RU2617596C1 - Method for forming ozone protection in the atmosphere of mars - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: method involves placing a hollow metal cable in the lower layers of the Mars atmosphere with pores on the surface. During the Martian dust storm, the metal cable is charged due to the triboelectric effect. This induces atmospheric spark discharges, leading to the formation of ozone. Through the pores of the cable, nitric acid is released, which stabilises ozone.

EFFECT: possibility of forming ozone protection in the atmosphere of Mars, regardless of the presence of solar UV radiation.

Description

The invention relates to the field of space research and technology and can be used to form ozone protection in the atmosphere of Mars, as well as for experimental ground testing of this technology.

A known method of forming ozone protection in the atmosphere of Mars by emitting part of the gas mixture of the Martian station into the atmosphere of Mars, in which the oxygen contained in the emissions, subjected to harsh ultraviolet radiation, is converted into ozone / RU 2573699 C1; B64G 1/48, E21C 51/00; 10/23/2014; 01/27/2016 /.

The disadvantage of this technical solution is the need to use solar radiation for the formation of ozone protection, which prevents the formation of ozone protection during a dust storm, as well as at night.

The objective of the invention is the formation of ozone protection in the atmosphere of Mars during a dust storm.

This problem is solved due to the fact that according to the claimed method of forming ozone protection in the Martian atmosphere, a hollow metal cable with pores on the surface is placed, and during a dust storm, the metal cable is electrically charged and nitric acid is released from the cable through the pores.

The invention is characterized by the following set of essential distinguishing features: electric charging of a metal cable placed in the atmosphere of Mars during a dust storm; the release of nitric acid from the inside of the cable through the pores during a dust storm.

The indicated set of essential distinguishing features allows the formation of ozone protection in the atmosphere of Mars during a dust storm.

Dust storms characteristic of the atmosphere of Mars due to the electrification of rubbing dust particles contribute to the occurrence of atmospheric electric spark discharges, which is confirmed by the results of studies according to which independent large-scale electric discharges occur in dust storms on Mars with an electric field strength of 20-25 kV / m decomposition of the main component of the Martian atmosphere - carbon dioxide - into carbon monoxide and oxygen and the formation of ozone from oxygen.

(Christopher Ruf et al. "Emission of non-thermal microwave radiation by a Martian dust storm", Geophysical research letters, vol. 36, number 13, 07.16.2009;

Gregory T. Delory et al. "Oxidant enhancement in Martian dust devils and storms: storm electric fields and electron dissociative attachment", Astrobiology, vol. 6, number 3, 2006).

Electric charging of a metal cable placed in the atmosphere of Mars during a dust storm initiates the occurrence of atmospheric electric spark discharges, leading to the generation of ozone in the Martian atmosphere during a dust storm, both in daytime and nighttime.

The presence of small amounts of nitric acid stabilizes ozone / Big Soviet Encyclopedia, third edition, vol. 18, p. 324, column 959 /, therefore, the release of nitric acid from the inside of the cable through the pores during a dust storm helps to preserve the generated ozone in the Martian atmosphere. It is advisable to use concentrated acid, since such common metals as, for example, iron, aluminum, chromium, which are readily soluble in dilute nitric acid, are resistant to concentrated nitric acid / TSB, t. 1, p. 299, column. 873 /. The rest of the invention is carried out using known methods and means.

Thus, the electric charging of a metal cable placed in the atmosphere of Mars during a yellow storm due to the initiation of atmospheric electric spark discharges by an electrically charged cable leading to the decomposition of the main component - the Martian atmosphere - carbon dioxide - and the formation of ozone allows the formation of ozone protection in the atmosphere of Mars during dust storm.

At the same time, the release of nitric acid from the inside of the cable through the pores during a dust storm due to the properties of nitric acid and ozone helps to stabilize ozone and, thanks to the preservation of generated ozone in the Martian atmosphere, promotes the formation of ozone protection in the Martian atmosphere during a dust storm.

Claims (1)

The method of forming ozone protection in the atmosphere of Mars, characterized in that a hollow metal cable with pores on the surface is placed in the atmosphere of Mars, and during a dust storm the metal cable is electrically charged and nitric acid is released from the cable through the pores.