RU2016120904A - METHOD OF KOCHETOV DETERMINATION OF EXPLOSION PROTECTION EFFICIENCY - Google Patents

Claims (1)

A method for determining the efficiency of explosion protection, which consists in using a monitoring system with processing the information received, in the test box, a model of an explosive object is installed, and video cameras are installed along its internal and external perimeters, while the cameras are explosion-proof, and the outputs from the cameras through the internal the cavity of the spacers is connected to the unit, by means of which the process of changing the technological parameters in the layout is recorded and recorded after which, through a system of analyzers of recorded oscillograms of the ongoing processes, the technological parameters are recorded in the model of the explosive hazardous facility, and in the ceiling part of the layout, an opening is made, which is closed by an explosion-proof element installed in a loose fit on three elastic pins, one end of which is rigidly fixed in the ceiling of the layout, and on the second a horizontal bar is mounted, between the explosive fragmentation element and the opening, a three-coordinate pressure sensor is installed in the explosion protective design, the output of which is connected to the input of the recording and recording equipment unit, and on both sides of the pressure sensor there are temperature and humidity sensors that control the thermo-humid mode in the layout, the outputs of which are also connected to the input of the recording and recording equipment unit, and internal and external surfaces protections of the layout are pasted over with load cells, the outputs of which are also connected to the input of the recording and recording equipment unit, after processing the obtained experiment data form the information database on the development of an emergency in an accident at an explosive facility, and make up a mathematical model that predicts the prevention of an emergency in an accident at an explosive facility, set up a set of explosive fragmentation elements consisting of at least two explosive fragmentation elements , respectively, with the initiators of the explosion, while the tests begin with an explosive fragmentation element, smaller in TNT equivalent, compared with the subsequent why they install additional video surveillance cameras made in explosion-proof execution, and additionally evaluate the effectiveness of explosion-proof execution of explosive fragmentation elements, and determine by means of computer simulation the extent of the emergency during explosions at storage facilities for explosive fragmentation elements, characterized in that an opening is made in the ceiling part of the layout , which is closed by an explosion-proof element mounted on a loose fit on three elastic pins, one n end, each of which is rigidly fixed in the ceiling of the layout, and on the other, free end, a stop element is installed, equipped with a strain gauge that fixes the deformation of the stop element, while to the elastic pins of the explosion-proof element, telescopically inserted into the fixed support pipes, embedded in explosion-proof element, horizontal bars are welded to fix the extreme position of the explosion-proof element, to which a damping plate is attached, and to it, opposite to the explosion-proof element, and on systematic way shock wave attached buffer device which is in the form of a cone whose vertex is aligned with the axis of the opening made in the roof of the layout.