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Strategies & Market Trends : Ride the Tiger with CD -- Ignore unavailable to you. Want to Upgrade?

To: TheBusDriver who wrote (116620)	6/3/2008 10:33:32 AM
From: E. Charters	Read Replies (1) \| Respond to of 314168

Wad "Scumbucket" (Schlumberger prncd, "shlumberjay") is saying is that if muds penetrate the formation, i.e. low formation pressure, then they create a situation where if the hole deviates from vertical the pipe gets stuck in wall-mud by mud pressure on one side of the drill string.? I could not see how low rock pressure or water pressure from the rock could work with high mud pressure to stick the string otherwise.. unless it was one-sided in some way.. "A removable porous layer is placed on the outside of various well implements. The layer allows movement of liquid toward sites of localized low pressure and therefore prevents differential pressure stickage of the well implements on the borehole wall." Differentially stuck pipe is a condition where part of the O.D. of the drill string is exposed to the natural pressure of the formation, and part of it is exposed to the hydrostatic head of the mud in the hole. The symptoms are full circulation but inability to rotate or reciprocate the pipe. In other words, you’re stuck. A good solids control program helps keep mud weight down and wall cake thinner and tougher. Wall sticking has several contributing factors. Drilling a low-pressure sand with high mud weights is an invitation for disaster. Poor solids control usually is the cause. The solids go up in the mud, the wall cake gets thicker, spongier and more porous, and you start to notice fluid loss in the pits. The pipe usually sticks when you stop to make a connection. You reconnect the kelly or tophead, start circulation, but the pipe won’t move. Most drillers immediately start pulling on the pipe harder and harder ’til they realize they ain’t got enough rig. There’s a good reason for this, given these conditions: * Depth: 300 feet * Static formation water level in the formation: 200 feet = 43.32 psi formation pressure * Mud in the hole: 10.5 ppg = 163.8 psi head on the hole. This means that you’ve got a 120.48 psi differential pressure between the column of mud in the hole and the natural formation pressure. That’s per square inch, folks! Further imagine that you have a 6-inch-by-20-foot drill collar in a 7 7/8-inch hole, and just one-third of it is exposed to natural formation pressure: 6-inch collar O.D. = 18.85 circumference. One-third of this is 6.22 inches. When you square 6.22, it means that you’ve got 38.69 square inches of collar exposed to the formation per inch. With a 20-foot collar, this means 9,285.6 square inches of collar exposed for formation pressure. At a differential of 120.48 psi, the force required to pull free would be 1,118,729 pounds! No wonder the rig won’t pull it! What to do about it? The first and most important thing to do is prevention. Good mud and good solids control go a long way. Good mud will build a thin, tough wall cake that is resistant to leaking and isolate the drill string from the natural pressure of the hole. A good solids control program will help keep mud weight down and wall cake thinner and tougher. Mechanical solids separation is the most effective way to control mud properties. Shale shakers and desanders beat the heck out of a big ol’ strip mine in the customer’s yard! Mechanical solids separation is the most effective way to control mud properties. A desander from Kem-Tron Technologies Inc. If you do find yourself wall stuck, don’t despair. Circulate and condition the mud with fresh gel and water. Pump off if you have to. Bring the weight down – you are checking the weight, aren’t you? – and the viscosity up. Lower the mud weight as much as you can and still keep up the gel strength. Rotation is more helpful than straight pull to free the pipe but be careful, don’t wring it off. If the pipe comes free, don’t fool around going to lunch: Get it moving! Come out of the hole until you are above the bad spot and circulate and condition the hole. If you still are not free, there is another trick I’ve occasionally used over the years. You can aerate the mud to lighten the hydrostatic head. To do this, tie the compressor into the standpipe. Get the mud pump running at a good circulation rate and SLOWLY add air to the mud going to the hole. At some point, the hydrostatic head of the mud in the hole will be less than the formation pressure and the pipe will be free. Immediately start rotation, shut off the air and condition the hole. This is tricky because there is a fine line between freeing the pipe and having the formation heave in on the drill string. I’ve seen situations where none of these methods worked. A lot of drillers will run a tremie line down beside the drill string to try to free it. The problem with this is the tremie usually tries to stay on the free side of the pipe, doing no good at all. You’ve got to get good mud between the drill string and the wall of the hole. The only way to do this is with wash pipe. Wash pipe is specially sized, flush joint pipe that is bigger than the fish but smaller than the hole. If you haven’t done it before, don’t try it at home, kids. Improperly run wash pipe is the best way I know to stack a fish on a fish and junk a hole, but run right, it is a lifesaver. The professional fishing tool companies have the pipe and the expert advice to get-er-done. Adding bentonite to increase the drilling mud’s viscosity. Hope this helps. Remember the three Ps: planning, preparation and prevention. In the meantime, I’m still spitting #4 buckshot out of Willard’s turkey leg! ND I hope I haven't quote-d you. EC<:-}