CS255362B1 - Method of ground evaporation increase - Google Patents

Abstract

The problem of increasing the vapor depression is solved from wet areas by the application of nonionic surfactants in quantity to be in superficial layer with respect to the water present, 1 to 100 mg / l. It can be applied in agriculture adjusting playgrounds, etc., while being selected surfactants do not have toxic or post-application surfactants other adverse effects.

Description

The invention solves the problem of accelerating the drying of surface coatings by applying commercial product types to wet surfaces.

It is known in agriculture to solve the problem of removing water from permanently waterlogged under hydromelioration treatment, as well as preventing flooding of agricultural areas. In practice, however, not only in agriculture, there is increased waterlogging of the upper layer also by other influences, such as. reducing the water permeability of the soil by the fact that the surface layers are frozen, or that the surface layers have a significantly lower permeability and some other effects. Prolonged waterlogging has an adverse effect, as the water present prevents the air from entering the pod, aids in rotting processes, disrupting the lump structure of the pod and the like.

The wetting of the wetted surface layer can be reduced by the process according to the invention by applying to the wetted surfaces alone or a concentrated solution of a non-ionic surfactant of the formula R-O-X-H, wherein R is C 4 -C 22 alkyl and X is etoxamer or a C 12 -C 20 propoxamer, in an amount of 1 to 100 mg / L, preferably 20 to 50 mg / L, of the nonionic surfactants in the surface layer.

The main advantages of the sub-process according to the invention include ease of application, low cost, commercially easy availability of the applied substances and, moreover, at the concentrations used, the stimulating effect on seed germination.

The most common types of nonionic surfactants used in the process of the present invention are ethoxylated aliphatic higher fatty alcohols or acids typically used for ethoxylation in the form of a mixture, the number of bound ethylene oxide molecules typically being in the range of 10 to 30 molecules / 1 molecule of active hydrogen starting material. Depending on the type of application and the physical properties, these surfactants are used either at high concentrations up to 100% or are slightly diluted. So eg. when using a garden sprayer when applied to small areas such as gardens, playgrounds, etc. as a rule, solutions containing an active substance content of 20 to 80 per wash are used. wherein the water content practically does not affect the waterlogging of the top layer with respect to the amounts applied. In some cases, it is useful to combine the application of surfactants with the replenishment of deficient biogenic elements such as trace elements, N, K or combinations thereof and the like. A layer of about 5 cm is considered below the surface or topsheet, but due to the chemical composition and structure may be quite different from the stated value, and the boundary of the layer is not sharp.

The nonionic types applicable according to the invention are commercial products and are therefore readily available. Upon subsequent application by diffusion processes, a gradually desired concentration is formed. Even after penetrating the surface layer, their effect is beneficial when they suppress capillary elevation and thus create conditions for higher biological utilization of the moisture. Their penetration into the plant body, unlike ionic surfactants, has not been demonstrated.

The technical effect of the invention is demonstrated by means of an exemplary embodiment, which, however, we have chosen in the laboratory conditions to achieve an exact result (avoiding various weather effects).

Example 1

The dried clay-aluminum sand sample is divided into 2 parts, one part moistened with service water and the other with service water with a concentration of ethoxylated mixture of higher fatty alcohols (Slovasol O) at a concentration of 50 mg / l. The prepared samples are filled into metal containers 3 cm thick and after stabilization under the foil, the foil is removed and the water vapor in g per cm ² is monitored. h, in which 3 parallel experiments were evaluated from each sample. The evaporation takes place at a room temperature of 18 ° C and a relative humidity of 42%. The average value for water trials is 0.0048 g / cm ² . h, in experiments with a tenside of 0.0053 g / cm ² . h, which represents a difference of 0.0005 g / cm ² . h, ie approx. 10 ° / higher evaporation.

Example 1 and d 2

The watered training ground is sprayed on a part of the surface with etoxpropoxamer octyl alcohol in a concentration of 40-45 mg / l. The rate of evaporation is controlled by evaporating water from the sampled samples until the weight stabilizes. A comparison of the samples shows that the evaporation rate is higher by 0.008 g / cm ² . . day ^-1 with flat sprayed as compared to un sprayed area.

Claims (1)

Method for increasing water vapor from waterlogged soil surfaces by applying to the waterlogged surfaces a single or concentrated solution of a non-ionic surfactant of the formula R-O-X-H, where R is alkyl of 4 to 22 carbon atoms OF THE INVENTION and X is an etoxamer or propoxamer of 12 to 20 carbon atoms, in an amount of a concentration of 1 to 100 mg / l, preferably 20-50 mg / l of nonionic surfactants in the surface layer.