Your search keyword '"B.E. Kampman-Reinhartz"' showing total 2 results

1. Influence of Drillpipe Rotation and Eccentricity on Pressure Drop Over Borehole With Newtonian Liquid During Drilling

Author

G. Ooms and B.E. Kampman-Reinhartz

Subjects

Pressure drop, Physics::General Physics, Mechanical Engineering, media_common.quotation_subject, Borehole, Energy Engineering and Power Technology, Drilling, Rotation, Physics::Fluid Dynamics, Newtonian fluid, Geotechnical engineering, Eccentricity (behavior), Geology, media_common

Abstract

Summary Field measurements have revealed that the pressure drop over a borehole during drilling of a slim oil well or a well with a long reach can depend significantly on the rotation speed of the drillpipe. In this paper we discuss analytical, numerical and experimental studies to explain this effect for the case of a Newtonian liquid in the borehole. Special attention is paid to the inertial forces in the liquid (in the annulus), caused by the rotation and eccentricity of the drillpipe. It is concluded that for large values of these inertial forces the axial pressure drop depends significantly on the rotation speed of the drillpipe. A pressure drop simulator (also valid for the case of a non-Newtonian liquid in the borehole) has been developed, that includes this effect and is in good agreement with field test data.

Published

2000

2. Influence of Drillpipe Rotation and Eccentricity on Pressure Drop over Borehole during Drilling

Author

B.E. Kampman-Reinhartz, G. Ooms, and J.M. Burgerscentrum

Subjects

Pressure drop, Petroleum engineering, media_common.quotation_subject, Borehole, Drilling, Geotechnical engineering, Eccentricity (behavior), Rotation, Geology, media_common

Abstract

Field measurements have revealed that the pressure drop over a borehole during drilling of a slim oil well or a well with a long reach can depend significantly on the rotation speed of the drill pipe. This paper discusses analytical, numerical and experimental studies to explain this effect. Special attention is paid to the inertial forces in the liquid in the annulus caused by the rotation and eccentricity of the drill pipe. It is concluded that for large values of these inertial forces the axial pressure drop depends indeed significantly on the rotation speed of the drill pipe. A pressure drop simulator has been developed that includes this effect, and that is in good agreement with field test data.

Published

1999