In a first aspect the invention relates to a sensor system (10) for determining a proximity to icing conditions of an environment. The system includes a sensor having a sensor surface (12) for exposure to the environment, an electrically powered heat pump means (16) for cooling and/or heating the su
In a first aspect the invention relates to a sensor system (10) for determining a proximity to icing conditions of an environment. The system includes a sensor having a sensor surface (12) for exposure to the environment, an electrically powered heat pump means (16) for cooling and/or heating the surface (12), and a temperature detector (14) for providing a signal representative of the temperature of the surface (12). An environment temperature is determined, and a processor determines, from the temperature detected by the temperature detector (14) and the environment temperature, a proximity to icing conditions of the environment to which the surface (12) is exposed. In a second aspect of the invention the sensor system includes a power monitor for determining an amount of power required to heat or cool the surface through a temperature indicative of ice formation. The processor determines the proximity to icing conditions from the detected temperatures and the amount of cooling or heating power.
대표청구항▼
1. A method of determining an icing potential of an aircraft in an environment, wherein the icing potential provides an indication, or prediction, of the time to, or likelihood of the aircraft experiencing icing conditions, the method comprising: providing a sensor having a surface exposed to the en
1. A method of determining an icing potential of an aircraft in an environment, wherein the icing potential provides an indication, or prediction, of the time to, or likelihood of the aircraft experiencing icing conditions, the method comprising: providing a sensor having a surface exposed to the environment and thermally coupled to a heat pump;operating the heat pump to cause heat to flow through the surface;monitoring a temperature of the surface;determining a temperature indicative of ice formation on the surface;determining an environment temperature representative of the temperature of the environment to which the sensor surface is exposed;determining the value of a difference between the environment temperature and the temperature indicative of ice formation, said value representing a proximity to icing conditions of the environment to which the surface is exposed; anddetermining the icing potential by measuring a rate and direction of change of the value representing the proximity to icing conditions. 2. The method of claim 1 wherein operating the heat pump to cause heat to flow through the surface comprises operating the heat pump to cause heat to flow away from the surface to cool the surface. 3. The method of claim 1 wherein operating the heat pump to cause heat to flow through the surface comprises operating the heat pump to heat the surface. 4. The method of claim 1 wherein the environment temperature is a prevailing air temperature. 5. The method of claim 1 wherein the environment temperature is determined from a temperature of the surface when not operating the heat pump. 6. The method of claim 1 further comprising determining an indication of a time to icing conditions arising. 7. The method of claim 1 wherein the heat pump is operated with a substantially constant power to cause heat to flow through the surface. 8. The method of claim 1, wherein the temperature indicative of ice formation is determined by measuring the variation of temperature with time and detecting a change in direction in the variation of temperature with time resulting from the latent heat of ice formation. 9. The method of claim 1, comprising controlling the heat pump to provide a substantially constant rate of change of temperature per unit time. 10. The method of claim 1, comprising alternately cooling and heating the surface. 11. The method of claim 10 comprising repeating the alternating heating and cooling continuously. 12. The method of claim 1 further comprising determining a severity of icing by measuring the magnitude of a change in temperature when the surface passes through the temperature indicative of ice formation. 13. The method of claim 1 further comprising determining a severity of icing by measuring the duration of a plateau in temperature when the surface passes through the temperature indicative of ice formation. 14. A method of determining an icing potential of an aircraft in an environment, wherein the icing potential provides an indication, or prediction, of the time to, or likelihood of the aircraft experiencing icing conditions, the method comprising: providing a sensor having a surface exposed to the environment and an electrically powered heat pump thermally coupled to the surface;operating the heat pump to cause heat to flow through the surface;monitoring a temperature of the surface;determining an amount of power required to cause the surface to pass through a temperature indicative of ice formation;determining, from the monitored temperatures and the amount of power, the value of a quantity of heat that causes the surface to pass between a predetermined temperature above the temperature indicative of ice formation to a predetermined temperature below the temperature indicative of ice formation, said value representing a proximity to icing conditions of the environment to which the surface is exposed; anddetermining the icing potential by measuring a rate and direction of change of the value representing the proximity to icing conditions. 15. The method of claim 14 wherein operating the heat pump to cause heat to flow through the surface comprises operating the heat pump to cause heat to flow away from the surface to cool the surface, and wherein determining the value of a quantity of heat determines the quantity of heat required to cause ice to form on the surface. 16. The method of claim 14 wherein operating the heat pump to cause heat to flow through the surface comprises operating the heat pump to heat the surface, and wherein determining the value of a quantity of heat determines the quantity of heat required to melt ice that has formed on the surface. 17. The method of claim 14, wherein the temperature indicative of ice formation is determined by measuring the variation of temperature with time and detecting a change in direction in the variation of temperature with time resulting from the latent heat of ice formation. 18. The method of claim 14, wherein the heat pump is operated to provide a substantially constant rate of change of temperature per unit time. 19. The method of claim 18, wherein the temperature indicative of ice formation is determined by monitoring the power with time to detect the temperature at which a change in the power occurs resulting from the latent heat of ice formation. 20. The method of claim 18, comprising alternately cooling and heating the surface. 21. The method of claim 20 comprising repeating the alternating heating and cooling continuously.
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