RU2090548C1 - Pyrotechnical composition for deposit inducing - Google Patents

Abstract

FIELD: chemical technology. SUBSTANCE: composition has, wt.-%: urea 2-9; alkaline metal nitrate 40-60; magnesium or its alloy powder 38-51. Composition exhibits safety and working capacity at negative and positive temperatures. EFFECT: improved quality of composition. 1 tbl

Description

 The invention relates to the field of active effects on meteorological processes, in particular for exposure to clouds of various forms.

 The most common type of exposure to clouds is exposure to cause additional rainfall, and the most common form of cloudiness that is affected is convective. Controlling the precipitation process requires a precise analysis of the cloud state and its possible evolution, as well as a carefully selected reagent composition for exposure. Compositions containing the same substances / components / in different proportions act on cloud systems in different ways. In some cases, the precipitation mechanism intensifies as a result of exposure and precipitation falls, in other cases, the development of cloudiness stops and it dissipates.

The closest analogue of the invention is a composition that contains magnesium as a fuel, alkali metal nitrates as an oxidizing agent, and a metal halide in a molar ratio of fuel to oxidizing agent of 1.5: 1-3.5: 1 / US patent N 3630950, CL. A 01 G 15 / 00.1971 /
A disadvantage of the known composition is the impossibility of its use in a wide temperature range.

 The problem to which the invention is directed is to create an ecological composition for causing precipitation at both negative and positive temperatures, and reduce the risk of manufacturing the composition.

 The problem is achieved by using a composition containing 40-60% potassium nitrate, 38-51% magnesium powder and an additional 2-9% urea with a molar ratio of fuel to oxidizer from 2.7-1 to 5.3-1.

 The composition is as follows. The introduction of organic compounds in the composition of the pyrotechnic mixture of a combustible oxidizing agent, in particular urea, helps to reduce the burning rate of the composition. As can be seen from the table, in the absence of an organic additive, the burning rate of the composition is 9 mm / s. At 10 wt. including urea and 50 parts by weight magnesium powder, the speed decreases to 3.4 mm / s. The authors experimentally established that at a concentration of organic matter / urea / up to 10 wt.h. In the atmosphere, ascending movements are intensively developing, contributing to the growth of the cloud and precipitation from it. So, for example, as a result of active influences from the AN-2 aircraft and in the Irkutsk region in the summer of 1993. it was registered that the impact on clouds with the pyrocomposition of PV-26 pyrocomponents indicated in the table led to intense precipitation from sowed clouds. For example, when shooting five pyro cartridge equipped with the composition N 4, heavy precipitation was observed after 22 minutes.

Similar results were recorded at a temperature of +10 ^o C, +12.5 ^o C.

The experiment on causing precipitation at negative temperature was carried out by the authors on November 7, 1991, when the weather protection of Leningrad from precipitation. Precipitation was caused from An-ZO aircraft at altitudes of 3.0-3.5 km at an outdoor temperature of -10 ^o C. Convective clouds were exposed to sowing at a distance of 80-90 km from the city, carried by the southwest stream towards the city at a speed of - 40 km / h The exposure was carried out from 12 to 17 hours local time. Precipitation was noted by radar after 15-20 minutes. after seeding and lasted 40-60 minutes The restoration of the precipitation zone occurred after 2-2.5 hours.

 Thus, the pyrotechnic composition can effectively cause precipitation from natural clouds located both in the region of negative and in the region of positive temperatures.

As shown by laboratory experiments, this composition is more effective, because compared with the composition of the prototype allows you to get a larger number of active centers 10 ¹³ -10 ¹⁵ / composition of the prototype 10 ¹¹ /.

 The composition is prepared according to the technology adopted in this field. Since the friction sensitivity of this composition corresponds to the 13-15 class, and the prototype composition has a friction sensitivity of 3-5 class, the manufacture and handling of the composition is safer. The component composition and its characteristics are given in the table.

 The aerosol obtained by the combustion of the composition is environmentally friendly. When using the composition of the prototype containing alkali metal halides, it is possible to "salinize" areas in places of active exposure. The use of urea as an active reagent in the present composition avoids this undesirable phenomenon, since upon decomposition of urea, gaseous products are formed during the combustion of the composition.

Claims (1)

 Pyrotechnic composition for causing precipitation from natural clouds in a wide temperature range, containing magnesium fuel or its alloys as fuel, as an oxidizing agent, alkali metal nitrates, characterized in that it additionally contains urea at a molar ratio of fuel to oxidizer of 2.7 1 5, 3 1 and the following ratio of all components, wt. Urea 2 9
Alkali metal nitrate 40 60
Magnesium or alloy powder 38 51c

Images