing reservoir performance through a systematic application of integrated, multidisciplinary technologies. It approaches reservoir operation and control as a system, rather than as a set of disconnected functions. As such, it is a strategy for applying multiple technologies in an optimal way to achieve synergy. Need for improved recovery projects * 4.3.4 Large models * 4.5 Implement and operate * 4.5.1 Implementation plan * 4.5.2
- Europe > Norway > North Sea > Northern North Sea > North Viking Graben > PL 104 > Block 30/9 > Oseberg Field > Tarbert Formation (0.99)
- Europe > Norway > North Sea > Northern North Sea > North Viking Graben > PL 104 > Block 30/9 > Oseberg Field > Oseberg Formation (0.99)
- Europe > Norway > North Sea > Northern North Sea > North Viking Graben > PL 079 > Block 30/9 > Oseberg Field > Tarbert Formation (0.99)
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- Information Technology > Knowledge Management (0.40)
- Information Technology > Communications > Collaboration (0.40)
...Reservoir management Petroleum reservoir ...management is a dynamic process that recognizes the uncertainties in reservoir performance resulting from our ...multiple technologies in an optimal way to achieve synergy. Contents * 1 Overview * 2 Reservoir management processes * 3 Case studies of reservoir ...
Petroleum reservoir management is a dynamic process that recognizes the uncertainties in reservoir performance resulting from our inability to fully characterize reservoirs and flow processes. It seeks to mitigate the effects of these uncertainties by optimizing reservoir performance through a systematic application of integrated, multidisciplinary technologies. It approaches reservoir operation and control as a system, rather than as a set of disconnected functions. As such, it is a strategy for applying multiple technologies in an optimal way to achieve synergy. Need for improved recovery projects * 4.3.4 Large models * 4.5 Implement and operate * 4.5.1 Implementation plan * 4.5.2
- Europe > Norway > North Sea > Northern North Sea > North Viking Graben > PL 104 > Block 30/9 > Oseberg Field > Tarbert Formation (0.99)
- Europe > Norway > North Sea > Northern North Sea > North Viking Graben > PL 104 > Block 30/9 > Oseberg Field > Oseberg Formation (0.99)
- Europe > Norway > North Sea > Northern North Sea > North Viking Graben > PL 079 > Block 30/9 > Oseberg Field > Tarbert Formation (0.99)
- (3 more...)
- Information Technology > Knowledge Management (0.40)
- Information Technology > Communications > Collaboration (0.40)
...Saturation evaluation The near-wellbore environment is usually altered by the drilling process in several ways, one of ...se parameters are: * Overbalance magnitude * Mud-fluid-loss parameters * Mudcake permeability * Formation porosity * ...Formation permeability * In-situ fluid viscosity The exact shape of the invaded zone is unknown but is assu...
- Information Technology > Knowledge Management (0.41)
- Information Technology > Communications > Collaboration (0.41)
...PEH:Reservoir Management Programs Publication Information Petroleum Engineering Handbook Larry W. Lake, Editor-in-Chi...dward D. Holstein, Editor Copyright 2007, Society of Petroleum Engineers Chapter 20 – Reservoir Management Programs E.D. Holstein, Consultant and E.G. Woods, Consultant Pgs. 1599-1622 ISBN 978-1-55563-...120-8 Get permission for reuse Reservoir management has been in place in most producing organizations for several years. Several authors[1][2][3][4][...
Figure 1.1 illustrates reservoir management processes. The processes are divided into those stewarded by the reservoir management team (RMT) and those guided by the supervisors and managers associated with reservoir management who comprise the reservoir management leadership team (RMLT). The arrows in the RMT box show work flow and how data and opportunities are captured.
- Asia (1.00)
- South America (0.67)
- North America > United States > Texas (0.46)
- Europe > United Kingdom > North Sea (0.28)
- Geology > Sedimentary Geology > Depositional Environment (1.00)
- Geology > Structural Geology > Fault (0.93)
- Geology > Geological Subdiscipline > Stratigraphy (0.93)
- Geology > Rock Type > Sedimentary Rock > Clastic Rock > Sandstone (0.48)
- Geophysics > Seismic Surveying (1.00)
- Geophysics > Borehole Geophysics (1.00)
- Energy > Oil & Gas > Upstream (1.00)
- Water & Waste Management > Water Management > Lifecycle > Disposal/Injection (0.47)
- Europe > United Kingdom > North Sea > Northern North Sea > East Shetland Basin > Block 211/7a > Magnus Field > Kimmeridge Formation > Magnus Formation (0.99)
- Europe > United Kingdom > North Sea > Northern North Sea > East Shetland Basin > Block 211/7a > Magnus Field > Kimmeridge Formation > Lower Kimmeridge Clay Formation (0.99)
- Europe > United Kingdom > North Sea > Northern North Sea > East Shetland Basin > Block 211/29 > Brent Field (0.99)
- (15 more...)