north louisiana salt in order to assess the four key risk
TRANSCRIPT
80 GeoexPro September 2015 GeoexPro September 2015 82
In order to assess the four key risk factors for exploration – reservoir, trap, seal, and charge (source and migration) – an interdisciplinary approach is required. Both dry and discovery wells have been analyzed in an attempt to provide an appraisal of the exploration scenarios that characterize this region.
This project requires the integration of well data (geological reports, well logs, biostratigraphic reports and mud logs including cuttings and lithology data), TGS 2D and 3D seismic, petrophysical data, thermal modeling and any other publicly available data, to create a concise assessment of the petroleum systems of the US offshore Gulf of Mexico. Presentation of results as a GIS project provides easy access to data and the possibility of detailed analysis of patterns and trends.
Gulf of
Mexico:Post Well Analysis
West Gulf Coast Tertiary
East Texas Salt
East Gulf Coast Tertiary
West Florida
Sabinas – Rio Grande
Yucatan Platform
Mississippi SaltNortheast Gulf Salt
North Louisiana Salt
Tampa
Black Warrior
Projection:�GCS�NAD�1927
0 110 22055
Kilometers
Phase 1 wellsPhase 2 wells
2D surveysCrimson Phases 43A and 43BPhase 44Phase 45Phase 47Phase 48Phase 50Phase 513D surveys
Study wells within the US Gulf of Mexico including TGS 2D and 3D datasets.
Seismic line from TGS Justice WAZ 3D, demonstrating overall structure and potential trapping mechanism.
North South
84 GeoexPro September 2015GeoexPro September 2015 83
Landmark
When predicting key play elements in the subsurface, the ability to place quantitative constraints on prospective reservoirs and seals provides major risk reduction.
The Neftex Reservoir and Seal module provides access to a continually growing, global database featuring millions of standardised, temporally and spatially located rock property data. All ready to be seamlessly integrated into your exploration projects.
Enhance Subsurface Prediction
Augment your exploration strategy.
Contact us today:
Website: www.neftex.comEmail: [email protected]: +44 (0)1235 442699LinkedIn: linkedin.com/company/neftexNeftex • 97 Jubilee Avenue • OX14 4RW • UK
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MC948_2_BP_60817411490000 Post Well AnalysisReser-voir TrapUnit Seal Charge Summ
-aryHC
ColumnHC
ShowQuater
nary
Terti
ary
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Pliocene
Miocene
Gelasian
Piacenzian
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Messinian
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0 0 0.41
0 0.8 0.51
R1 0.5 0.8 0.70.2
R2 0.7 1 0.70.1
R3 0.2 1 0.70.2
R4 0.4 1 0.70.2
R5 1 1 0.70.2
R1 0.8 1 0.70.2
R2 0.7 1 0.70.1
R3 0.6 1 0.70.2
R4 0.3 1 0.70.2
Indet.
oil
oil
Indet.
oil/condensate
oil/condensate
oil
Indet.
oil
Possible Charges for the well: Tithonian
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ir In
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al
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Noble MC948 2 (608174114900)Metres
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Interdisciplinary Approach to Gain ConfidenceUsing post well analysis in an interdisciplinary approach leads to a more confident understanding of complex petroleum systems.
including Green Canyon and Walker Ridge.Phase 2 is focused on the Western Gulf, where
an additional 50 wells are included across Alaminos Canyon, Port Isabel, Corpus Christi and East Breaks, with predominantly 2D seismic coverage. The focus of phase 2 is to analyze and refine the understanding of this region and to provide a robust platform for comparison with Mexican wells south of the border.
The four main elements assessed by the post well analysis (PWA) are reservoir, trap, seal and charge. By assessing wells from a holistic standpoint utilizing experience from geology, geophysics, petrophysics and basin modeling, we can determine the primary reasons for well success and failure.
Reservoir: Reservoirs are selected based on lithology, CPI data, presence of hydrocarbons, and zones of interest or targets defined by the original operator. Up to five reservoirs per unit are analyzed in each well, though due to the nature of sand deposition within the Gulf of Mexico, two sands with the same reservoir name in different wells may not be part of the same sand-body,
Due to the complex nature of strata offshore in the Gulf of Mexico, it is difficult to identify formations and sequences across wells based on lithology and wireline data alone. Integration of biostratigraphic data from the US Bureau of Ocean Management unified with the Gulf Basin Depositional Systems stratigraphic framework was, therefore, utilized to characterize differing units. All the data inputs, from a variety of sources, have been collated into a geodatabase which can be scrutinized using ESRI’s ArcGIS software and specific query tools developed by TGS.
