Semi-submersible drilling vessel with a mud treatment and circulation system

The invention claimed is: 1. A semi-submersible drilling vessel, said vessel comprising: a deckbox structure; one or more pontoons; and multiple support columns extending upward from the one or more pontoons and supporting thereon the deckbox structure; wherein the deckbox structure has an upper deck and a box bottom, and wherein the deckbox structure has a moonpool extending through said deckbox structure, wherein the vessel comprises a drilling installation with a drilling tower erected above the upper deck of the deckbox structure and adapted to perform drilling operations along one or multiple firing lines through said moonpool, where said vessel has a drill floor, wherein said drilling installation comprises a diverter arranged in the moonpool below the drill floor, wherein the vessel is provided with a mud treatment and circulation system, wherein the vessel is provided with a shaker room within the deckbox structure and in proximity of the moonpool, wherein a mud return line, is provided that passes mud from the diverter to the shaker room, wherein the mud treatment and circulation system comprises, in said shaker room: one or more shale shaker devices; one or more upstream mud tanks arranged to receive gas cut mud from the one or more shale shaker devices; a vacuum degasser having an inlet pipe extending into an upstream mud tank, a vacuum tank, a vacuum pump, and an outlet, said vacuum degasser having a self-suction effect; and a degassed mud tank receiving degassed mud from the outlet of the vacuum degasser, said degassed mud tank having a bottom, wherein the mud treatment and circulation system further comprises, within the deckbox structure: one or more active mud tanks; and one or more mud pumps having inlets connected to the one or more active mud tanks, wherein the upper deck of the deckbox structure, at least a portion thereof above the shaker room is at the same level as the drill floor, wherein the degassed mud tank receiving degassed mud from said vacuum degasser has an effective height between the bottom thereof to an operational mud level in said degassed mud tank that is greater than a corresponding effective height of said one or more upstream mud tanks, and wherein the degassed mud tank is mounted so that, in operation, an operational mud level in said degassed mud tank is at least 1.5 meter higher than in said one or more upstream mud tanks with the vacuum degassers self-suction effect causing the mud to be pumped from the upstream mud tank, via the vacuum degasser, into the degassed mud tank. 2. The semi-submersible drilling vessel according to claim 1 , wherein the one or more active mud tanks have an operational mud level that is the same as that of the degassed mud tank receiving degassed mud from the vacuum degasser outlet. 3. The semi-submersible drilling vessel according to claim 2 , wherein the deckbox structure has a lower deck above the box bottom, with the framework of the lower deck in between, and wherein the one or more upstream mud tanks, the degassed mud tank, the one or more active mud tanks, and any tanks intermediate the degassed mud tank and the active mud tanks are arranged with their bottom on or in proximity of the lower deck. 4. The semi-submersible drilling vessel according to claim 1 , wherein the deckbox structure has a lower deck above the box bottom, with the framework of the lower deck in between, and wherein the one or more upstream mud tanks, the degassed mud tank, the one or more active mud tanks, and any tanks intermediate the degassed mud tank and the active mud tanks are arranged with their bottom on or in proximity of the lower deck. 5. The semi-submersible drilling vessel according to claim 1 , wherein the mud return line is a downward sloping mud return line that slopes down from the diverter to the shaker room. 6. The semi-submersible drilling vessel according to claim 1 , wherein the degassed mud tank is mounted so that, in operation, an operational mud level in said degassed mud tank is at least 2 meters higher than in said one or more upstream mud tanks with the vacuum degassers self-suction effect causing the mud to be pumped from the upstream mud tank, via the vacuum degasser, into the degassed mud tank. 7. A method for drilling a subsea wellbore, comprising using the semi-submersible vessel according to claim 1 , wherein during drilling, mud is circulated, and wherein the vacuum degasser sucks mud from the one or more upstream mud tanks into the vacuum tank and discharges degassed mud via the outlet into the degassed mud tank, wherein the degassed mud tank receiving degassed mud from said vacuum degasser has an effective height between the bottom thereof to the operational mud level in said degassed mud tank that is greater than the corresponding effective height of said one or more upstream mud tanks, and the operational mud level in said degassed mud tank is at least 1.5 meter higher than in said one or more upstream mud tanks with the vacuum degassers self-suction effect causing the mud to be pumped from the upstream mud tank, via the vacuum degasser, into the degassed mud tank.