FI70842C - SAETT OCH ANORDNING FOER ATT VAELJA OCH BEVAKA BLANDNINGSFOERHAOLLANDE MELLAN VATTEN OCH ANTIFRYSMEDEL - Google Patents

Description

70842

FIELD OF THE INVENTION a mixture of water and antifreeze, and wherein the method measures the outside air temperature and is taken into account in selecting a mixture ratio according to which the freezing temperature of the mixture is dependent on the measured temperature, after which the mixture is formed and applied to the surface.

Ice adhering to the surface of an aircraft, which in this application 10 also means snow and frost, can have a very detrimental effect on the performance values, maneuverability and stability of the aircraft at take-off and therefore also on safety. Particularly harmful is the formation of ice on the front edge of the aircraft wing and on its upper surface, on the surfaces of the height stabilizer and stern-15, and between the guide surfaces and fixed structures. Freezing of the engine air intake chamber, guide vanes or Ahti blades can also be dangerous.

To ensure safety during take-off, it is therefore very important that all ice is removed from the surfaces of the aircraft and that the aircraft is provided with adequate protection against re-icing. De-icing, i.e. de-icing, is carried out with water, the temperature of which may even be close to the boiling point, or with a mixture of heated water and antifreeze, which is usually also heated. Water or mixture is applied to surfaces in the form of a high-pressure liquid jet, the sweeping and melting effect of which removes ice. De-icing always involves anti-icing treatment.

Antifreeze aims to prevent surfaces from freezing. This is also done by applying a mixture of water-heated water and a heated de-icing agent to the surfaces with a decomposing liquid jet.

2,70842 Antifreeze in this application refers to liquids based on ethylene and / or propylene glycol.

The state of the art and thus the currently used de-icing and anti-icing methods are described e.g. In Finnair's publication OT-4370 5 on 1 November 1983, which deals with de-icing and de-icing of aircraft on the ground. This publication, in turn, is largely based on the recommendations issued by the Association of European Airlines (AEA) and jointly adopted by the member companies (Recommendations for deicing / 10 anti-icing of aircraft on ground, second edition. Sept. 1, 1983).

For example, according to page 7 of Finnair's instructions, the outdoor air temperature is divided into the following temperature ranges: 0 - -7, -7 - -10, -10 - -14, -14 - -17, -17 - -20 and -20 - -25.

15 The outside air temperature is measured and it is considered to which temperature range it belongs.

For example, if the surface treatment is performed in two steps, first de-icing and then de-icing, the following instruction is given to select the de-icing mixture: The solidification point of the mixture must not exceed 7 ° C above ambient temperature. The following instructions are given for selecting the mixture to be used in the de-icing treatment: The solidification point of the mixture must be at least 10 ° C below the outside air temperature. Freezing point means the freezing point.

The above-mentioned guide temperatures of 7 ° C and 10 ° C are margins to ensure that the mixtures used in de-icing and anti-icing treatments do not freeze during or after the treatment.

30 One of the disadvantages of the described method is that it does not take into account the possibility that a surface, such as e.g.

3 70842 wing, the temperature can be considerably lower than the outside air temperature. In modern aircraft, the wing can be considered a large fuel tank. If the aircraft now flies at high altitudes for a sufficient time at a temperature 5 significantly lower than the outside air temperature at ground level, the temperature of the fuel in the wing will drop to a high above ground temperature. Once such an aircraft has landed on the ground, the temperature of the wing remains below the ambient temperature prevailing on the ground for a long time. A similar situation may arise when the wing fuel tank is filled from the above-ground fuel tank. Such fuel can be very cold if the outside air temperature has been low for a long time. However, at the time of filling, the outside air temperature can be considerably higher, resulting in a situation where the temperature of the vanes is lower than the outside air temperature. If the de-icing and anti-icing mixture is now formed solely on the basis of the outside air temperature, these treatments will not achieve the intended result and will result in a significant risk to flight safety.

Attempts have been made to increase the reliability of the methods used for de-icing and de-icing by using relatively high temperature safety margins, about 7 ° C and about 10 ° C, as described above, as described above. However, this leads to an increase in the consumption of antifreeze.

25 Another disadvantage of the current method is that the mixture is selected on the basis of a discontinuous or staggered function which describes the relationship between the permissible freezing temperature of the mixture and the outside air temperature. The measured outdoor temperature is often higher than the lowest temperature of the stage to which the measured temperature belongs. However, for safety reasons, the mixture ratio is selected in the instructions according to the lowest temperature of the stage. This results in an unnecessarily high proportion of antifreeze in the mixture.

Currently known processing equipment and its use is as follows: __ ΤΓ "4 70842

The service vehicle has a water tank and an antifreeze tank. The tank has heating devices with which liquids can be heated, for example with an electric heater. The water temperature is maintained at approx. + 90 ° C and the antifreeze temperature is kept at approx. + 40 ° C. The temperature of the mixture is formed according to a mixture ratio of 5. A pipe leads from both tanks to the mixing valve. From the mixing valve, a pipe or hose leads to the surface to be treated. Each tank has a pump that presses the liquid from the tank into the mixing valve. The mixing valve is a conventional structure that includes a pivotable handle and an associated scale.

