Apparatus for generating steam

The invention claimed is: 1. An apparatus configured to generate steam comprising: at least one water inlet, an evaporation surface, a heater, disposed adjacent to the evaporation surface and configured to; heat said evaporation surface to a predetermined temperature, and a controller configured to direct a flow of water through the at least one water inlet onto multiple spaced regions of the evaporation surface, wherein a temperature of the water fed onto the evaporation surface is lower than the predetermined temperature, so that a scale formed on the evaporation surface, caused by an evaporation of the water in contact with the evaporation surface, to which water is fed cools at a different rate than a scale, formed on a remainder of the evaporation surface, cools, thereby causing the scale formed on the multiple spaced regions on the evaporation region and on said remainder of the evaporation surface to break apart and be dislodged from said evaporation surface. 2. The apparatus of claim 1 , wherein the heater and the at least one water inlet are configured to: heat the evaporation surface and feed water to the evaporation surface, respectively, so that the scale is dislodged from the evaporation surface once it reaches a predetermined minimum thickness and before it reaches a predetermined maximum thickness. 3. The apparatus according to claim 1 , wherein the controller is configured to: control the flow of water onto the evaporation surface based on the temperature of said evaporation surface. 4. The apparatus of claim 1 , wherein the controller is configured to: control the rate of flow of water through the at least one water inlet onto the evaporation surface. 5. The apparatus of claim 3 , wherein the controller is configured to: control the rate of flow of water through the at least one water inlet, wherein substantially all the water fed onto the evaporation surface is evaporated from said evaporation surface. 6. The apparatus of claim 5 , wherein the controller is configured to: direct the flow of water through the at least one water inlet onto separate regions of the multiple regions of the evaporation surface alternately. 7. The apparatus of claim 1 , comprising: a scale collection region remote from said evaporation surface, said scale collection region configured to: collect dislodged scale from said evaporation surface. 8. The apparatus of claim 7 , further comprising: a casing configured to: define a steam chamber, wherein the evaporation surface being formed on an evaporation element that extends into the steam chamber from one side of the casing; and the scale collection region being formed within the steam chamber, adjacent to the evaporation element. 9. The apparatus of claim 8 , wherein the evaporation surface comprises a dome shaped profile. 10. The apparatus of claim 7 , wherein the evaporation surface comprises one or more regions with recessed features. 11. The apparatus of claim 7 , further comprising: a scale collection chamber; and a channel configured to collect the scale dislodged from the evaporation surface, wherein the discharged scale passes along said channel into said scale collection chamber. 12. A steam iron comprising; an apparatus configured to generate steam, said apparatus comprising: at least one water inlet, an evaporation surface, a heater, disposed adjacent to the evaporation surface, configured to: heat said evaporation surface to a predetermined temperature wherein the water fed onto the evaporation surface is evaporated; and a controller configured to: direct a flow of water through the at least one water inlet onto multiple spaced regions of the evaporation surface, wherein a temperature of the water fed onto the evaporation surface is lower than the predetermined temperature, so that a scale formed on the evaporation surface, caused by an evaporation of the water in contact with the evaporation surface, to which water is fed cools at a different rate than a scale, formed on a remainder of the evaporation surface, cools, thereby causing the scale formed on the multiple spaced regions on the evaporation region and on said remainder of the evaporation surface to break apart and be dislodged from said evaporation surface. 13. A method for dislodging scale from an evaporation surface in an apparatus for generating steam that comprises a water inlet, an evaporation surface, a heater disposed adjacent to the evaporation surface, wherein the method including the steps of: heating said evaporation surface to a predetermined temperature, and feeding water having a temperature lower than said predetermined temperature onto separate regions of the evaporation surface, alternately so that scale on the separate regions of said evaporation surface to which water is fed cools at a different rate than a rate at which scale on a remainder of the evaporation surface cools, thereby inducing thermal stress and/or strain in scale present on said separate regions and on said remainder of said evaporation surface that causes the scale to break apart and be dislodged from said evaporation surface. 14. A method for dislodging scale from an evaporation surface in an apparatus for generating steam that comprises a water inlet, an evaporation surface, a heater disposed adjacent to the evaporation surface, wherein the method including the steps of: heating said evaporation surface to a predetermined temperature, and feeding water having a temperature lower than said predetermined temperature onto multiple spaced regions of the evaporation surface, so that scale on the multiple spaced regions of said evaporation surface to which water is fed cools at a different rate than a rate at which scale on a remainder of the evaporation surface cools, thereby inducing thermal stress and/or strain in scale present on said evaporation surface that causes the scale to be dislodged from said evaporation surface.