SU316985A1 - DEVICE FOR RESEARCH OF MICROSTRUCTURE OF CLOUDS AND FOG - Google Patents

Description

The invention relates to meteorological research and can be used in studying the microstructure of clouds and fogs. Various climatic chambers for the study of aerosols are known, in which research is being carried out to create and artificially influence mists. However, they cannot be used to investigate the conditions of evaporation and condensation of water vapor. The purpose of the invention is to determine the conditions under which water vapor evaporates or condenses on water droplets. For this, the proposed device is equipped with two thermocouple systems located on movably mounted rods in the chamber and respectively located in the chamber walls for observation, with a heater placed in the upper part of the chamber and a layer of water in the lower part. In addition, one of the thermocouples is located near the surface of the water layer in the lower part of the chamber and connected in series with the other thermocouple placed in the upper part of the chamber, and the remaining thermocouples located in the upper part of the chamber are also connected in series. to study the evaporation or condensation of water vapor on water droplets. The device contains condensation hygrometers / and 2, holding rods 3 and 4 thermocouples, electric heater 5, holding rod 6 of electric wire resistance thermometers, chamber cover 7, chamber walls 8, thermocouples .9-12. The device is a two-pane hermetically sealed lid 7 and a chamber made of organic glass, at the bottom of which a layer of water is poured, and an electric heater 5 is located in the upper part of the chamber. the camera. LI and rod 6 are reinforced with several miniature plate-type thermometers of resistance, one of which is lowered into the water, and the rest, at certain distances, are placed on the rod to the chamber cover itself. Four thermocouples 9–12 are mounted on rods x 3 and 4, including thermocouples 9 and W, as well as 11 Y. 12 are connected in series. Thermocouples 10, 11 and 12 are located in the same horizontal plane. In the process of operation, thermocouples 9, 10 and // announce the drops.

Microscope MIR-1, located on a tripod near the camera. Measuring drops of uriGiiJiKidits through the wall of the chamber.

In the lower part of the chamber, i; oi epxnccTii; Yuda and in the upper part of the chamber, microcable micrometers and / 2 are measured, measuring the dew point temperature at various levels.

The air pressure in the chamber is expressed at atmospheric pressure through a fitting with a filter (not shown in the drawing) located in the electric heater unit 5.

The device works as follows.

At steady state ambient air temperature i; The air inside the chamber, as well as the water placed on the bottom, is connected to thermocouples 9, 10 and // drops and the chamber is closed with a lid 7. At the same time, the temperature mode in the chamber and the sum of the thermocouple currents are recorded using an oscilloscope loop. Two systems of thermocouples, i.e., a system of thermocouples 9-10 and 11-12, make it possible to follow the process of evaporation or condensation from droplets attached to thermocouples 9, 10 and //.

At the initial moment after the chamber is closed on the thermocouple 9, located at the water level, i.e., in conditions close to the pressure sensor, condensation begins, and the droplet takes the balance, and from the drop, iodine on the thermocouple 10 and located in the; upper part of the chamber, occurs pspapreppa. As the moisture in the upper part of the chamber increases, due to evaporation j; o; (The bottom is located, the evaporation from the drop of the thermocouple 10 decreases. When the relative humidity of the air reaches / kenya in the whole chamber volume close to 100%, the drop from the thermocouple drops 9 and 10 ceases. To control this process, next to the thermocouple W thermocouples are placed // and 12, on the ter: 1 donar 12 is suspended by a drop. These thermonar readings will depend only on the psychosis of Kylie thermocouple 12. Since the two thermocouples are identical in their electrical parameters, they show them.

l: () to; K) (; g: 1dali; .. nature of copdepsapp plp pspaprepn 1i) dmp; X vapors with drops} to 10 prp different oTnocirrexbiibix vla / kpost.

In addition, 3 chambers can create an inversion temperature distribution and follow the course of the relative humidity in the chamber and the evaporation process or water vapor condensation in a drop, which includes

electric heater 5. The upper layer of air is slowly heated by 2-C – C. In this case, the relative humidity decreases, and then due to the diffusion of water vapor, it increases, and as the air temperature rises, the temperature drops and the temperature drops.

The top of the camera reaches 100%. Under these conditions, one can also trace the course of pressure and the coordination of suspended droplets and surfaces from the air.

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Claims (2)

1. A device for the study of the microstructure of clouds and clusters, containing ka:, 1cru, electric heater, thermo: 1 meters of resistance, located along the vertical line, and: .1 microgr1metrometers, differing / common in that The purpose of the Psledov D1p amikp evaporation and COPD is (L1saxia of water vapor and water droplets), which is located in the chamber of the rods with two thermoscale thermocouples and, correspondingly, in the steppes of the chamber for the thermocouples; and in the pizhpey-layer of water. 2. ycTpoiicTBO of claim 1, distinguish .cees by -l0 one of the thermocouples is located at the top of the water layer at the bottom of the chamber and connects one after another to the other thermocouple located at the top of the chamber, and the rest of the thermocouples located in The upper part of the chamber is also consistent. V 9