RU2324926C2 - Method of research of conditions of powder charge ignition with explosive fuel and air mixture during mixture blasting and device for its implementation - Google Patents

Abstract

FIELD: instruments.

SUBSTANCE: initiator of ignition and detonation of a prepared fuel and air mixture is the plasmachemical generator operation mode change process. The mixture ignition and subsequent detonation provide ignition of the powder charge located in an explosion-proof detonation chamber. The chamber design provides for recording of the powder charge ignition process. The mixture composition and the generator operation mode providing the maximum detonation capacity are determined. The device contains an explosion-proof detonation chamber with viewports. An active fuel and air mixture input assembly with a plasmachemical generator and an assembly providing relief of overpressure created during the mixture detonation are connected to the chamber. The device is equipped with an active fuel and air mixture dosing control unit.

EFFECT: determination of powder charge detonation and ignition conditions.

2 cl, 1 dwg

Description

The invention relates to the field of sciences that investigate the determination of ignition conditions with the subsequent detonation of active finely dispersed fuel-air mixtures, and can be used to study and provide explosive conditions and study the conditions required for ignition of gunpowder.

The method includes preparing the medium in the form of an active finely dispersed fuel-air mixture, which was prepared in a plasma-electrochemical generator, feeding it into an explosion-proof blasting chamber, which makes it possible to record the ignition process of the active fuel-air mixture with its subsequent detonation and ignition of the powder charge. The active fuel-air mixture is fed into the explosion-proof blast chamber through the central channel for introducing the mixture under the action of overpressure forces by the developed air compressor supplying the plasma electrochemical generator. By changing the operating mode of the plasma-electrochemical generator, the detonation of the prepared active fuel-air mixture is excited and the detonation ability of the medium and the ignition of the powder charge placed in the chamber are judged by the data obtained.

The device contains an explosion-proof blast chamber with viewing windows, connected to the input unit of the active fuel-air mixture by a plasma-electrochemical generator, a unit for relieving excess pressure that occurs when the mixture is detonated, an extract of detonation products, a flammable powder charge, and registration equipment.

The technical result is the determination of the conditions for the occurrence of detonation and ignition of the powder charge by an active fuel-air mixture prepared by a plasma-electrochemical generator. The inventive method relates to the study of the possibility of ignition of powder charges by an active finely dispersed fuel-air mixture, which was prepared in a plasma electrochemical generator, and can be used to study and ensure explosion safety conditions.

Known methods for studying the explosive properties of gaseous media. For example, on October 30, 73, an invention was published for which US patent No. 3768313, MKI G01N 25/54, entitled “Method for determining the degree of danger of an explosion of a gaseous medium and apparatus for implementing this method,” was issued. This method includes preparing the test medium, pumping it into the ignition chamber and supplying energy to the ignition initiator. The amount of energy supplied is successively changed until it reaches a minimum level sufficient to initiate combustion. The energy level at which ignition of the test medium occurs is a measure of the flammability of this medium and is determined by an electric measuring device, and flammability is an indicator of the danger of an explosion.

On October 2, 74, an invention was published entitled "A Method for Determining the Explosiveness of a Gaseous Medium and a Device for its Implementation", for which application was filed in Great Britain No. 1369038, MKI G01N 25/54. The method includes preparing the medium, introducing it into the probe and supplying energy to the igniter. Energy is increased until ignition of the medium occurs. In this case, the energy or temperature at which the medium ignites is measured, which is a measure of the explosiveness of the medium.

The closest in its technical essence and selected as a prototype of the claimed invention - the method - is the invention "A method for studying the conditions for the development of an explosion when igniting an explosive gas atmosphere and a device for its implementation", which issued a patent of the Russian Federation No. 2209418, MKI G01N 25/54.

The method includes preparing the medium in the form of combustible gas and an oxidizing agent, burning an auxiliary volume of the medium, supplying hot explosion products to the cold bulk of the medium, and registering the process. The supply of hot combustion products is carried out by multiple jets throughout the main volume of the medium. After that, the detonation of the resulting mixture is excited in it and the detonation ability of the medium is judged by the results obtained. The device comprises a main chamber, an additional chamber with an initiator of combustion of the medium, a node for connecting the chamber cavities to each other, an inlet system of the test medium in the chamber, and recording equipment. The device is equipped with an initiator of detonation of the medium in the main chamber, a synchronization system of the operation of the combustion initiator and the detonation initiator.

A disadvantage of the known described methods and devices is the low reliability of the obtained information about the conditions under which the ignition process occurs, followed by detonation.

The objective of the invention is to provide a method and device that allows you to obtain reliable information about the conditions for the development of an explosion when an active finely dispersed fuel-air mixture is ignited, a powder charge is placed inside the chamber.

