RU2058720C1 - Method of active action on clouds and fogs - Google Patents

Abstract

FIELD: prevention of hail damage and creation of precipitation. SUBSTANCE: method consists in determination of zone of action, check of parameters in this zone and sowing of reagent, action on clouds and fogs by means of remotely-piloted flying vehicle. During motion of remotely-piloted flying vehicle, distance to upper edge of zone of action is checked by means of on-board checking devices and firing explosive items with reagent to left and to right at angles ranging from 3 to 15 deg to level depending on distance to upper edge of zone of action at intervals ranging from 200 to 500 m. EFFECT: enhanced efficiency. 2 cl

Description

 The invention relates to the field of active effects on clouds and fogs in order to prevent hail, cause precipitation and provide the necessary visibility of the underlying surface of the earth.

 The ground-based rocket method for sowing clouds is known, which makes it possible to carry out active impacts on cloud processes in any weather and at any time of the day with sufficient speed and accuracy (1). However, this method is not suitable for exposure to low clouds and fog. In addition, this method requires an extensive network of missile sites, numerous attendants, and a sophisticated supply and control system. The sowing location is determined by the structure of the radio echo with the help of a ground-based radar station.

 There is a known method of sowing clouds using manned aviation, which consists in determining the impact zone, monitoring the parameters in it and sowing the zone with a reagent by shooting ammunition with a reagent (2).

 The known method has limited capabilities, as it can be applied only to convective clouds and only to prevent hail or cause precipitation. When exposed to low clouds and fogs, this method is unacceptable, since it cannot provide the desired effect due to the inability to use ground-based radar stations to indicate low clouds and fogs. In addition, manned aircraft used in the known method does not have a control system that provides flight at a minimum height with tracking the heterogeneity of the relief of the underlying surface. The presence of such a system seems to be very important in solving a number of practical problems, for example, ensuring the necessary visibility in areas where landing is required and the dumping of special equipment for various kinds of expeditions and the fight against such natural phenomena as fire.

 The purpose of the invention is to increase the effectiveness of the impact and expand the functionality of the method.

The goal is achieved by the fact that in the known method of active actions on clouds and fogs, which consists in determining the zone of influence, monitoring the parameters in it and seeding the zone with a reagent, the effect on clouds and fogs is carried out using a remotely piloted aircraft (UAV), while its movement is carried out at the rate of the distance to the upper edge control footprint via airborne control and shooting ammunition with a reagent of the left and right at angles of preferably ^about 3-15, depending on the horizon m distance to the upper edge of the footprint, and the path through the slots preferably 200-500 m. In this case seeding is carried out at the footprint motion remotely-piloted aircraft in the zone or area of the impact, or at its upper edge.

 The method is implemented as follows.

With the help of a ground-based flight control station, a UAV is displayed in a given area of operations covered with low cloudiness or fog. With the help of onboard wide-angle television equipment of the front view, the scales of cloudiness are determined and the course of the UAV is laid accordingly. The course of the UAV can lie both inside the cloud layer and along its upper edge and its surface. When following a UAV over an object of influence, the distance to the upper edge of a cloud or fog is determined using an on-board meteorological range and visibility sensor. At the same time, its temperature is measured using on-board equipment. Sowing in this case is carried out in a supercooled part of the medium using onboard means of influence, for example, an onboard missile system. Shooting submunitions (small missiles air-air type gauge) is carried out at the rate of repetition RPV left and right sides of an angle to the horizontal ^of preferably 3-15 every 200-500 m. If RPV follows directly in the cloud or fog, the shooting submunitions advantageously carried out at angles ^of 10-15, and by following the RPV along the upper edge and above it at angles preferably from 3 to ^about 10.

 Measuring the distance from the top edge of the target to the UAV allows you to choose the optimal angle of shooting of submunitions to achieve the greatest impact.

 Intervals between seeding paths when exposed to low clouds and fogs are also taken with the aim of ensuring the greatest efficiency. So, for example, if the target is fog, then the submunition is fired mainly at intervals of up to 200 m. Such a distance between the firing points ensures the sowing paths merge at a crystallization front propagation velocity of 0.8-1.5 m / s after a time more than 100 s. If the target is low clouds or a convective hail cloud, then submunitions are shot at intervals of up to 500 m, since the turbulence in such clouds is much greater than the turbulence in the fog and ensures the merging of the seeding paths within the same time interval of 100 s.

Thresholds for ejection angle (3-15 ° ^C) and at intervals path (200-500 m) defined according to the real conditions and mechanism of the formation of precipitation.

 The proposed method, unlike the known ones, has great potential, since it can be used not only to affect convective clouds in order to prevent hail and cause precipitation, but can also be used to influence low clouds and fogs to ensure the necessary visibility of the underlying surface of the earth.

 The method can be successfully used in the national economy to solve many practical problems.

Claims (2)

1. METHOD OF ACTIVE INFLUENCE ON CLOUDS AND FOGS, which consists in determining the impact zone, controlling the parameters in it and seeding the zone with a reagent by shooting ammunition with a reagent, characterized in that the effect on clouds and mists is carried out using a remotely piloted aircraft, while when driving it at the rate of the distance control is performed to the upper edge of the footprint via airborne control and shooting ammunition with a reagent of the left and right at angles preferably March 15 ^o to horiz depending on the distance of the impact zone to the upper edge and across the path intervals preferably 200,500 m.  2. The method according to p. 1, characterized in that the sowing of the impact zone is carried out when moving a remotely piloted aircraft in the zone or above the impact zone or along its upper edge.