Gas-extraction device and associated analysis assembly and method

The invention claimed is: 1. A gas extraction device for extracting at least one gas contained in a drilling mud, the device comprising: an enclosure, an equipment for supplying the drilling mud to the enclosure, an equipment for introducing a carrier gas into the enclosure, a gas analyzer for analyzing the gas, which is directly connected to the enclosure via a gas-extraction pipe of the gas-extraction device, wherein the device comprises a flow regulator able to regulate a flow rate of a gas flow containing at least carrier gas, and a venturi vacuum pump situated downstream of the enclosure and of the analyzer in relationship to a gas flow, wherein the venturi vacuum pump is configured for locally setting a pressure lower than the pressure of the enclosure, whereby the enclosure has a higher pressure than the venturi vacuum pump, wherein the flow regulator is interposed between the venturi vacuum pump and the enclosure. 2. The gas extraction device according to claim 1 , wherein the gas analyzer comprises one of the following analyzers: a spectrometer, such as an infrared spectrometer, and/or a flame ionization detector chromatograph (FID), and/or a thermal conductivity detector chromatograph (TCD), and/or a gas chromatography system connected to a mass spectrometer (GC-MS). 3. The gas extraction device according to claim 1 , wherein the flow regulator is a sonic nozzle. 4. The gas extraction device according to claim 1 , wherein the gas extraction pipe has a length inferior to 10 meters. 5. The gas extraction device according to claim 1 , wherein the gas analyzed at the gas analyzer does not include gas coming from the venturi vacuum pump. 6. The gas extraction device according to claim 1 , wherein the means for introducing the carrier gas includes a pipe having an inlet opening outside to the atmosphere. 7. The gas extraction device according to claim 1 , wherein the means for introducing the carrier gas is the only inlet for the carrier gas into the enclosure. 8. The gas extraction device according to claim 1 , wherein the venturi vacuum pump includes an upstream portion and a downstream portion, and wherein the gas extraction pipe is connected to the upstream portion. 9. The gas extraction device according to claim 1 , wherein the gas analyzer is connected at an outlet of the gas analyzer to the flow regulator. 10. The gas extraction device according to claim 1 , wherein the gas-extraction pipe does not include a pump, a flow regulator, or a pump and a flow regulator. 11. The gas extraction device according to claim 1 , comprising a tank for receiving the drilling mud, wherein the enclosure is positioned in the tank, and wherein the gas extraction device comprises a level control unit for regulating the level of the mud in the enclosure. 12. The gas extraction device according to claim 11 , wherein the enclosure is positioned on an upper portion of the tank, and wherein the level control unit comprises a floating device, the floating device being able to float on the drilling mud, the floating device moving vertically upwards and downwards through a guiding equipment for guiding the floating device, the enclosure being mounted on the floating device. 13. The gas extraction device according to claim 11 , wherein the level control unit comprises a detector able to detect a drilling mud level around the enclosure and a level adjusting system, coupled with the detector and configured to raise or to lower the enclosure according to an indicator given by the detector. 14. A method for extracting at least one gas contained in a drilling mud, the method comprising: providing a gas-extraction device according to claim 1 , feeding the enclosure with drilling mud, providing carrier gas in the enclosure and forming a flow of carrier gas and gas extracted from the drilling mud situated in the enclosure with the venturi vacuum pump and the flow regulator, delivering the flow to the gas analyzer and analyzing the gas extracted from the drilling fluid with the gas analyzer, wherein delivering the flow to the gas analyzer includes delivering the flow without passing the flow through a vacuum pump or a flow regulator. 15. The method according to claim 14 , wherein the gas analyzer is located in an explosive region of a drilling operation. 16. A gas extraction device for extracting at least one gas contained in a drilling mud, the device comprising: a tank for receiving the drilling mud, and an enclosure positioned in the tank, an equipment for supplying the drilling mud to the enclosure, an equipment for introducing a carrier gas into the enclosure, a level control unit for regulating a level of the mud in the enclosure, wherein the device comprises a sonic nozzle or capillary tube able to regulate a flow rate of a gas flow containing at least carrier gas, and a pressure controller situated downstream of the enclosure configured for locally setting a pressure lower than the pressure of the enclosure, wherein the sonic nozzle or capillary tube is interposed between the pressure controller and the enclosure. 17. The gas extraction device according to claim 16 , wherein the enclosure is positioned on an upper portion of the tank, and wherein the level control unit comprises a floating device, the floating device being able to float on the drilling mud, the floating device moving vertically upwards and downwards through a guiding equipment for guiding the floating device, the enclosure being mounted on the floating device. 18. The gas extraction device according to claim 16 , wherein the level control unit comprises a detector able to detect a drilling mud level around the enclosure and a level adjusting system, coupled with the detector and configured to raise or to lower the enclosure according to an indicator given by the detector. 19. The gas extraction device according to claim 16 , wherein the sonic nozzle or capillary tube is configured to regulate at a constant flow rate by providing a constant outflow of gas based on a variable inflow of gas. 20. The gas extraction device according to claim 16 , wherein the enclosure, the sonic nozzle or capillary tube, and the pressure controller lie on a fluid path from the enclosure to the pressure controller, and wherein the sonic nozzle or capillary tube is configured to regulate a flow of gas along an entirety of the fluid path at a constant flow rate.