This interdisciplinary study currently includes 50 wells from the US offshore Gulf of Mexico. A further 50 wells are being included in a second phase (see map on preceding page). The criteria for well selection is based upon location in key areas of exploration, depth, well stratigraphy and availability of data.
The Phase 1 work schedule included the first 50 project wells centered around the TGS 3D surveys in the Eastern Gulf, such as Mississippi Canyon, Atwater Valley, and Main Pass areas, and infilling with 2D seismic in areas
even in circumstances where the wells are less than a half a mile apart. Porosity and net-to-gross (N:G) values, along with thickness and lithology information, are utilized to determine the rating of each reservoir. Porosity and N:G data were determined from CPI calculations.
Seal: Assessment of the seal for each reservoir was split into two parts: top seal and critical seal. Top seal was assessed directly at the well, using the log interpreted lithology to determine the likely vertical thickness and heterogeneity of the section. The critical seal is assessed where structural elements away from the well are necessary to form a lateral seal, i.e. a closing fault in a faulted anticline. Lithology at the well is combined with seismic character around the well to determine the possible lithology across a fault from the reservoir interval in order to ascertain whether there are likely to be thief zones across the fault. The presence of gas clouds and bright amplitudes around the well are used as indications as to whether the fault itself is sealing, or a migration conduit away from the reservoir.
Trap: Assessment of the trap, as with the other parameters, is at the reservoir level. Within each section it is determined if there is a valid trapping mechanism seen on available seismic. When a trapping mechanism is identified on the seismic, as seen on the main foldout line on the preceding page, it is rated on likelihood of success or failure. Confidence ratings are applied on both the data available and the interpretation to allow for complete transparency in workflow. Any DHIs observed are also compiled and commented on. Analysis of trap timing and basic volumetrics are also included in this part of the study. Images are used to demonstrate the structures observed, using TGS multi-client 3D and 2D data. For each well assessed there are two seismic lines with TGS interpretation and depth grids for reservoir levels of interest.
Charge: Evaluation of the charge is based on effectiveness
of source rock (expulsion), using source rock quality at the well when geochemistry analysis is available, and also thermal modeling. Kitchen depths plus migration pathways, maximum burial and maximum temperature are all accounted for within the database. The main source rocks defined by Hackley (2012) formed the basis of the source rock units assessed. If a unit is potentially a good source rock, but there is no migration pathway (e.g. lack of carrier beds or lack of communicating faults) for the hydrocarbons from the kitchen to the well, then the failure was considered to be due to lack of charge.
Well Summary Chart and DatabaseUpon completion of the analysis of the four main geological parameters a well summary chart is created to graphically represent whether the well is a success or a failure at each stratigraphic interval. Pie segments are representative of the overall rating that is applied for each reservoir interval. For example, the well above (M696_2_Chevron_60817410340000, Blind Faith), identified two successful intervals where the four primary pie segments display high values. Hydrocarbons have migrated updip via faults to charge the reservoirs at LM2 R1 and MM R5 level that have good structural trap and effective closure. The upper intervals are generally found to have effective reservoir and seal but failed due to lack of closure and charge/migration pathways.
The final project is delivered in an ArcGIS geodatabase format, so that each well can be scrutinized. Attachments of seismic and well images are provided for each well in the database and a query tool allows the user to further interrogate individual elements of the wells.
Rating ConfidenceHydrocarbon exploration is a high risk investment and risk assessment is essential for successful asset management. Exploration is a complex concept and by using the PWA we have provided an independent confidence rating on the four main geological elements that are required for a successful outlook on wells that have been completed. References available online.
AleSSio CheCCoNi, Peter CoNN, DAviD little, eDwArD Smith, JAmeS StoCkley, erikA tiboChA; TGS
Possible Charges for the well: Tithonian
Reser-voirUnit
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ervo
irIn
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al
Trap Seal Charge HC Column HC Show
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ary
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Miocene
Zanclean
Messinian
Tortonian
Serravalian
Langhian
Summary
TRA
PSE
AL
CH
AR
GE
RES
ERVO
IR
FAILURE SUCCESS
No reservoir
No charge
No trap
Bad seal Good seal
Valid trap
Good sourceand migration
Good qualityreservoir
0 10.25 0.750.5
PB1
UM
MM
LM2
0 0 00.8
R1 0.6 0 00.9
R2 0.7 0 00.9
R3 0.8 0 00.8
R1 0.8 0 01
R2 0.4 0 01
R3 0.8 0 01
R4 0.7 0 00.6
R5 0.8 1 0.70.9
R1 0.6 1 0.70.8
oil
oil oil
Example PWA deliverables within the ArcGIS platform. Understanding the pitfalls and reasons for failure in an area of interest can help in avoiding similar issues in later wells.
Example summary table for a complete well section.