What is the maximum spud angle that can be achieved to reach a target formation?
Well #1 is vertical. Well #2 is spudded 100' away (for example) on the surface, and is expected to produce a lateral 1000' parallel to #1 in the target formation. In this case, bore #2 descends at ~6.8 degrees if the target is 7500' deep. For well #3 (100' from #2), the borehole needs to descend at ~13.5 degrees. The question is: What is the maximum feasible angle? Can the well pad be situated at a considerable distance from the target locations, if a surface obstruction limits the availability of pad space?
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Permalink Reply by Keith A Williams on
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The Hiker,
I went to Wiki and got this:
Drilling to targets far laterally from the surface location requires careful planning and design. The current record holders manage wells over 10 km (6.2 mi) away from the surface location at a true vertical depth (TVD) of only 1,600–2,600 m (5,200–8,500 ft).[4]
HTH
Keith
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Permalink Reply by The Hiker on
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Keith: Thanks, and Wow. So, although preferable, the pad really doesn't have to be close to the lateral location. Conceivably, a landowner with a pad might assume they are automatically in the unit. Not so, the unit might be a mile away. That would be something to know before a landowner automatically agreed to the construction of a pad!
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Permalink Reply by Brian Powers on
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T. Hiker-
All horizontal wells start vertical at surface, angle gets built from 0° to 90° before the start of the lateral. Depending upon the pad configuration and mobility of the rig substructure, the surface locations can be quite close to each other; offshore the surface slots are typically about 10 feet center to center.
The contractor designing the directional drilling part of the well will generate a directional drilling profile that takes into consideration all adjacent well profiles. One of the last things an operator wants to do is to drill into adjacent wells- very bad things may happen.
I haven't seen too many well sketches from these wells, but I surmise that two strings of cemented steel casing are used, one to cover and protect near surface groundwater, and an intermediate string above the lateral. Steel liners with frac sleeves are often run into the lateral section after it is drilled and logged.
To me, the deviation angle does not matter as much as the smoothness of the profile. Again, the directional drillers will design a profile to a maximum "dog-leg severity" (DLS), typically 2-3° per 100 ft of hole; specialized runs are sometimes made before running casing to condition the mud and ream out any ledges or tight spotsin the borehole before running casing or liner. The well operator management teams frown when casing or liners get hung up and have to be pulled and re-run after conditioning the hole again. This is a good way to "throw good money after bad money" very quickly.
I see your scenario as being feasible, subsurface considerations notwithstanding, but the operator may not like building a second well pad unless the target is prolific wet gas.
Brian
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Permalink Reply by The Hiker on
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Brian: Thanks for the answer. I'm trying to understand how an operator would fully develop the acreage underneath a lake, if pads could only be built around the perimeter. Excellent wet gas potential.
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TH-
Drilling under lakes and other water features is common practice. Back in the early '80's, Amoco Production company drilled a number of wells under the Great Salt Lake in Utah. The caps and T-shirts all said "Offshore Utah Drilling Team." They were all dry holes in my recollection.
Good luck!
Brian
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