Control system for an axial flow turbine

The invention claimed is: 1. An axial flow turbine comprising: a casing defining a flow path for a working fluid therein; a rotor co axial to the casing; a plurality of stages, each stage comprising: a stationary row of vanes, circumferentially mounted on the casing; and a rotating row of blades, circumferentially mounted on the rotor, each blade having an airfoil extending into the flow path therein, wherein the plurality of stages include a last stage located towards a downstream end of the turbine, wherein the airfoils of the last stage blades include distal regions that are distal from the rotor; and a monitoring control system comprising: at least one sensor configured in the distal region of the airfoil of at least one last stage blade, to measure at least one physical property of the at least one last stage blade; a control element configured to influence the at least one physical property of the at least one last stage blade; and a controller configured to adjust the control element based on the at least one measured physical property so by controlling the at least one physical property, wherein the at least one physical property is moisture and the at least one sensor is configured to measure localised moisture of the at least one last stage blade. 2. The turbine of claim 1 , wherein the at least one sensor is embedded in the airfoil of the at least one last stage blade. 3. The turbine of claim 2 , wherein the airfoil of the at least one last stage blade has a composite core body and further comprises a covering that covers at least a portion of the airfoil of the at least one last stage blade, wherein the at least one sensor is embedded between the composite core body and the covering. 4. The turbine of claim 2 , wherein the airfoil of the at least one last stage blade is made of composite layers, and wherein the at least one sensor is embedded between the composite layers. 5. The turbine of claim 1 , wherein the at least one physical property further includes strain, and the at least one sensor is further configured to measure localised strain in the at least one last stage blade. 6. The turbine of claim 1 , wherein the at least one physical property further includes temperature, and the at least one sensor is further configured to measure localised temperature of the at least one last stage blade. 7. The turbine of claim 1 , wherein the airfoil of the at least one last stage blade further comprises a plurality of sensors distributed along an extensional length of the airfoil of the at least one last stage blade from the rotor, and wherein the at least one physical property is a measurement profile of the plurality of sensors. 8. The turbine of claim 1 , wherein the airfoil compromises conductive material, and the conductive material is a ground for the at least one sensor so by enabling the at least one sensor to have one wire. 9. The turbine of claim 1 , wherein the at least one sensor and the controller communicate, at least partially, by wireless means. 10. The turbine of claim 1 , wherein the control element is a means for adjusting a selection of at least one of: water injection, steam injection, working fluid extraction and mass flow through the turbine. 11. A method for controlling a physical property of at least one last stage blade of an axial flow turbine, the method comprising: providing a control element configured to influence the physical property of the at least one last stage blade; measuring the physical property of the at least one last stage blade, wherein the physical property is moisture; adjusting the control element in response to the measured physical property so by controlling the physical property; and providing the at least one last stage blade that is at least partially made of composite layers, and wherein measuring the physical property includes measuring the physical property at a point between the composite layers. 12. The method of claim 11 , wherein the physical property further includes one or more of temperature and strain. 13. The method of claim 11 , wherein adjusting the control element involves a selection of at least one of: injecting water, injecting steam, and extracting working fluid.