Method and apparatus for detecting the liquid level in a liquid reservoir

What is claimed is: 1. An apparatus for altering a gas volume in a reservoir, the apparatus comprising: at least one valve having at least a first port being in fluid communication with the reservoir, a second port, and a conduit for enabling a liquid communication between the first port and the second port; and a valve member movable between at least an open position in which the first port and the second port are in fluid communication via said conduit, and a first closed position, in which the fluid communication between the first port and the second port is blocked by the valve member, wherein the valve member is movable into at least a second closed position, in which the fluid communication between the first port and the second port is blocked, wherein a volume of a chamber that is in liquid communication with the first port is altered when moving the valve member from the first closed position to the second closed position and/or from the second closed position to the first closed position, wherein a section of the conduit is provided by a bore that extends through the valve member, wherein the section of the conduit that extends through the valve member has at least a first opening being aligned with the first port and a second opening being aligned with the second port if the valve member is in the open position to thereby provide the fluid communication, and wherein when the valve member moves from the open position to the first closed position, the first opening of the section of the conduit that extends through the valve member moves out of alignment with the first port and the second opening of the section of the conduit that extends through the valve member moves out of alignment with the second port. 2. The apparatus of claim 1 , wherein the apparatus further comprises a sensor providing a signal being representative for a force F required to move the valve member against a pressure in the reservoir from the first closed position to the second closed position and/or from the second closed position to the first closed position. 3. The apparatus claim 1 , wherein the reservoir is a fuel tank and wherein the valve is: a Fuel Tank Isolation Valve for controlling a fluid communication between the reservoir and the environment; a Fuel Tank Vent valve for controlling a fluid communication between the reservoir and an engine air intake and/or a canister being in fluid communication with the environment; a Fuel Tank Separation Valve for isolating the reservoir from the engine, a canister and environment during canister purging; an Atmospheric Isolation Valve for isolating a canister and/or the reservoir from the atmosphere to prevent gas emissions after shutoff; or a Fuel Tank Shutoff Valve for controlling fluid communication between a combustion engine and the reservoir. 4. An apparatus for altering a gas volume in a reservoir, the apparatus comprising: at least one valve having at least a first port being in fluid communication with the reservoir, a second port, and a conduit for enabling a liquid communication between the first port and the second port; and a valve member movable between at least an open position in which the first port and the second port are in fluid communication via said conduit, and a first closed position, in which the fluid communication between the first port and the second port is blocked by the valve member, wherein the valve member is movable into at least a second closed position, in which the fluid communication between the first port and the second port is blocked, wherein a volume of a chamber that is in liquid communication with the first port is altered when moving the valve member from the first closed position to the second closed position and/or from the second closed position to the first closed position, and wherein the conduit comprises a valve seat and the valve member closes the valve seat in the first closed position and the second closed position and opens the valve seat in the open position, wherein an elastic gasket is positioned between the valve seat and the valve member, and wherein the elastic gasket is compressed when moving the valve member from the first closed position to the second closed position and is decompressed when moving the valve member from the second closed position to the first closed position. 5. The apparatus of claim 1 , wherein the first port is in fluid communication with the chamber into which the valve member protrudes when the valve member is moved from the first closed position to the second closed position, and wherein a boundary of the chamber closes at least one of the first and/or second openings of the conduit when moving the valve member from the open position into the first closed position and/or the second closed position. 6. The apparatus of claim 1 , wherein when the valve member moves from the first closed position to the second closed position, the first opening of the section of the conduit that extends through the valve member moves further out of alignment with the first port than when the valve member is in the first closed position and the second opening of the section of the conduit that extends through the valve member moves further out of alignment with the second port than when the valve member is in the first closed position. 7. The apparatus of claim 1 , wherein the valve member is rotatable, such that the valve member rotates between the open position, the first closed position and the second closed position.