Method and a system for evaluating an effective component content of a reducing agent

The invention claimed is: 1. A method for evaluating an effective component content of a reducing agent for engine exhaust gas processing, wherein said reducing agent is arranged in a container in which a heat transfer provision arrangement is provided, the method comprising: receiving, by a data processor unit, a prevailing volume of said reducing agent in said container measured by a volume measuring device; receiving, by a data processor unit, a prevailing temperature of said reducing agent measured by a first temperature sensor; receiving, by a data processor unit, a prevailing temperature of said heat transfer provision arrangement measured by a second temperature sensor; and receiving, by a data processor unit, a prevailing temperature of a medium surrounding said container measured by a third temperature sensor; determining, by the data processor unit, a mean temperature change rate for said reducing agent; determining, by the data processor unit, whether said reducing agent comprises the effective component content on a basis of said mean temperature change rate, said prevailing volume of said reducing agent, said prevailing temperature of said reducing agent, said prevailing temperature of said heat transfer provision arrangement, and said prevailing temperature of said medium surrounding said container; and providing, by the data processor unit, an output signal indicating an unexpected effective component content according to the determining of the effective component content of the reducing agent. 2. The method according to claim 1 , further comprising: determining a specified development of a connection between said effective component content and said mean temperature change rate as a basis for said determination of said effective component content for said prevailing volume of said reducing agent, said prevailing temperature of said reducing agent, said prevailing temperature of said heat transfer provision arrangement and said prevailing temperature of said medium surrounding said container. 3. The method according to claim 1 , wherein said mean temperature change rate for said reducing agent is not a continuous temperature increase or not a continuous temperature decrease. 4. The method according to claim 1 , wherein said heat transfer provision arrangement includes a pipe arrangement; the method further comprising: providing a flow of a liquid of a substantially constant temperature in said pipe arrangement of said heat transfer provision arrangement during said predetermined time period. 5. The method according to claim 1 , wherein said determining of said effective component content of said reducing agent on said basis of said mean temperature change rate is performed on at least two occasions for providing mutually different prevailing temperatures of said reducing agent; the method comprising: comparing the thus determined effective component content related to said at least two occasions for determining the unexpected effective component content in said reducing agent. 6. The method according to claim 1 , comprising: wherein said determining whether said reducing agent comprises said effective component content on said basis of said mean temperature change rate is performed on at least two occasions for possibly providing mutually different prevailing temperatures of said reducing agent; the method comprising: comparing the thus determined effective component content related to said at least two occasions for determining a sign of an undesired liquid in said reducing agent. 7. The method according to claim 1 , comprising: providing the output signal at least for one of limiting a maximum available engine power and an alarm activity. 8. A system for evaluating an effective component content (C) of a reducing agent for engine exhaust gas processing, wherein said reducing agent is arranged in a container in which a heat transfer provision arrangement is provided, the system comprising: a volume measuring device configured to determine a prevailing volume (V) of said reducing agent in said container; a first temperature sensor configured to determine a prevailing temperature of said reducing agent; a second temperature sensor configured to determine a prevailing temperature of said heat transfer provision arrangement; and a third temperature sensor configured to determine a prevailing temperature of a medium surrounding said container; a data processor unit configured to determine a mean temperature change rate for said reducing agent regarding a predetermined time period; the data processor unit configured to determine whether said reducing agent comprises said effective component content on a basis of said mean temperature change rate, said prevailing volume of said reducing agent, said prevailing temperature of said reducing agent, said prevailing temperature of said heat transfer provision arrangement and said prevailing temperature of said medium surrounding said container; and the data processor unit configured to provide an output signal indicating an unexpected effective component content according to the determining of the effective component content of the reducing agent. 9. The system according to claim 8 , wherein the data processor unit is configured to determine a specified development of a connection between said effective component content and said mean temperature change rate as a basis for said determination of said effective component content for said prevailing volume of said reducing agent, said prevailing temperature, of said reducing agent, said prevailing temperature of said heat transfer provision arrangement and said prevailing temperature of said medium surrounding said container. 10. The system according to claim 8 , wherein said mean temperature change rate for said reducing agent is not a continuous temperature increase or not a continuous temperature decrease. 11. The system according to claim 8 , further comprising: a pipe arrangement of said heat transfer provision arrangement; and a pump configured to provide a flow of a liquid of a substantially constant temperature in said pipe arrangement of said heat transfer provision arrangement during said predetermined time period. 12. The system according to claim 8 , wherein the data processor unit is configured to determine said effective component content of said reducing agent on said basis of said mean temperature change rate on least two occasions, and to provide mutually different prevailing temperatures of said reducing agent; and the data processor unit is configured to compare the thus determined effective component content related to said at least two occasions as a sign of an unexpected effective component content in said reducing agent. 13. The system according to claim 8 , whether the data processor unit is configured to determine said effective component content of said reducing agent on said basis of said mean temperature change rate on least two occasions, and to provide mutually different prevailing temperatures of said reducing agent; and the data processor unit is configured to compare the thus determined effective component content related to said at least two occasions as a sign of an unexpected liquid in said reducing agent. 14. The system according to claim 8 , wherein the data processor unit is configured to provide the output signal for at least limiting one of a maximum available engine power and an alarm activity. 15. A vehicle comprising a system according to claim 8 . 16. The vehicle according to claim 15 , wherein the vehicle comprises o