The mixture ratio of water and antifreeze can be selected by turning the handle to a specific position on the scale. The mixture ratio is selected as described above. The application of the mixture to the surface to be treated takes place by means of a hose and a nozzle 15 at its end in the usual manner. As for the mixture ratio, the distributor of the mixture can only rely on the correct position of the handle of the mixing tap, and the result resulting therefrom. Also, those changes in conditions that affect the mixture ratio and the result of the treatment are not monitored today either. Such a method gives an uncertain result in both de-icing and de-icing, with the result that there is a risk of serious accidents.

The object of the present invention is to provide a more precise and therefore also a better method 25 for de-icing and de-icing from the point of view of flight safety. The aim is also to increase the economy of these activities. According to the invention, this object is achieved by also measuring the temperature of the surface to be treated and selecting a lower air temperature and surface temperature and selecting the mixture ratio during application, comparing the mixture to the selected mixture ratio and correcting the applied mixture ratio to the selected ratio. .

Surface temperature measurement can be performed with conventional surface temperature meters.

5,70842

The invention is based on a better understanding of the factors affecting the temperature of surfaces which are closely related to the fuel tanks in an aircraft and the realization that both de-icing and anti-icing must take into account both the surface temperature and the outdoor temperature, whichever is lower. is crucial when determining the mixture ratio of antifreeze and water. This substantially increases security.

10 It has also been realized that, for example, the temperature of a wing can also be higher than the temperature of the outside air. Such a situation arises, for example, when the fuel is taken from an underground tank, in which case its temperature is about + 4-6 ° C. At the same time, however, the outside air temperature can be considerably lower. Therefore, 15 it still needs to be taken into account.

Above all, the method according to the invention achieves even greater accuracy in the selection of the mixture ratio. As a result, it has been possible to reduce the safety margin of the mixture formed for de-icing from 10 ° C to 5 ° C. This represents a significant 20 savings in antifreeze consumption.

The method provides assurance that the mixture ratio used is always correct, which in turn greatly increases safety.

The invention also relates to an apparatus for carrying out the method according to the invention. This equipment is characterized by the fact that it includes: A. Devices for measuring outdoor and surface temperatures.

B. Instruments for measuring the actual flow rates of antifreeze and water.

70842 6 C. Actuators for adjusting actual antifreeze and water flow rates.

D. A computer for receiving, storing and processing measurement data and for controlling actuators using the measurement data.

In the accompanying drawing, the apparatus according to the invention is shown in block diagram form. The hardware works as follows:

Outdoor and aircraft surface temperatures are measured with temperature gauges 1 and 2. The actual antifreeze and water flow rates 10 are measured with flow rate gauges 3 and 4 located in the flow lines. The flow lines have actuators 5 and 6, eg valves and their drive motors to control the flow rates.

The computer 7 receives and stores with the devices 8 information on the outdoor and air temperatures and selects the mixture of antifreeze and water on the basis of them and according to a given program 9. On the other hand, the computer 7 receives and stores with the devices 10 information on the actual flow rates of the antifreeze and water and calculates the actual mixture ratio of the antifreeze and the water according to the program 11.

Furthermore, the computer 7 has a program 12 according to which the computer 7 compares the selected and the actual mixture ratio with each other and determines the information on changing the actual mixture ratio according to the program 13. This information includes at least the direction and rate of change of the mixture ratio. With the devices 14, the conversion data is transferred to the actuators 5 and 6, which change the flow rate of the antifreeze and water so that the actual mixture ratio will correspond to the selected mixture ratio. After the flow rate control points, the antifreeze and water flows combine into a mixture used in the process of the invention.

n 7 70842

The above-mentioned devices and programs are not described in more detail here, as they are known per se to a person skilled in the art.

In the de-icing and anti-icing treatment applied to the surface of an aircraft, the apparatus according to the invention is a very substantial technical advance and improvement compared to the prior art, which decisively increases flight safety.

Claims (2)

7 G 8 4 2 1. A method for selecting and monitoring the water / antifreeze mixture to remove ice from the airplane surface and prevent ice formation on the airplane surface by applying a mixture of water and antifreeze to the surface and measuring the ambient temperature and selecting a mixture having a freezing point of depending on the measured temperature, after which the mixture is formed and applied to the surface, characterized in that the temperature of the surface to be treated is also measured and a lower mixture ratio is selected from the air temperature and the surface temperature, and the mixture ratio is applied during application, comparing the measurement result with the selected mixture ratio and correcting the mixture ratio of the mixture to be applied according to the selected ratio. Apparatus for carrying out the method according to claim 1, characterized in that it comprises: A devices for measuring outdoor and surface temperatures (1, 2), B devices for measuring the actual flow rates of antifreeze and water (3, 4), C actuators for measuring the actual flow of antifreeze and water for adjusting the flow rates (5, 6), D a computer (7) for receiving, storing and processing the measurement data and for controlling the actuators 25 by means of the measurement data. Il