EGR valve with integrated sensor

The invention claimed is: 1. A valve assembly comprising: a valve housing comprising an interior cavity having an upstream side disposed upstream of a valve member and a downstream side disposed downstream of the valve member; the valve member movable within the valve housing between a closed position in which flow between the upstream side and the downstream side is prevented or substantially prevented and one or more open positions in which flow between the upstream side and the downstream side is enabled; a sensor mounting flange on an exterior surface of the valve housing; a first bore in the valve housing linking the upstream side of the valve housing and the sensor mounting flange; and a second bore in the valve housing linking the downstream side of the valve housing and the sensor mounting flange; such that a sensor configured to measure a differential between the upstream side and the downstream side is mountable directly on the valve assembly. 2. The valve assembly of claim 1 wherein the sensor mounting flange is substantially planar. 3. The valve assembly of claim 1 wherein, in an orientation of use, the sensor mounting flange is above a location at which the first bore meets the interior cavity of the valve housing and is above a location at which the second bore meets the interior cavity of the valve housing, wherein the first and second bores each have a component of direction downwards away from the sensor mounting flange. 4. The valve assembly of claim 1 wherein the sensor mounting flange comprises one or more fastener receiving features configured to receive one or more fasteners for fastening a sensor to the sensor mounting flange. 5. The valve assembly of claim 4 wherein, at a plane of the sensor mounting flange, a centre of the first bore, a centre of the second bore and a centre of each of a pair of fastener receiving features are all aligned along a single straight line. 6. The valve assembly of claim 1 wherein the sensor mounting flange comprises one or more orientation features to facilitate mounting of a sensor to the sensor mounting flange in a single orientation. 7. The valve assembly of claim 1 wherein the valve assembly is an exhaust gas recirculation valve assembly. 8. An exhaust gas recirculation valve comprising a valve assembly of claim 1 . 9. A valve assembly comprising: a valve housing comprising: an interior cavity having upstream side and a downstream side; and a coolant channel arrangement; a valve member movable within the valve housing between a closed position in which flow between the upstream side and the downstream side is prevented or substantially prevented and one or more open positions in which flow between the upstream side and the downstream side is enabled; a sensor mounting flange on an exterior surface of the valve housing; a first bore in the valve housing linking the upstream side of the valve housing and the sensor mounting flange; and a second bore in the valve housing linking the downstream side of the valve housing and the sensor mounting flange; such that a sensor configured to measure a differential between the upstream side and the downstream side is mountable directly on the valve assembly. 10. The valve assembly of claim 9 wherein the coolant channel arrangement surrounds at least one of the first and second bores to facilitate thermal transfer between at least one of the first and second bores and the coolant channel. 11. The valve assembly of claim 9 wherein at least a part of the coolant channel arrangement is located adjacent the sensor mounting flange. 12. The valve assembly of claim 9 wherein the coolant channel arrangement comprises one or more of: a plurality of channels in series; a plurality of channels in parallel; a coolant jacket. 13. The valve assembly of claim 9 wherein the coolant channel arrangement comprises one or more channels that surround one or both of the upstream side and the downstream side of the interior cavity of the valve housing. 14. The valve assembly of claim 9 wherein the coolant channel arrangement is a part of an exhaust gas recirculation cooling circuit. 15. A valve assembly comprising: a valve housing comprising an interior cavity having upstream side and a downstream side; a valve member movable within the valve housing between a closed position in which flow between the upstream side and the downstream side is prevented or substantially prevented and one or more open positions in which flow between the upstream side and the downstream side is enabled; a sensor mounting flange on an exterior surface of the valve housing; a first bore in the valve housing linking the upstream side of the valve housing and the sensor mounting flange; and a second bore in the valve housing linking the downstream side of the valve housing and the sensor mounting flange; such that a sensor configured to measure a differential between the upstream side and the downstream side is mountable directly on the valve assembly, wherein the first bore comprises a first axial direction at an end adjacent the sensor mounting flange wherein an angle between the first axial direction and the sensor mounting flange is at least 60°; and/or the second bore comprises a second axial direction at an end adjacent the sensor mounting flange wherein an angle between the second axial direction and the sensor mounting flange is at least 60°.