Coil Drillouts3

Coil Drillouts Cubed.

When you are milling out plugs there is a tendency to stick with the status quo.. running super think gel sweeps and slugs of chemical.  Then after running these super thick slugs, pulling uphole and doing a “wiper” trip, or “short’ trip.  In reality, it is a waste to use viscosifying chemicals other than just enough FR  (Polyacrylamide -CH2CHCONH2)  to keep the circulation pressure low enough to keep moving without putting too much stress on the coil.

When your trying to get the mill/drill cuttings to transport to surface, a new logic applies;  keep the fluid as thin and turbulent as possible.  FR can’t pick up sand on its own; shear and turbulent action pick up the fine sediment and keep it suspended … same with plug debris.  The thicker you make the circulation fluid the worse the problem becomes – it just extrudes over the top of the sand and debris with no turbulent flow.

Thin out your drilling fluid – stop pumping sweeps.  Circulate fluid while moving slowly downhole, until all the surface returns are clean.  Instead of pulling short trips and getting wedged into debris, move downward slowly and let the well clean up just like you were drilling openhole.  When you reach the desired total depth, circulate clean again with about 300 ft/min or more annular velocity.  If you can get more annular velocity go for it.

SPE-187337-MS details the whole procedure needed to overhaul your current drillout program. It’s titled “Stop, Drop and Circulate; An Engineered Approach to Coiled Tubing Drillouts”  {It’s a reference to a popular 1980’s ‘clothing on fire; what to do’ campaign giving advise to ‘Stop, Drop, and Roll’}

(*Note :  The way that the well was stimulated will determine the rate of return you want.  If you flow back too aggressively after a crosslinked gel stimulation the small aperture of the perforations can cause washing out or pitting of the coil downhole.  Huge 100 mesh sand slickwater stimulation’s tend to leave large, tremendously eroded perforations behind that don’t tend to have the harmful velocities seen with small perforations.  If you get to greedy, you can end up causing coil damage.  With slickwater stimulation there is a much larger window… we really haven’t found out what you can get away with, but its a lot…)

The other thing to keep in mind is the size of the flowcross that you are using.  If you have to go cheap and get 2″ valves off the main bore, you run the risk of too much velocity across the coil tubing when the sand laden fluid erodes in transit through the orifice as it enters the 2″ ID of the flowcross.  Always try to get at least 1.5 x the diameter of the coil string for your flowcross when you drill out.  Use valves with a full bore opening when possible.