Difference between revisions of "Borehole gravity: uses, advantages, and disadvantages"
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'''Exploration purposes''' | '''Exploration purposes''' | ||
| − | * Locating nearby salt | + | * Locating nearby [[salt structure]]s |
| − | * Locating distance to nearby structures (e.g., | + | * Locating distance to nearby structures (e.g., [[reef]]s) for [[step-out]]s and [[sidetrack]]s |
* Better [[synthetic seismogram]]s | * Better [[synthetic seismogram]]s | ||
'''Production purposes''' | '''Production purposes''' | ||
| − | * Measuring bulk density when radioactive tools are too risky | + | * Measuring [[Basic_open_hole_tools#Density|bulk density]] when radioactive tools are too risky |
| − | * Logging cased holes for lithologic changes | + | * [[Basic cased hole tools|Logging cased holes]] for lithologic changes |
| − | * Calculating overburden for hydrofracture jobs | + | * Calculating [[overburden]] for [[hydrofracture]] jobs |
| − | * Monitoring injection fluids | + | * Monitoring [[injection fluids]] |
* Monitoring reservoirs during fluid withdrawal | * Monitoring reservoirs during fluid withdrawal | ||
* Exploring for bypassed, behind-casing gas zones | * Exploring for bypassed, behind-casing gas zones | ||
Revision as of 20:17, 27 May 2014
| Exploring for Oil and Gas Traps | |
| |
| Series | Treatise in Petroleum Geology |
|---|---|
| Part | Predicting the occurrence of oil and gas traps |
| Chapter | Applying gravity in petroleum exploration |
| Author | David A. Chapin, Mark E. Ander |
| Link | Web page |
| Store | AAPG Store |
Borehole gravity uses
Borehole gravity is especially effective for the following exploration and production purposes:
Exploration purposes
- Locating nearby salt structures
- Locating distance to nearby structures (e.g., reefs) for step-outs and sidetracks
- Better synthetic seismograms
Production purposes
- Measuring bulk density when radioactive tools are too risky
- Logging cased holes for lithologic changes
- Calculating overburden for hydrofracture jobs
- Monitoring injection fluids
- Monitoring reservoirs during fluid withdrawal
- Exploring for bypassed, behind-casing gas zones
- Evaluating reservoir porosity, especially in carbonate reservoirs where other tools are not as reliable
Borehole gravity advantages
The following characteristics give borehole gravity surveys advantages in certain situations:
- Directly measures bulk density
- Is a deep imaging tool
- Is effective in both cased and uncased wells
- Is unaffected by washouts, hole rugosity, or mud invasion effects
- Can help determine seismic wavelet scale density
- Is a passive measurement, e.g., does not have active radioactive sources
Borehole gravity disadvantages
The following characteristics give borehole gravity surveys disadvantages in certain situations:
- Direction away from the well to distant source cannot be determined without other information
- Engineering limitations of the tool restricts use to certain candidate wells (hole size, low deviation, slow reading)
- Only a few tools presently available for use
- Expensive to operate
See also
External links
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