Publications Details

The prevention of bit balling by electro-osmosis

Roy, S.

The majority of all oil well footage drilled is in shales and other clay-bearing rocks. The mechanical strength of these formations usually is not an issue as regards their fast penetration by the drill bit. The difficulties associated with these formations arise due to the chemically reactive nature of such formations, causing the cuttings to stick to the bit. This causes a decrease in the rate of penetration of the drill bit and also has a detrimental effect on the state of the wellbore. This report presents a radical approach to preventing the adherence of shale cuttings to the bit. It consists of applying a direct electrical potential between the rock and the bit while drilling, while making the latter the cathode. Due to the process of electro-osmosis that occurs in shales, this results in the migration of a thin layer of water to the interface between the metal body (cathode) and the rock (anode). It has been demonstrated that this layer of water at the interface aids in the penetration of single-point indenters and also facilitates their withdrawal. Interfacial friction between a shale and a metal body was reduced, as was the tendency of shale cuttings to adhere to the metal surface. All of these combined to cause significant increases in the rate of penetration of a cathodic bit, as compared to the case when no potential was applied. It has been shown that when the bit was made the cathode, the maximum advantage was obtained when drilling conditions got worse, making it ideally suited for field applications. It was also shown that in the time intervals relevant to drilling operations, an amount of water sufficient to provide a coating on the bit was migrated out of a shale. It is believed that since the contact between the metal and the shale completes the electrical circuit to produce the driving force, this technique should work under most operating conditions. 63 refs.