Valve

The invention claimed is: 1. A turbine bypass valve comprising: a casing defining first and second casing ports; and a valve cartridge mounted to the casing; wherein the valve cartridge comprises: first and second valve ports; and a valve member, the valve member being movable between a first position in which there is a flow path between the first and second valve ports, and a second position in which the valve member substantially blocks said flow path between the first and second valve ports; wherein the valve cartridge is mounted to the casing such that the first valve port is aligned with the first casing port, and the second valve port is aligned with the second casing port; wherein the valve cartridge comprises an anti-rotation feature configured to prevent relative rotation between the casing and the valve cartridge when the valve cartridge is mounted to the casing; wherein the casing comprises a second anti-rotation feature configured to engage the anti-rotation feature when the valve cartridge is mounted to the casing; and wherein the anti-rotation feature comprises a protrusion which projects outwardly from the valve cartridge and the second anti-rotation feature comprises a recess configured to receive said protrusion; or wherein the second anti-rotation feature comprises a protrusion and the anti-rotation feature comprises a recess configured to receive said protrusion. 2. A turbine bypass valve according to claim 1 , wherein: the casing further defines a third casing port; the valve cartridge further comprises a third valve port; in the second position there is a flow path between the first and third valve ports; and the valve cartridge is mounted to the casing such that the third valve port is aligned with the third casing port. 3. A turbine bypass valve according to claim 1 , wherein the casing defines a valve cavity which receives the valve cartridge. 4. A turbine bypass valve according to claim 3 , wherein the casing ports adjoin the valve cavity. 5. A turbine bypass valve according to claim 1 , wherein the valve member is located in a valve chamber. 6. A turbine bypass valve according to claim 5 , wherein, in the first position, said flow path between the first and second valve ports is via the valve chamber, and, in the second position, the valve member substantially blocks said flow path between the first and second valve ports via the valve chamber. 7. A turbine bypass valve according to claim 1 , wherein the valve is a rotary valve, whereby said movement of the valve member between the first and second positions is a rotation. 8. A turbine bypass valve according to claim 1 , wherein said casing forms part of a turbine housing or exhaust manifold of an engine of which the turbine bypass valve forms part. 9. A turbine bypass valve according to claim 1 , wherein the valve cartridge comprises a main body which supports the valve member, the main body having an outer surface which contacts the casing when the valve cartridge is mounted to the casing, wherein the outer surface is formed of a deformable and/or abradable material which conforms to a shape of the casing when the valve cartridge is mounted to the casing. 10. A turbine bypass valve according to claim 1 , wherein each of the first and second casing ports and the corresponding first and second valve ports are configured such that when the valve cartridge is mounted to the casing there is a step down in flow direction at the interface between each of the first casing port and the first valve port, and the second casing port and the second valve port. 11. A turbine bypass valve according to claim 1 , further comprising a seal portion, the seal portion creating a seal between the casing and the valve cartridge, and between the first and second casing ports, the seal portion substantially preventing a flow path, in-between the casing and the valve cartridge, between the first casing port and the second casing port via the seal. 12. A turbine bypass valve cartridge, for mounting to a casing defining first and second casing ports and comprising a second anti-rotation feature, the valve cartridge comprising: first and second valve ports; and a valve member, the valve member being movable between a first position in which there is a flow path between the first and second valve ports, and a second position in which the valve member substantially blocks said flow path between the first and second valve ports; wherein the valve cartridge is configured to be mounted to the casing such that the first valve port is aligned with the first casing port, and the second valve port is aligned with the second casing port; wherein the valve cartridge further comprises an anti-rotation feature configured to prevent relative rotation between the casing and the valve cartridge when the valve cartridge is mounted to the casing; wherein the anti-rotation feature is configured to engage the second anti-rotation feature when the valve cartridge is mounted to the casing; and (A) wherein the anti-rotation feature comprises a protrusion which projects outwardly from the valve cartridge and the second anti-rotation feature comprises a recess configured to receive said protrusion; or (B) wherein the second anti-rotation feature comprises a protrusion and the anti-rotation feature comprises a recess configured to receive said protrusion. 13. A turbine bypass valve cartridge according to claim 12 , for mounting to a casing further defining a third casing port, wherein the valve cartridge further comprises a third valve port; and in the second position there is a flow path between the first and third valve ports; and wherein the valve cartridge is configured to be mounted to the casing such that the third valve port is aligned with the third casing port. 14. A turbine bypass valve cartridge according to claim 12 , wherein the valve cartridge is configured to be received by a valve cavity defined by the casing. 15. A turbine bypass valve cartridge according to claim 14 , wherein the casing ports of the casing to which the valve cartridge is configured to be mounted adjoin the valve cavity. 16. A turbine bypass valve cartridge according to claim 12 , wherein the valve member is configured to be located in a valve chamber. 17. A turbine bypass valve cartridge according to claim 16 , wherein, in the first position, said flow path between the first and second valve ports is configured to be via the valve chamber, and, in the second position, the valve member is configured to substantially block said flow path between the first and second valve ports via the valve chamber. 18. A turbine bypass valve cartridge according to claim 12 , wherein the valve cartridge is a rotary valve cartridge, whereby said movement of the valve member between the first and second positions is a rotation. 19. A turbine bypass valve cartridge according to claim 12 , the turbine bypass valve cartridge being configured for mounting to a casing which forms part of a turbine housing or exhaust manifold of an engine of which the turbine bypass valve cartridge forms part. 20. A turbine bypass valve cartridge according to claim 12 , wherein the valve cartridge comprises a main body which supports the valve member, the main body having an outer surface which is configured to contact the casing when the valve cartridge is mounted to the casing, wherein the outer surface is formed of a deformable and/or abradable material which conforms to a shape of the casing when the valve cartridge is mounted to t