SU1673919A1 - Soil evaporator - Google Patents

Abstract

The invention relates to the field of hydrology, in particular, can be used in technical means to determine the magnitude of the evaporation of water from a moist and saturated surface of soils, and improves the accuracy of determining the evaporation. The evaporator compensation soil contains interconnected evaporation vessel 1 and compensation vessel 2, supply tank 3 with a drain device made in the form of two tubes. The air tube 4 is installed with a gap coaxially outside the drain tube 7 with the possibility of vertical movement and is provided with openings 8 in the upper and lower parts. The lower end of the drain tube 7 is located between the openings 8 of the air tube and is provided with a removable ring of hydrophobic material. At the lower end of the air tube, a screw-on nut 5 with a plug 6 is installed. Due to the lowering of the liquid level, the air bubble is drawn into the interior of the drainage tube, at the same time displacing a certain amount of liquid from it. 1 hp f-ly, 1 ill.

Description

The invention relates to hydrology, in particular, can be used in technical means for determining the magnitude of water evaporation in the process of optimizing field drying of milled peat.

The aim of the invention is to improve the accuracy of the measurement of evaporation.

The drawing shows a diagram of the evaporator.

The evaporator contains interconnected evaporating vessel 1 and a compensation vessel 2, a feed tank 3 with a drain device made in the form of an air tube 4 with a clamping nut 5 screwed on its lower end and a stopper 6, and a drain tube 7. At the top and bottom of the air the tubes are made around its perimeter 8. The air tube is installed with a clearance coaxially outside the drain tube, with the possibility of vertical movement. The measuring device is not shown in the drawing. Drain tube 7 is provided with a removable ring 9 of hydrophobic material.

The evaporator works as follows.

When water evaporates from the water-saturated surface of the reference material, for example, quartz sand, placed in an evaporation vessel 1, the water level in the compensation vessel and the cavity of the air tube 4, communicating through the holes 8 located in its lower part, decreases, resulting in a film of surface tension. around the lower end of the drain tube 7, on which a removable ring 9 of hydrophobic material is installed, opens and a gap is formed. Since in the upper part of the supply tank 3 the pressure is below atmospheric, the air bubble from the cavity of the air tube 4, which is connected to the atmosphere through the holes 8 located in its upper part, is drawn into the inside of the drain tube 7, at the same time displacing from it a quantity of liquid proportional to the bubble volume of air. Drain the liquid increases the level of the liquid in the compensation and evaporation vessels. The air bubble rises through the drain tube

the upper part of the supply tank 3 and acts on the measuring device. Before filling the supply tank 3 with water, the air tube 4 is moved to

the uppermost position until the bottom end of the drain tube 7 stops in the plug 6, supported by the clamping nut 5. After the filling is completed, the air tube is returned to the initial working position.

As a result of the tests, the constructive size of the gap between the air and drain tubes was chosen from the condition of its operation as a cylindrical capillary tube with a linear dimension of 1-3 mm. The ratio of the internal diameter of the drain tube to the gap between the tubes was set in the following limits 4.3-16.0.

0With more respect violated

operation of the evaporator drain system, which begins to operate in a pulsating mode, with a discharge value of 0.6-20 g, which is unacceptable under technical conditions, and

5 with a smaller ratio increases the discharge value above 2 g, which reduces the accuracy of evaporation determination.

Claims (2)

1. A soil evaporator, including 0 interconnected evaporative and compensation vessels, a feed tank with a drain device made in the form of an air tube and a drain tube, a pressure nut with a plug and a measuring device, in order to improve the accuracy of measuring evaporation capacity, the air tube is installed with a clearance coaxially outside the drain tube with the possibility of vertical movement and is made with openings in the upper and lower parts, the lower end of the drain tube is located between air tube, and the clamping nut with the plug is installed on the bottom 5 the end of the air tube, while the ratio of the internal diameter of the drain tube to the gap between the tubes is 4.3-16.0. 2. The evaporator according to claim 1. This is due to the fact that the drain tube is equipped with a removable ring of hydrophobic material mounted on its lower end.