RU2015140514A - METHOD FOR FORECASTING DEVELOPMENT OF EMERGENCY SITUATION AT EXPLOSIVE OBJECT - Google Patents

Claims (1)

A method for predicting the development of an emergency in an accident at an explosive facility, which consists in using a monitoring system with processing the received information about the hazardous area to make a decision on preventing an emergency, install a model of the explosive facility in the test box, and set its internal and external perimeters video cameras for video surveillance of the emergency development process during an accident at an explosive facility, which is modeled by installing and in the layout of the explosive fragmentation element with the initiator of the explosion, while the cameras are explosion-proof, and the outputs from the cameras through the internal cavity of the spacers are connected to the unit, by means of which they record and register the ongoing processes of changing technological parameters in the layout, and then register using a system of analyzers recorded oscillograms of the ongoing processes of changing technological parameters in the layout of an explosive facility, and in the ceiling part of the layout t the opening, which is closed by an explosion-proof element installed in a loose fit on three elastic pins, one end, each of which is rigidly fixed in the ceiling of the layout, and on the second a horizontal bar is fixed, between the explosive fragmentation element and the opening, a three-coordinate pressure sensor is installed in the explosion-proof performance, the output of which is connected to the input of the recording and recording equipment, and on both sides of the pressure sensor there are temperature and humidity sensors that control the thermal the guest mode in the layout, the outputs of which are also connected to the input of the recording and recording equipment block, and the internal and external surfaces of the protections of the layout are glued with load cells, the outputs of which are also connected to the input of the recording and recording equipment block, after processing the obtained experimental data, an information database on the development emergency in an accident at an explosive facility, and make up a mathematical model that predicts the prevention of emergency in Vari at an explosive facility, an explosion-proof element located in the ceiling part of the prototype, where an opening is made, and which is set to freely fit on three elastic pins, is additionally equipped with damping elements that soften the effects of the shock wave during an explosion, and is fixed on horizontal crossbars from the side facing to the opening, while the damping elements are made of elastomer, and an inductive displacement sensor is installed between the ceiling part of the layout and the damping elements, which record the dynamics of movement of the explosion-proof element during an explosion, the signal from which is sent through a communication line to a block of recording and recording equipment, the output of which is connected to a block of analyzers of recorded oscillograms of ongoing processes of changing technological parameters in the model of an explosive object, after processing the obtained experimental data, an information database on development emergency during an accident at an explosive facility, and make up a mathematical model that predicts the prevention of In case of emergency during an accident at an explosive facility, at least two explosion-proof collapsible structures are placed in the side walls of the prototype to enclose especially hazardous production facilities that do not have window openings, and each of which consists of reinforced concrete panels consisting of collapsing and non-collapsing parts, the non-destructible part being made along the contour of the panel, and the decaying part is made in the form of at least two coaxially located niches, one of which is external They are formed by planes with a regular quadrangular truncated pyramid with a rectangular base, and the other is inner, made in the form of two inclined surfaces connected by an edge, and strain gages are installed on the inclined surfaces of the collapsing part of the panel, fixing the deformation and the moment of their destruction, while the signal from the strain gages along the line communications are directed to a block of recording and recording equipment, the output of which is connected to a block of analyzers of recorded oscillograms of ongoing processes of technological change After processing the obtained experimental data, the logical parameters are formed of an information database on the development of an emergency in an accident at an explosive object, and a mathematical model is made that predicts the prevention of an emergency in an accident at an explosive object, characterized in that on weak link elements in emergency system, for example, an explosion-proof element, on the supporting rods of which are installed sleeves of quick-breaking material, on an example of glass, of the triplex type, sets up an emergency warning system, while between the metal frame with armored metal cladding and the upper part of the explosion-hazardous object’s cover, the safety indicator, which serves as the weak link in the system, is fixed at the opening designed to relieve excess pressure safety of an explosive object, and responding to an emergency, which is performed in the form of a sensor that responds to deformation, such as a strain gauge, the output of which is connected to a signal amplifier, for example a strain gauge, and the output of the strain gauge is connected to the input of an emergency warning system device.