SE464049B - SETTING AND DEVICE FOR Saturation of Formaldehyde Mission from Surface - Google Patents

Description

464,049 demanding. If larger objects are to be tested, e.g. a bookshelf, the corresponding size of the test chamber is required. The test time, which is determined by how quickly the equilibrium state between the formaldehyde emission and the flowing air is reached in the test chamber, can be considerable, several hours.

According to another known method described by Berge et al in Forest Products Journal Vol 29, No l, p 21, Jan 1979, the chamber has been replaced with a bell, which is placed on the sample surface, this being the base of the bell. Although this equipment is less space consuming than the chamber method, the method is still time consuming and cumbersome.

According to another similar method, described by Mattews et al in Analytical Chem. Vol 56, No 3, p 448, March 1984, a so-called Formaldehyde Surface Emission Monitor (FSEM), where the emitted formaldehyde is collected in a molecular sieve, placed inside an open chamber, which is placed on the sample surface. Prior to the quantitative determination of the emitted formaldehyde, it must be extracted from the molecular sieve with water. This method is also time-consuming and cumbersome.

An object of the present invention is to provide a method of measuring formaldehyde emission from surfaces, preferably flat surfaces, which method is fast and simple and enables non-destructive formaldehyde determinations which are not space consuming and which correlate well with measurements made according to the chamber method.

Another object of the invention is to provide a cheap and simple device which enables measurement of formaldehyde emission from surfaces, preferably flat surfaces, which device can be stored in the dark at room temperature.

In the method according to the invention for measuring the formaldehyde emission from a flat surface, one or more sample chambers are placed which have the shape of a small open container on the flat surface with the opening facing the sample surface. At the bottom of the container, which may be a bowl, for example a petri dish or the like, of glass, plastic or other gas-tight and waterproof material, is applied a layer containing a reagent for formaldehyde, for example acetylacetone, which reagent is dissolved in a gel mass prepared of, for example, gelatin and water. This mass can be modified by adding consistency sensors, e.g. gum arabic, and / or by the addition of liquid-binding agents, e.g. salts.

The formaldehyde emitted from the sample surface is absorbed in the gelatin layer at the bottom of the container which is a short distance above the sample surface and reacts with the reagent, for example with acetylacetone to a yellow compound, diacetyldihydrolutidine (DDL) with an absorption maximum of 412 nm. After a certain, not too long time, about 3 minutes to 1 hour, depending on the magnitude of the formaldehyde emission present, the container is removed from the sample surface and sealed.

The container is then heated and kept - using acetylacetone as reagent - at about 60 ° C for about 10 minutes. In this case, the gel mass changes to a liquid form and the formaldehyde absorbed therein is caused to react completely with the reagent. The liquid mass can then either be transferred to a measuring cuvette to determine the light absorption in a photometer at a wavelength of 412 nm or the sample chamber itself can be turned upside down and thereby function as a measuring cuvette (see Fig. 2) ~ According to another simplified procedure, the container of the determination be provided with a comparison scale in different color shades corresponding to different absorbance values for the gel mass, compare Figure 2. By comparing formaldehyde emission determinations performed according to the chamber method and correlating with them as described in Example 2, the amount of formaldehyde emitted during a certain time and from a given surface is easily determined by comparing the color of the gel mass with the color scale, whereby it is possible, for example, to check whether the amount of formaldehyde emitted is below or above a permissible limit value.

A suitable device according to the invention for carrying out the method according to the invention consists of a test chamber of the following construction, compare Fig. 1: The test chamber consists of a container (A) which may be a bowl, for example a petri dish or the like, of glass, plastic or other gas-tight and waterproof material. The shape of the container is suitably, but not necessarily cylindrical, the diameter being considerably larger than the height and having a value in the range 1-20 cm, preferably 2-10 cm, while the height is suitably in the range 0.2-10 cm. A layer (B) containing a reagent for formaldehyde, for example acetylacetone, is applied over the entire inner bottom surface of the container, which reagent is dissolved in a gel of, for example, gelatin and water.

The thickness of said layer is 0.2-10 mm, preferably 0.5-2 mm. The opening of the container is closed with a gas-tight lid which can be a plastic lid or a peelable plastic foil or other material which can be easily removed when the container is to be used. Alternatively, two containers can be closed against each other, for example with mechanical devices or with an adhesive, see figure 3.

When determining the formaldehyde emission from a flat surface, the lid is removed from the container and the container is placed with the opening downwards over the sample surface. At the end of the test period, the container is removed from the test surface and resealed with the lid.

To determine the light absorption in the manner indicated above, by heating the container, the gel layer is transferred in liquid form and the light absorption is determined as indicated above.

In this case, as stated above, the container itself can be used as a measuring cuvette or the gel mass can be transferred to a separate measuring cuvette.

In addition, the container can be provided with a graded color scale - |> - m 4: - CD n- -o by means of which one can directly compare the coloring tint of the gel mass with a color scale directly related to formaldehyde emission data, whereby one can easily determine whether the formaldehyde emission is above or below a set limit value.

