Arrangement and method for regulating bottom hole pressures when drilling deepwater offshore wells

Abstract

An arrangement and a method to control and regulate the bottom hole pressure in a well during subsea drilling at deep waters: The method involves adjustment of a liquid / gas interface level in a drilling riser up or down. The arrangement comprises a high pressure drilling riser and a surface BOP at the upper end of the drilling riser. The surface BOP havs a gas bleeding outlet. The riser also comprises a BOP, with a by-pass line. The drilling riser has an outlet at a depth below the water surface, and the outlet is connected to a pumping system with a flow return conduit running back to a drilling vessel / platform.

Description

RELATED APPLICATIONS[0001]This application is a U.S. National Phase Application of PCT Application No. PCT / NO02 / 00317, filed Sep. 10, 2002, which claims the benefit of U.S. Provisional Application No. 60 / 318,391, filed Sep. 10, 2001. Each of these applications is herein incorporated in its entirety by reference.FIELD OF THE INVENTION[0002]The present invention relates to a particular arrangement for use when drilling oil and gas wells from offshore structures that float on the surface of the water in depths typically greater than 500 m above seabed. More particularly, it describes a drilling riser system so arranged that the pressure in the bottom of an underwater borehole can be controlled in a completely novel way, and that the hydrocarbon pressure from the drilled formation can be handled in an equally new and safe fashion in the riser system itself.BACKGROUND OF THE INVENTION[0003]This invention defines a particular novel arrangement, which can reduce drilling costs in deep ocea...

AI Technical Summary

Benefits of technology

[0019]In another aspect the invention gives a particular benefit in well controlled situations (kick handling) or for planned drilling of wells with hydrostatic pressure from drilling fluid less that the formation pressure. This can involve continuous production of hydrocarbons from the underground formations that will be circulated to the surface with the drilling fluid. With this novel invention, both kick and handling of hydrocarbon gas can be safely and effectively controlled.

[0048]Since the drilling riser can be disconnected from a closed subsea BOP, it can be safer to drill under-balanced than from other installations that does not have this combination. The reason also is that the gas pressure in the riser is very low and will cause the drill string to be “pipe heavy” at all times, excluding the need for snubbing equipment or “pipe light” inverted slips in the drilling operation. If pressure build up in the gas / air phase cannot be kept low, a reduction in the riser pressure can be achieved by closing the subsea BOP and taking the return through the equalizing loop, thereby reducing the pressure in the riser. This stems from the fact that the friction pressure from fluid flowing in the reduced diameter of the equalizing loop will increase the bottom hole pressure, hence a reduced pressure in the drilling riser will be achieved.

Problems solved by technology

Particularly for smaller diameter hole sizes these additional dynamic forces become significant.

As the drilling fluid must have a specific gravity such that the fluid remaining in the well is still heavy enough to control the formation when the drilling marine riser is disconnected, this creates a problem when drilling in deep waters.

This is due to the fact that the marine riser will be full of heavy mud when connected to the sub sea blowout preventer, causing a higher bottom-hole pressure than required for formation control.

This results in the need to set frequent casings in the upper part of the hole since the formation cannot support the higher mudweight from the surface.

This also means that slimhole or slender wells are difficult to construct with present methods in deeper waters.

Normally it is not possible to control the pressure from the surface in a conventional drilling operation, due to the fact that the well returns will flow into an open flow line at atmospheric pressure.

However, this is a time consuming process and requires adding chemicals and weighting materials to the drilling mud.

Higher circulating rates generates higher friction pressure and consequently higher pressures in the bore hole.

The disadvantage of using frictional pressure control is that control is lost when drilling fluid circulation is stopped.

Frictional pressure loss is also limited by the maximum pump rate, the pressure rating of the pump and by the maximum flow through the down hole assembly.

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