Pressure vessels

The invention claimed is: 1. A pressure vessel comprising: front and rear end plates; a plurality of open-ended vessel structures, each vessel structure constructed of fibre-reinforced polymer matrix composite material and having a longitudinal axis extending between its open ends, the open-ended vessel structures positioned adjacent to one another so that their longitudinal axes are parallel to a longitudinal direction extending between the front and rear end plates, and the open-ended vessel structures being closed by the front and rear end plates; and an outer reinforcement comprising polymer matrix composite material with continuous fibres extending longitudinally along the longitudinal direction and around the pressure vessel to secure the front and rear end plates to the vessel structures; wherein at least one of the vessel structures has a partially curved cross section in a plane perpendicular to its longitudinal axis, such that one or more crevices are formed between the vessel structures, running longitudinally along the longitudinal direction between the front and rear end plates; and wherein the front and rear end plates are shaped in a plane perpendicular to the longitudinal direction such that the outer reinforcement is at least partially filling the one or more crevices between the vessel structures. 2. The pressure vessel of claim 1 , wherein the outer reinforcement comprises a layer of polymer matrix composite material. 3. The pressure vessel of claim 1 , wherein the outer reinforcement completely fills the one or more crevices between the vessel structures. 4. The pressure vessel of claim 1 , further comprising seals arranged between the open ends of the vessel structures and the front and rear end plates. 5. The pressure vessel of claim 4 , wherein the front and rear end plates comprise a plurality of flanges, each flange extending inwards along the longitudinal direction to engage with one of the open-ended vessel structures and carry one of the seals. 6. The pressure vessel of claim 1 , wherein the front and rear end plates are substantially planar. 7. The pressure vessel of claim 1 , wherein at least a portion of the front and rear end plates in contact with the outer reinforcement has a cross sectional profile, in a plane parallel to the longitudinal axes of the vessel structures, that is substantially curved. 8. The pressure vessel of claim 1 , wherein at least one of the front and rear end plates comprises a fluid flow path between at least one of the vessel structures and another one or more of the vessel structures. 9. The pressure vessel of claim 1 , wherein at least some of the vessel structures comprise at least one flat wall in a plane perpendicular to their longitudinal axes and are oriented so as to have a flat wall in contact with another flat wall of an adjacent vessel structure. 10. The pressure vessel of claim 1 , wherein at least some of the vessel structures comprise a lozenge shape in a plane perpendicular to their longitudinal axes, the lozenge shape comprising first and second parallel flat walls and curved walls connecting the first and second parallel flat walls. 11. The pressure vessel of claim 10 , wherein the vessel structures are arranged side-by-side in contact with one another in the pressure vessel such that the curved walls form the crevices between the vessel structures which run longitudinally between the front and rear end plates. 12. A pressure vessel according to claim 1 , comprising a further reinforcement comprising polymer matrix composite material with continuous fibres extending circumferentially around the pressure vessel. 13. A pressure vessel according to claim 1 , wherein each of the vessel structures is constructed of fibre-reinforced polymer in which the fibres are oriented substantially perpendicular to the longitudinal axes of the vessel structures. 14. A method of manufacturing a pressure vessel, the method comprising: positioning a plurality of open-ended vessel structures, each constructed of fibre-reinforced polymer matrix composite material and having a longitudinal axis extending between its open ends, to be adjacent to one another so that their longitudinal axes are parallel; closing the open-ended vessel structures with front and rear end plates; wherein at least one of the vessel structures has a partially curved cross section in a plane perpendicular to its longitudinal axis such that one or more crevices are formed between the vessel structures, running longitudinally along a longitudinal direction between the front and rear end plates; and applying an outer reinforcement comprising polymer matrix composite material by winding continuous fibres to extend longitudinally along the longitudinal direction and around the pressure vessel to secure the front and rear end plates to the vessel structures, wherein the front and rear end plates are shaped in a plane perpendicular to the longitudinal direction such that the outer reinforcement his at least partially filling the one or more crevices between the vessel structures. 15. The method of claim 14 , comprising: applying a further outer reinforcement comprising polymer matrix composite material by winding continuous fibres to extend circumferentially around the pressure vessel.