SU1160944A1 - Installation for simulating snow thawing and soil erosion - Google Patents

Abstract

1. INSTALLATION FOR SIMULATION OF SNOW GRAINING AND EROSION OF SOIL, including a frame with varying angle of inclination, vessels-lysimeters with soil, drainage systems and measured capacitances of subsurface and surface runoff, which is different from the fact that in order to increase the reliability of research in modeling weather conditions spring, lysimeter vessels are installed in a thermally insulated mobile unit equipped with a freezer, snow loading cassettes and a radiation heat generator installed with the option of alternating Disconnection and separation from the unit. 2. Installation under item 1, characterized in that the drainage of surface runoff is located in the zones of action of the radiation heat generator. 3. Installation according to claim 1, characterized in that, in order to imitate the dynamics of solar lighting, the radiant heat generator is equipped with an automatic controller of the intensity of heating the surface of the soil (Line monoliths in time. 1 / O) о N 4

Description

The invention relates to agriculture, in particular, to study the processes occurring on the surface and inside the soil, and can be used when studying in laboratory conditions the processes of snowmelt, runoff of thawed waters of the migration of soil components and mariorants.

A device is known for studying the complex effect of environmental factors on a plant containing a vessel mounted on a self-propelled trolley 1.

However, this installation does not allow simulating snow conditions, melt water runoff over frozen soil, and the behavior of soil components during the period of their freezing and thawing.

A device for modeling snow and soil erosion is also known, including a frame with varying angle of inclination, vessels-lysimeters with soil, drainage systems and measuring capacities of subsurface and surface runoff 2.

A disadvantage of the known installation is that it does not allow recreating the flow-forming environment adequate to the typical natural conditions of the winter-spring period, when, as a result of alternating thaws and frosts, snowing leads to a sharp increase in water flow, loss of soil components and pollution of the surrounding area. environment.

The installation does not allow the user to trace the nature of the snow either or the erosion of the soil at different heights of snow cover and the depth of soil freezing.

The purpose of the invention is to increase the reliability of the study when modeling the weather conditions of the winter-spring period.

This goal is achieved by the fact that in a facility for modeling snow and soil erosion, including a frame with a variable inclination angle, vessels-lysimeters with soil, drainage systems and measuring tanks inside the soil and surface runoff, vessels-lysimeters are installed in a heat insulating mobile a unit equipped with a freezer, cassettes. for loading snow and a radiation heat generator; installed with the possibility of transverse disconnection and separation from the unit.

At the same time, surface drainage outlets are located in the zones of action of the radiant heat generator.

The radial heat generator is equipped with an automatic regulator of the intensity of heating the surface of the soil monoliths over time.

FIG. 1 shows schematically the proposed installation, the general view; in fig. 2 - the same, top view.

The unit for modeling snow and soil erosion is fixed on frame 1 and consists of a thermally insulated mobile unit 2 with a device for changing

angle of inclination 3, lysimeter vessels 4 with soil installed in the heat insulating unit 2, drainage of subsurface 5 and located in the zone of action of the radiation heat generator 6 outlets of surface runoff 7. The heat insulating unit 2 from the surface of the lysimeter vessels 4 is equipped with removable cassettes 8 snow loading, freezer 9 and radiant heat generator 6 with automatic heat intensity regulator 10 installed with the option of alternately disconnecting and separating from unit 2. At different depths from The characteristics of the lysimeter vessels 4 in the thermal insulation unit 2 are fitted with sensors for measuring the temperature and humidity of the soil (not indicated).

The installation works as follows. An agraphone is created on the soil surface in each vizelimeter 4 (processing

0 soil, vegetation cover, fertilizer, etc.). The soil moisture of the monolith is adjusted to the specified parameters. Using a device for changing the angle of inclination 3, block 2 with vessels-lysimeters 4 impart a slope of the surface corresponding to the studied natural slope. On all vessels lysimeters 4, drainage systems of subsurface 5 and surface runoff 7 are connected. From the surface of the heat insulating unit 2, a freezer compartment 9 is hermetically sealed, which brings the temperature of the soil to a predetermined freezing depth. After that, the freezer compartment 9 is turned off and disconnected from unit 2. On the surface of the lysimeter vessels 4, soil is installed

removable cassettes 8, in which certain portions of snow are loaded by weight. Then the beam heat generator 6 is turned on and after the snow has been compacted, the cassette 8 is removed.

The snow mode is not set automatically by the CMM regulator of the heating intensity 10. In the process of heat heating, snowing begins. Depending on the snow conditions and the water permeability of the soil, water flows through the drainage system 7 from the surface of the lysimeter vessels 4 to the soil or flows through the soil thickness through the drainage system 5 into measuring containers (not shown). After a certain time, surface and subsurface runoff of melt water and the migration of soil components are measured.

The cycle of snow can neither be repeated many times with the determination of the degree of influence of one or another factor on runoff and soil erosion.

Thus, by simulating on the model slope various anti-erosion and reclamation techniques (methods

processing, timing and methods of making

fertilizers, herbicides, ameliorants) can

Accelerate the assessment and transfer to natural conditions of the most effective techniques and methods for combating soil erosion. it

It will protect the environment from adverse events and increase the productivity of erosion-prone lands.

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Claims (3)

1. INSTALLATION FOR MODELING OF SHOWING AND SOIL EROSION, including a frame with a varying angle of inclination, vessels-lysimeters with soil, drainage systems and measuring tanks of subsoil and surface runoff, characterized in that, in order to increase the reliability of studies when modeling weather conditions of winter-spring period, lysimeter vessels are installed in a heat-insulating mobile unit equipped with a freezer, snow loading cassettes and a radiant heat generator installed with the possibility of alternating shutdown niya and separation from the block. 2. Installation according to π. 1, characterized in that the drainage of surface runoff is located in the areas of action of the radiant heat generator. 3. Installation by 'π. 1, characterized in that, in order to simulate the dynamics of solar illumination, the radiant heat generator is equipped with an automatic regulator of the intensity of heating of the surface of soil monoliths over time. Figure 1