Example 1 Preparation of test chamber: An acetylacetone-gelatin solution is prepared according to: 1.7 g gelatin 7.7 g ammonium acetate 0.1 ml acetylacetone 0.15 ml acetic acid 100% q.s. water 100 ml is dissolved with stirring at about 45 ° C.

In a cylindrical Petri dish of clear polystyrene plastic, with an inner diameter of 49 mm and an inner height of 7 mm, pour 2 ml of the hot solution and distribute evenly over the bottom of the chamber.

The chamber with contents is closed with a plastic lid and then allowed to stand and cool on a horizontal surface, whereby the solution solidifies into a gel. The gel layer becomes about 1 mm thick.

This device can be stored in the dark at room temperature.

Example 2 Comparative measurements with the chamber method according to DIN.

Test time 30 minutes with test chamber according to Example 1.

Sample surface when measuring according to DIN; 0.06 m2. Chamber volume: 20 liters Air volume: 1.6 liters / minute.

Samples: Acid-curing alkyd / amine resin paints applied to glass.

Measurement values are shown in diagrams in Figure 4, where the relationship according to 464 049 a statistical correlation analysis is represented by a straight line with the equation: y = 0.4806x - 0.0122l, where y = the absorbance at 412 nm and x = the chamber value in mg / m3. The correlation shown is statistically significant.

Example 3 Investigation of the spread of measurement results with the new method.

Sample panel Glass plate 25 x 25 cm coated with an acid-curing alkyd-amine varnish.

Samples: 20 sample chambers according to example 1 placed on the sample panel according to figure 5.

Test time: 30 minutes.

The measurement results are shown in Figure 5, where the entered values refer to the absorbance multiplied by a factor of 1000.

The average value is 0.0297. The corresponding measured value when tested with the chamber method is 0.073 mg / m3, which is in good agreement with the relationship shown according to Example 2.

Claims (12)

464 D49 PATENT CLAIMS 1. l. Method of measuring formaldehyde emission from surfaces, preferably flat surfaces of surface-treated or untreated materials, characterized in that one or more test chambers having the shape of open containers placed on the flat surface are placed on the surface to be examined. with the opening facing the sample surface, applying to the inner bottom surface of the container, which is made of glass, plastic or other gas-tight and waterproof material, a gel layer containing a reagent for formaldehyde, which reagent contains acetylacetone and which reagent, when reacting with formaldehyde, gives rise to a colored reaction product, whereby the formaldehyde emitted from the sample surface is absorbed in the gel mass at the bottom of the container which is a short distance above the sample surface and there reacts with the reagent to cause a color change of the gel mass. of from about 3 minutes to 1 hour, removed from the sample surface and sealed, va The gel mass is brought into liquid form by heating the container, after which the amount of formaldehyde absorbed in the gel mass, which amount is directly related to the amount of formaldehyde emitted from the sample surface, is determined by means of the induced color change of the gel mass. 2. A method according to claim 1, characterized in that the gel mass is made of gelatin and water. 3. A method according to claim 1 or 2, characterized in that the amount of formaldehyde absorbed is determined by measuring the light absorption with a photometer in a measuring cuvette. 4. A method according to claim 3, characterized in that the test chamber itself constitutes a measuring cuvette. 5. A method according to claim 1 or 2, characterized in that the amount of formaldehyde absorbed is determined by comparing the color shade developed in the gel mass with a color scale according to which the amount of formaldehyde absorbed is directly proportional to the color intensity of the scale. Device for measuring formaldehyde emission from surfaces of surface-treated or untreated materials by absorbing emitted formaldehyde from said surfaces in a sample chamber, characterized in that the sample chamber consists of a container (A) which may be a bowl or the like, of glass, plastic or other gas-tight and waterproof material, the shape of the container being suitably cylindrical, the surface of the opening being considerably larger than the height of the container and which surface is in the range 0.8-300 cm 2, preferably 3-150 cm 2, the entire inner bottom surface of the container A gel layer (B) is applied which contains a reagent for formaldehyde, which reagent contains acetylacetone, and the opening of the container is closed with a gas and waterproof lid. Device according to claim 6, characterized in that the container A 'is a cylindrical container with a circular opening. Device according to claim 6 or 7, characterized in that the gel mass is made of gelatin and water. Device according to any one of claims 6-8, characterized in that the thickness of the gel layer is 0.2-10 mm, preferably 0.5-2 mm. 10. A device according to any one of claims 6-9, characterized in that the gas and waterproof lid consists of an identical container, the two containers being closed with each other. 464 049 11. ll. Device according to one of Claims 6 to 10, characterized in that the container also constitutes a measuring cuvette for absorbance measurement in a photometer. Device according to one of Claims 6 to 11, characterized in that the container is provided with a color scale which shows the amount of formaldehyde absorbed as a function of color intensity.