Accurate prediction of pore pressures and fracture gradients has become almost essential to drilling deep wells with higher-than-normal pore pressures.
Costs and drilling problems can be reduced substantially by recognizing abnormally high pore pressures early. The accurate determination of fracture gradients defines the need for protective casing that must be placed on total annulus pressures during drilling.
Every method used to recognize or predict changes in pore pressure is based on formation compaction or the lack of it. Compaction occurs primarily in shales; hence, most prediction methods are based on what happens when drilling or logging shale sections, and shale becomes denser as depth increases. If this does not happen, suspect abnormally high pore pressures.
Pore pressure transmission also can be described as the transmission of mud overbalance pressure by penetration of the mud filtrate into the rock micropores and fractures. This transmission of mud overbalance to the rock weakens the rock matrix, but more importantly, effectively removes the differential pressure between the mud and the rock, causing hole instability.
Recognizing changes in pore pressure while drilling is vital so that mud weight can be altered before problems develop. Decreases in pore pressure may signal lower fracture gradients and a high vulnerability to underground blowout. Increases in pore pressure, if not contained by quick increases in mud weight, may result in difficult-to-control well kicks and subsequent blowouts.
BP has developed new technologies to monitor the wellbore pressure in real time. The operator can determine the pore pressure and fracture gradient in real time from logging-while-drilling (LWD) measurements and managing the wellbore pressures between these limits.
Two recent deepwater Gulf of Mexico wells have benefited from real-time wellbore pressure management at the wellsite. The advantages of having a good handle on the pore pressure and fracture gradient while drilling in deepwater include:
safety;
avoiding time lost and cost due to kicks and losses;
pushing casing seats as deep as possible to eliminate additional casing or liner strings;
improved average rate of penetration by avoiding unnecessary flow and bottoms-up checks; and
increased chance of reaching deep exploration targets.
Real-time pore pressure
Wellbore pressure management is reliant on an accurate determination of pore pressure. BP, during normal drilling operations, provides predrill pore pressure predictions based on analysis of seismic velocities, offset well data and basin modeling. However, predrill estimates are, by their nature, uncertain. Limitations include:
low resolution of seismic interval velocities;
questionable accuracy of depth of events ahead of the bit; and
uncertainty in the seismic velocity to pressure transformation.
The inherent uncertainties in predrill predictions can be addressed by interpreting LWD logs in real time. The sonic and resistivity measurements can be used (together with a gamma ray) to perform a pore pressure analysis.
On the Crazy Horse North and Bison exploration wells in the deepwater Gulf of Mexico, BP has used Schlumberger's Perform service to carry out real-time pore pressure analysis. Essentially, this means the drilling team can monitor the pore pressure right behind the bit 24 hours a day. Using this technology, the drilling team can gain more value from LWD measurements, and it can use the data to support important drilling decisions.
In situations where the pore pressure model shows a significant change, the interpretation skills of the onshore experts can be called upon. Collaboration between the onsite engineer and the onshore pore pressure specialists is vital.
Real-time fracture gradient
The upper limit to the wellbore pressure management window generally receives less attention than the pore pressure but is equally important. Pore pressure is a significant input to the fracture-gradient calculation. As pore pressure is being computed in real time, so too is the fracture gradient. The onsite engineer computes sand and shale fracturing gradients. Shale fracture gradients can be calibrated to leak-off pressures, which are measured accurately with downhole pressure gauges. In addition, recent work with multiple depth of investigation resistivity tools has started to reveal a mass of information about fracturing and fluid loss in the wellbore in both sands and shales. This is essential information the onsite engineer is well positioned to make good use of to calibrate fracture gradient models.
Additional monitoring
In addition to the LWD and measurement-while-drilling measurements, the onsite engineer integrates all other indicators of pressure. These tend to be the indicators mud loggers traditionally have monitored, such as background and connection gas, cuttings and cavings, rate of penetration and torque, mud losses and gains.
Onsite engineers work closely with the mud loggers, shaker hands, drillers, the drilling engineer and the company man to obtain as much pressure-related information as possible. Armed with this information, the engineer acts as a focal point for information and decision support, which in turn can provide good wellbore pressure management.
Acknowledgements
1. Vinson, P. and Edwards, S.: Well Connected, January 2001, pp. 14-15.
2. Moore, P: Drilling Practices Manual, pp. 463-465.
Recommended Reading
Triangle Energy, JV Set to Drill in North Perth Basin
2024-04-18 - The Booth-1 prospect is planned to be the first well in the joint venture’s —Triangle Energy, Strike Energy and New Zealand Oil and Gas — upcoming drilling campaign.
Crescent Point Divests Non-core Saskatchewan Assets to Saturn Oil & Gas
2024-05-07 - Crescent Point Energy is divesting non-core assets to boost its portfolio for long-term sustainability and repay debt.
Permian Resources Adds More Delaware Basin Acreage
2024-05-07 - Permian Resources also reported its integration of Earthstone Energy’s assets is ahead of schedule and raised expected annual synergies from the deal.
Evolution Petroleum Sees Production Uplift from SCOOP/STACK Deals
2024-05-07 - Evolution Petroleum said the company added 300 gross undeveloped locations and more than a dozen DUCs.
Riley Exploration Permian Closes Delaware Basin Bolt-on
2024-05-08 - Riley Exploration Permian said it added 13,900 acres and up to 25 net locations in Eddy County, New Mexico.