SU619661A1 - Method of drilling boreholes of large diameter - Google Patents

Description

I

The invention relates to a method for drilling large diameter wells combined with a casing run.

There is a method of backwash using periodic airlift when drilling units. The disadvantage of this method is that cleaning of the bottom is not in the process of destruction of the bottom of the PTV unit and, thus, does not exclude repeated grinding of the rock pieces with the bits already separated from the massif.

The closest to the present invention is a method for drilling large diameter wells, including the running of casing with the creation of an upward flow of fluid in the space between the casing and the borehole wall during drilling.

The disadvantage of this method is inefficiency due to the low rate of the upward flow of the washing liquid.

In order to increase the productivity of the drilling process, the fluid in the annulus is aerated and, at the same time, cleaned working fluid is fed into the casing cavity.

FIG. 1 shows a well drilling scheme using the proposed method with simultaneous alignment of the descent of a column; in fig. 2 is a section A-D in FIG. one.

In the casing string 1, for example, a retractable jet-turbine drill 2 is placed, and into the gap 3 formed by the production wall 4 and the outer surface of the casing 1, pipes 5 are lowered. For example, a slurry pump 6 is installed on the surface, communicated with the tank 7 and equipped with a drain pipe 8.

The wellhead, and consequently, the annular space 3 is communicated by the channel system 9 with the settling tank 10 communicated with the reservoir 7. The drill string 11 with the swivel 12, the pressure hose 13, the drill 2 and the casing are suspended, for example, on the hook 14 of the talted system (in the figures not shown) of the rig.

The drilling of the proposed method is carried out as follows.

The working fluid pumped by the drilling pumps (not shown in the figures), through the hose 13, the swivel 12 and the drill string 11, actuates the jet-turbine drill 2, forming a well with a diameter larger than the outer diameter of the casing olonna 1, by the size of the double gap 3. Cleaning the bottom of the sludge in the process of chiseling is done by a fluid flow coming out of the nozzles of the rock-destruc- tion tool and then falling into the gap 3 between the wall of the working and the casing.

Formation of fluid flow upstream of the column is provided by the difference in hydrostatic pressures in the cavity of the casing and the annulus created by aerating the liquid in its upper section - Liquid is aerated by injecting air through the air pipe 5. As the flow rate of the liquid supplied to the engine and output bit through the nozzles is limited, simultaneously with aeration of the fluid behind the casing, a purified working fluid is pumped into its interior using, for example, low-pressure Sosa.

Injection of fluid into the casing allows the rate of upward fluid flow in the annulus to be increased to a value that ensures intensive removal of the rock being drilled.

The application of the proposed method of drilling large diameter wells due to the intensification of the removal of drill cuttings allows drilling of large diameter wells at a faster rate.

Claims (2)

1. Author's certificate of the USSR 152220, cl. E 21 B 1/06, 1961, 2. The author's certificate of the USSR 181582, cl. E 21 D 1/06, 1963. (from the Kvappressor Liquid from EuroV pumps) (