Drilling Advances
Essay Preview: Drilling Advances
Report this essay
Drilling advances
Section: Columns
Adaptation. Recently, while watching a documentary on agriculture, I was struck by the similarities between farming equipment used in the mid- to late-19th century and early drilling equipment. In the film, an old thresher powered by a steam engine was separating grain from husk. The engine was connected by a wide fabric band to a large wooden wheel with a crank arm that converted rotary motion into a linear rocking arm. I remembered seeing a similar machine somewhere in an old photograph. Sure enough, a quick check of an old water-well, cable-tool rig, similar to the ones my grandfather used in the early 1900s, confirmed that the power-conversion system was almost identical to that of the thresher.
I then went back to a photo album, which I had assembled during high school, of antique pumping equipment in the Texas Panhandle. Again, an ancient steam engine was connected to a large wooden band wheel by a fabric belt. The band wheel had a crank that was connected by a stiff arm to a horizontal wooden beam that pivoted at its center. The other end of this “walking beam” connected to wooden sucker rods in the well. As the band wheel turned, the walking beam rocked up and down, providing reciprocating vertical motion to pump the shallow oil well. This system was, of course, the basis for the design of later steel pumping units (nodding donkeys) seen in oilfields around the world.
Clearly, this was an adaptation of another industrys technology to oilfield operations.
Thinking of pumping, I began to look into the history of rod-pumping systems. Sure enough, wooden sucker rods and downhole pumps with traveling valves came directly from windmills. The Dutch deserve credit for this invention; their windmills have been pumping water for centuries. The same technology was adapted by ranchers in the US, Australia, Spain and other areas. Then, the oil business picked it up, adapted it and modified it for more rigorous service.
Rig automation is another adaptation area. Manufacturing industries in Japan began developing automation in the mid-1950s, particularly in steel and automobile manufacturing. Early efforts were rudimentary, but with the advent of computer chips and robotics, automation became routine. Now, we have iron roughnecks, pipe-racking systems and even automated choke manifolds for dynamic underbalanced drilling. Again, the oil industry adapted technology from another industry for its purposes.
I saw a video clip earlier in the week about the efforts to rebuild the Noble Clyde Boudreax, a dual-function drilling rig that recently began working for Shell at Perdido Field in the GOM. This vessel is a state-of-the-art semisubmersible with many improvements, all aimed at maximizing performance while minimizing HSE risks. Of particular interest were the drillers stations (two derricks, two stations). The driller sits in an ergonomically designed chair with a joystick on either armrest. He literally controls all drilling functions from a single station. Around him, and below his line of sight, is an array of indicators. In the center is the ubiquitous weight indicator. To his right and left are computer screens with various displays in a variety of colors and sizes. Alarms pop up in red print and some flash, if urgent. Ill bet my grandfather would love to have seen it!
The drillers on this rig sit in an enclosed room with glass panels all around. The room is both a safe haven and a comfortable place to work with little of the stress involved in open-floor operations. Nice.
This setup reminded me of an F-14 jet fighter cockpit I had seen while in college and working at an Air Force base near Lubbock, Texas. The center joystick with multiple switches and control buttons, the displays, the avionics and the controlled environment all looked similar.
What the F-14 had that the rig did not have was a heads-up display on the cockpit windscreen. The pilot never had to drop his eyes to see critical displays and warnings. They were projected onto the inside of the windscreen, but the pilot could look through them to see what was going on outside the cockpit. I understand that it takes some