DEEP-WATER DRILLING GAS KICK PILOT-SCALE APPARATUS

Abstract

A deep-water drilling gas kick simulation experimental apparatus, comprising: a simulation wellbore having an upper wellbore transitioned to a lower wellbore through a variable cross section; a drilling tool with an annular space formed between the drilling tool and the simulation wellbore; a gas-injection system, comprising an air compressor and a gas-injection pipeline; a mud circulation system, comprising a mud supply source, a first pump, a second pump, and a mud-return pipeline; a Coriolis mass flowmeter provided on the mud-return pipeline; a Doppler sensor installed on the upper wellbore; and a built-in pressure gauge carrier connected between a drill pipe and a drill bit. The embodiments of the present disclosure have the comprehensive monitoring functions of monitoring the gas kick at the wellhead, the drilling riser, and the downhole, thereby providing accurate, large, and multiple data for establishing a high-performance early warning machine learning model.

Description

Claims

1. A deep-water drilling gas kick simulation experimental apparatus, comprising: a simulation wellbore with a closed bottom, comprising an upper wellbore and a lower wellbore, a diameter of the upper wellbore being larger than that of the lower wellbore, with a variable cross section formed between the upper wellbore and the lower wellbore;a drilling tool provided inside the simulation wellbore with an annular space formed between the drilling tool and the simulation wellbore, the drilling tool comprising a drill pipe and a drill bit;a gas-injection system comprising an air compressor and a gas-injection pipeline, the gas-injection pipeline having a gas inlet end coupled to the air compressor and a gas outlet end coupled to the bottom of the simulation wellbore;a mud circulation system comprising a mud supply source, a first pump configured to inject mud supplied by the mud supply source into the drilling tool, a second pump configured to inject mud supplied by the mud supply source into the annular space from the variable cross section, and a mud-return pipeline configured to return mud in the annular space to the mud supply source;a Coriolis mass flowmeter provided on the mud-return pipeline;a Doppler sensor installed on the upper wellbore; anda built-in pressure gauge carrier connected between the drill pipe and the drill bit.

2. The apparatus according to claim 1, wherein the upper wellbore comprises a main cylinder and a bypass pipe, and wherein the main cylinder is coupled to the lower wellbore, the drilling tool is located inside the main cylinder, the bypass pipe is located laterally of the main cylinder, two ends of the bypass pipe are coupled to and communicated with the main cylinder respectively, and the Doppler sensor is mounted on the bypass pipe.

3. The apparatus according to claim 2, wherein the Doppler sensor comprises a transmitter and a plurality of receivers mounted on an outer sidewall of the bypass pipe, the plurality of receivers are arranged at equal intervals along a circumferential direction of the bypass pipe and located on a same radial section thereof, and the plurality of receivers are located above the transmitters in an axial direction of the bypass pipe.

4. The apparatus according to claim 1, wherein the Doppler sensor is provided on the upper wellbore adjacent to the variable cross section.

5. The apparatus according to claim 1, further comprising a comprehensive logging system, which is electrically connected to the Coriolis mass flowmeter.

6. The apparatus according to claim 1, further comprising a data collector, which is electrically connected to the air compressor and the Doppler sensor.

7. The apparatus according to claim 1, wherein the first pump is coupled to the drilling tool through a first mud injection pipeline, the second pump is coupled to the variable cross section through a second mud injection pipeline, and the mud-return pipeline is coupled to the mud supply source and the upper wellbore.

8. The apparatus according to claim 1, wherein the gas-injection pipeline is provided with a solenoid valve, a gas flowmeter, a gas pressure transducer and a check valve.

9. The apparatus according to claim 1, further comprising a prefabricated rock pillar provided in the lower wellbore, wherein the prefabricated rock pillar comprises a plurality of mudstone rock pillars and a plurality of sandstone rock pillars alternately arranged along an axial direction of the lower wellbore; and the prefabricated rock pillar is internally provided with an axially penetrating gas-injection hole having a lower end communicated with the gas outlet end of the gas-injection pipeline.

10. The apparatus according to claim 1, further comprising a test wellbore, a packer and an anchor, wherein the simulation wellbore is provided inside the test wellbore, and the packer and the anchor are provided between the simulation wellbore and the test wellbore.