Rotary engine seals

The invention claimed is: 1. A rotor assembly for a rotary engine, comprising: a housing; a rotor configured to rotate eccentrically within the housing; and a sealing system, wherein: the rotor comprises a plurality of apexes that are configured to engage with a radially inner sealing surface of the housing in order to define a plurality of separate working volumes, each working volume being located between two of the apexes, the radially inner sealing surface of the housing and a radially outer surface of the rotor; the sealing system comprises an apex seal located at one of the apexes, the apex seal being configured to provide an engagement between the apex and the radially inner sealing surface of the housing that inhibits movement of gas from one working volume to another working volume past the apex throughout the range of rotation of the rotor; the sealing system comprises a face seal located on a face of the rotor that is perpendicular to the axial direction, the face seal being configured to provide an engagement between the face of the rotor and a sealing surface of the housing that is perpendicular to the axial direction that inhibits movement of gas from one working volume to another past a portion of the face; the apex seal or the face seal comprises a compliant member, which is the part of the seal that most closely approaches the sealing surface; the compliant member is configured such that the shape or orientation of the compliant member changes in use in response to a change in the speed of rotation of the rotor, a change in the pressurisation across the compliant member, or a change in clearance between the sealing surface and a mounting element to which the compliant member is mounted, to deflect towards or away from the sealing surface, wherein the compliant member is mounted to the mounting element and extends through a region from the mounting element to a position at which the compliant member engages with a portion of the sealing surface of the housing without being fixedly attached to any other component in said region, wherein a notional line joining a point of contact between the compliant member and the mounting element that is closest to a portion of the sealing surface of the housing with which the compliant member engages and the nearest point of contact at which the compliant member engages with the sealing surface is aligned obliquely to the normal of the portion of the sealing surface of the housing with which the compliant member engages, for all angles of rotation of the rotor, during rotation of the rotor, when the rotor is stopped, or both, wherein the notional line is at an oblique angle to said normal when viewed along a direction of relative movement between the compliant member and the portion of the sealing surface with which the compliant member is engaged, for all angles of rotation of the rotor, during rotation of the rotor, when the rotor is stopped, or both. 2. The rotor according to claim 1 , wherein the compliant member is configured such that change in shape or orientation of the compliant member is reversible. 3. The rotor assembly according to claim 1 , wherein the apex seal comprises a plurality of the compliant members and further comprises an axial sealing member located at an axial extremity of the apex seal and shaped so as substantially to fill a gap between an axially extreme one of the compliant members and an axially facing sealing surface of the housing. 4. The rotor assembly according to claim 1 , wherein the apex seal comprises a plurality of the compliant members and further comprises an axial sealing member located at an axial extremity of the apex and shaped so as to divert flow during rotation of the rotor in order to apply a lift force to the compliant members. 5. The rotor assembly according to claim 1 , wherein, over a majority of the length of the compliant member from the mounting element to a position at which the compliant member engages with the sealing surface of the housing, the compliant member has a cross-section perpendicular to a normal of the portion of the sealing surface of the housing with which the compliant member engages that is elongate, for all angles of rotation of the rotor. 6. The rotor assembly according to claim 5 , wherein, over a majority of the length of the compliant member from the mounting element to a position at which the compliant member engages with the sealing surface of the housing, a direction of elongation of the cross-section perpendicular to the normal of the portion of the sealing surface of the housing with which the compliant member engages is aligned obliquely to the direction of relative movement between the compliant member and the portion of the sealing surface of the housing with which the compliant member engages. 7. The rotor assembly according to claim 1 , wherein the apex or face seal comprises a plurality of the compliant members. 8. The rotor assembly according to claim 1 , wherein one or more of the compliant members are formed from two or more materials that have different coefficients of thermal expansion, arranged in such a way that under high thermal loads the one or more compliant members will be caused to flex away from the portion of the sealing surface with which the compliant members are configured to engage.