Down-Hole Motors for Improved Drilling
- Bill J. Roberts (Dyna-Drill Co.) | Charles H. Mohr (Dyna-Drill Co.)
- Document ID
- Society of Petroleum Engineers
- Journal of Petroleum Technology
- Publication Date
- December 1972
- Document Type
- Journal Paper
- 1,484 - 1,490
- 1972. Society of Petroleum Engineers
- 4.2.3 Materials and Corrosion, 5.3.2 Multiphase Flow, 1.11.2 Drilling Fluid Selection and Formulation (Chemistry, Properties), 1.5.1 Bit Design, 4.1.6 Compressors, Engines and Turbines, 1.10 Drilling Equipment, 1.5 Drill Bits, 1.11 Drilling Fluids and Materials, 1.10.1 Drill string components and drilling tools (tubulars, jars, subs, stabilisers, reamers, etc), 4.2 Pipelines, Flowlines and Risers, 1.6.6 Directional Drilling, 1.6 Drilling Operations, 2.4.3 Sand/Solids Control
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Down-hole motors can be used successfully in conventional or straight-hole work, and are no longer limited to directional drilling. Recent development work and field tests involving hydraulics, bit design, and stabilization have defined the conditions under which down-hole motor costs and performance can be optimized in straight-hole drilling.
The possibility of using a down-hole motor to power a drill bit was first recognized in 1873 when a U. S. patent was issued covering the down-hole rotary patent was issued covering the down-hole rotary hydraulic motor. Conventional rotary drilling was later patented in 1884, and since that time an increasing patented in 1884, and since that time an increasing effort has been aimed at finding improved drilling tools or systems to reduce drilling costs.
One approach to improving drilling practices has been to design and test a variety of down-hole motors. These have included mud-driven turbines. positive displacement mud motors, and electrically positive displacement mud motors, and electrically powered motors. Of these types, the most appealing powered motors. Of these types, the most appealing have been the turbines and the positive displacement mud motors, since mud is already used to remove cuttings from the wellbore in most drilling operations, its presence makes it a likely candidate for providing presence makes it a likely candidate for providing power to a drilling motor. power to a drilling motor. Mud-driven turbines have been under continuous development in Russia since the late 1920's or early 1930's, and their use of the turbine as a practical drilling technique was announced in the early 1950's. In 1955, development work on a positive displacement down-hole motor began in the U. S. The first effort was directed toward straight-hole drilling; but the tool was not considered economical because of bearing problems and because of the lack of bits capable of operating at high rotational speeds.
However, the motor did prove to be an economic and technical success as a directional tool. Since the early 1960's down-hole motors have performed thousands of successful jobs. They have been effective in drilling rat and mouse holes, in controlled directional drilling, side tracking, and hole straightening all in a variety of formations both onshore and offshore.
As wells are drilled deeper and costs continue to rise, it becomes even more desirable to locate the power to rotate the bit near the bit itself, and not at power to rotate the bit near the bit itself, and not at the surface. Drillpipe torque and tensile strength requirements, the quality and cost of drillpipe, and damage to the hole and to the protection casing can be minimized by having the rotating power at the bit.
Considering these advantages, recent developments in down-hole motors have again been aimed at straight-hole drilling. Key improvements in this direction have been in the areas of horsepower output and bearing design. These improvements have made it possible to increase both the penetration rate and the duration of the run to more nearly match the performance of the diamond bit. Development work is performance of the diamond bit. Development work is still proceeding, but a considerable amount of data can now be presented to illustrate the present state of the art.
The results of an extension field test are shown in Table 1, and provide the basis for an accurate comparison of conventional drilling vs drilling with downhole motors.
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