Drilling fluid invasion: Difference between revisions
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'''Drilling fluid invasion''' is a process that occurs in a well being drilled with higher wellbore pressure than [[formation pressure]]. The liquid component of the [[drilling mud|drilling fluid]] (known as the [[mud filtrate]]) continues to "invade" the porous and permeable formation until the solids present in the mud, commonly [[bentonite]], clog enough pores to form a [[mud cake (oil and gas)|mud cake]] capable of preventing further invasion. |
'''Drilling fluid invasion''' is a process that occurs in a well being drilled with higher wellbore pressure (normally caused by excessive mud weights) than [[formation pressure]]. The liquid component of the [[drilling mud|drilling fluid]] (known as the [[mud filtrate]], or spurt) continues to "invade" the porous and permeable formation until the solids present in the mud, commonly [[bentonite]], clog enough pores to form a [[mud cake (oil and gas)|mud cake]] capable of preventing further invasion. |
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If invasion is severe enough, and reservoir pressures are unable to force the fluid and associated particles out entirely when the well starts producing, the amount of oil and gas a well can produce can be permanently reduced. This is especially true when a process called [[phase trapping]] occurs. This is when a fluid enters a formation that is below its [[irreducible saturation]] of that fluid. Once the fluid is present, it is held in place by capillary forces and usually can not be removed. |
If invasion is severe enough, and reservoir pressures are unable to force the fluid and associated particles out entirely when the well starts producing, the amount of oil and gas a well can produce can be permanently reduced. This is especially true when a process called [[phase trapping]] occurs. This is when a fluid enters a formation that is below its [[irreducible saturation]] of that fluid. Once the fluid is present, it is held in place by capillary forces and usually can not be removed. |
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Invasion also has significant implications for [[well logging]]. In many cases the "depth of investigation" of a well logging tool is only a few inches (or even less for |
Invasion also has significant implications for [[well logging]]. In many cases the "depth of investigation" of a well logging tool is only a few inches (or even less for methods such as [[sonic logging|sonic logs]]), and it is quite possible that drilling fluid has invaded beyond this depth. In these cases readings are strongly influenced by mud filtrate properties rather than pure formation (in situ) properties. This influence must be considered when interpreting the resulting logs. |
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==See also== |
==See also== |
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*[[Resistivity logging]] |
*[[Resistivity logging]] |
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==References== |
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*{{cite book|author=Roscoe Moss Company|title=Handbook of Ground Water Development|url=https://books.google.com/books?id=6VM0Xqxe0QUC&pg=PA56|date=21 February 1990|publisher=John Wiley & Sons|isbn=978-0-471-85611-5|pages=56–}} |
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{{Petroleum industry}} |
{{Petroleum industry}} |
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[[Category:Drilling fluid]] |
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[[Category:Petroleum production]] |
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[[Category:Drilling technology]] |
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[[Category:Well logging]] |
[[Category:Well logging]] |
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Latest revision as of 17:01, 9 January 2024
 | This article includes a list of references, related reading, or external links, but its sources remain unclear because it lacks inline citations. (January 2024) |
Drilling fluid invasion is a process that occurs in a well being drilled with higher wellbore pressure (normally caused by excessive mud weights) than formation pressure. The liquid component of the drilling fluid (known as the mud filtrate, or spurt) continues to "invade" the porous and permeable formation until the solids present in the mud, commonly bentonite, clog enough pores to form a mud cake capable of preventing further invasion.
If invasion is severe enough, and reservoir pressures are unable to force the fluid and associated particles out entirely when the well starts producing, the amount of oil and gas a well can produce can be permanently reduced. This is especially true when a process called phase trapping occurs. This is when a fluid enters a formation that is below its irreducible saturation of that fluid. Once the fluid is present, it is held in place by capillary forces and usually can not be removed.
Invasion also has significant implications for well logging. In many cases the "depth of investigation" of a well logging tool is only a few inches (or even less for methods such as sonic logs), and it is quite possible that drilling fluid has invaded beyond this depth. In these cases readings are strongly influenced by mud filtrate properties rather than pure formation (in situ) properties. This influence must be considered when interpreting the resulting logs.
See also
[edit]References
[edit]- Roscoe Moss Company (21 February 1990). Handbook of Ground Water Development. John Wiley & Sons. pp. 56–. ISBN 978-0-471-85611-5.
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