Ink transfer element

The invention claimed is: 1. An ink transfer element for a printing apparatus, the ink transfer element comprising a surface for transferring ink applied thereto to at least one further ink transfer element, wherein the surface is configured to, when an ink comprising pigment particles and a liquid vehicle is applied to the surface, at least partly separate the liquid vehicle from the pigment particles, through the surface. 2. An ink transfer element according to claim 1 , wherein the surface is deformable. 3. An ink transfer element according to claim 1 , wherein the surface is electrically conductive. 4. An ink transfer element according to claim 1 , wherein the surface is an outer surface of a porous layer. 5. An ink transfer element according to claim 4 , wherein the porous layer is a metallic mesh layer, a carbon fiber fabric layer, an electrically conductive coating, or an electrically conductive sponge layer. 6. An ink transfer element according to claim 4 , wherein a pore size of the porous layer is 50 microns or less. 7. An ink transfer element according to claim 1 , wherein the ink transfer element is a roller. 8. An ink transfer element according to claim 1 , comprising a liquid collector arranged to collect liquid vehicle separated at the surface and having passed through at least one layer underlying the surface. 9. An ink transfer element according to claim 8 , comprising a drain for draining collected liquid vehicle from the liquid collector. 10. Printing apparatus comprising an ink transfer element comprising a surface for transferring ink applied thereto to at least one further ink transfer element, wherein the surface is configured to, when an ink comprising pigment particles and a liquid vehicle is applied to the surface, at least partly separate the liquid vehicle from the pigment particles, through the surface, the printing apparatus comprising an ink supply apparatus for supplying ink to the ink transfer element and at least one further ink transfer element arranged to receive ink from the surface. 11. Printing apparatus according to claim 10 , arranged to create a pressure difference across the surface of the ink transfer element, with a greater pressure on a side of the surface for receiving an ink than a pressure at an opposite side of the surface. 12. Printing apparatus according to claim 10 , wherein the ink supply apparatus is arranged to use electrostatic forces to supply ink to the ink transfer element. 13. Printing apparatus according to claim 10 , wherein the at least one further ink transfer element comprises a developer roller arranged to receive ink from the surface. 14. Printing apparatus according to claim 10 , comprising a pressure roller in contact with the surface and arranged to apply pressure to separate further liquid vehicle from the pigment particles of the ink when applied to the surface. 15. A method of printing using printing apparatus comprising an ink transfer element, the ink transfer element comprising a surface for transferring ink applied thereto to at least one further ink transfer element, the surface being configured to, when an ink comprising pigment particles and a liquid vehicle is applied to the surface, at least partly remove the liquid vehicle from the pigment particles, through the surface, the method comprising: a) applying an ink comprising pigment particles and a liquid vehicle to the surface of the ink transfer element; b) removing at least part of the liquid vehicle from the applied ink, through the surface, thereby providing a more solid ink on the surface; and c) transferring the more solid ink to at least one further ink transfer element for applying to a print medium.