The technical result that can be obtained using the invention and which determines the solution of the problem is that it is ensured

- study of the amount of necessary active finely divided fuel-air mixture for ignition of the powder charge;

- determination of conditions for initiating detonation of an active finely divided fuel-air mixture;

- the possibility by repeatedly repeating experiments to investigate the role of the concentration gradient of the active finely dispersed fuel-air mixture when it ignites with the development of subsequent detonation and conditions for the transfer of detonation inside the explosion-proof explosion chamber;

- the ability to determine the minimum detonation initiation energy of an active finely dispersed fuel-air mixture by varying this energy during repeated experiments.

The essence of the invention - the method consists in the fact that in the method of studying the conditions of ignition of powder charges of an explosive fuel-air mixture when it is detonated, including the preparation of an active finely dispersed fuel-air mixture in a plasma electrochemical generator, feeding it into an explosion-proof blast chamber, which allows recording the ignition process of an active fuel-air mixture with its subsequent detonation and ignition of the powder charge with the registration of this process, according to the utility model and active fuel-air mixture in the explosion-proof blasting the bolt through the central channel adding the mixture under the action of excess pressure being developed by an air compressor, a supply plazmoelektrohimichesky generator. By changing the operating mode of the plasma-electrochemical generator, the detonation of the prepared mixture is excited and the detonation ability of the medium and the ignition of the powder charge placed in the chamber are judged by the data obtained.

The inventive device consists in that the device contains an explosion-proof blasting chamber with inspection windows connected to the inlet of the active fuel-air mixture by a plasma-electrochemical generator, an overpressure relief unit that arose during the explosion of the mixture, the exhaust of detonation products, a flammable powder charge and registration equipment, according to a utility model, it is equipped with a plasma-electrochemical generator as a source of ignition and detonation with its control system to irovke air-fuel mixture supplied power and the power set by the powder charge inside the chambers flameproof detonation.

The presence of the claimed inventions features that distinguish them from the prototype, allows us to conclude that their condition of "novelty."

An additional search did not reveal objects of technology that have a similar purpose to the claimed invention and contain features that distinguish it from the prototype. On this basis, we can conclude that the claimed invention meets the condition of "inventive step".

The claimed invention is illustrated in the drawing.

The drawing shows a side view of a device for studying the conditions of ignition of powder charges of an explosive fuel-air mixture when it is detonated.

The device contains an explosion-proof blast chamber 1 in the form of a pipe, equipped with viewing windows 12, a plasma-electrochemical generator 2 installed in front of the explosion-proof blast chamber 1, which is hermetically connected to the chamber 1, the plasma-electrochemical generator 2 is connected to the metering unit for active fuel-air mixture 6 and the electric power control unit 7, the overpressure relief unit that arose during the explosion of the mixture 3, installed in the back of the explosion-proof explosion chamber 1, I have tightly connected to the chamber 1, the exhaust of detonation products 4, fed from an external ventilation system, a flammable powder charge 5, installed inside the explosion-proof blasting chamber 1. In the explosion-proof blasting chamber 1, sensors for determining instantaneous temperature 11 are hermetically sealed, opposite the viewing windows 12 are placed light sensors for detecting flash 8. Sensors for determining instantaneous temperature 11 are connected to temperature measuring equipment 9, sensors for determining flash 8 are connected to pparaturoy metering flares 10. Control unit dosage of active fuel-air mixture 6, the electric power control unit 7, the measurement apparatus 10 flashes, the temperature measuring apparatus 9 are connected to the PC 13.

In addition, high-speed cinema equipment (not shown) was used to record the front of detonation propagation.

The method is implemented as follows.

An active finely dispersed fuel-air mixture, trained in a plasma-electrochemical generator 2, is fed into the explosion-proof blast chamber 1 under the action of overpressure forces. This fuel-air mixture is dosed by the commands of the dosing control unit of the active fuel-air mixture 6 and the electric energy control unit 7. When filling of the internal volume of the explosion-proof blast chamber 1 with an inflammable powder charge 5 installed in it with an active fuel-air mixture on command from the control unit of electric energy 7, the operating mode of the plasma-electrochemical generator 2 changes, which ignites the fuel-air mixture, resulting in detonation of the entire volume of the fuel-air mixture and ignition of the powder charge 5. Sensors for determining instantaneous temperature values 11 and light sensors for detecting flashes 8 register values, arising from the ignition and detonation of controlled parameters, and through the temperature measuring equipment 9 and flash measuring equipment 10 transmit the values to the PC 13, with Yerzhan multi-channel analog-to-digital converters. The detonation products of the burnt powder charge are removed through the overpressure discharge unit that arose when the mixture 3 was detonated and pulled by a hood 4 into the ventilation system.

In part of the experiments, high-speed filming of physical phenomena was conducted through viewing windows 12 located on the side of the explosion-proof explosion chamber 1.

By changing the initial data of the concentration of the fuel-air mixture, the power of the plasma-electrochemical generator 2, the possibility of ignition of the fuel-air mixture with its subsequent detonation was studied to ignite the powder charge, arbitrarily placed inside the explosion-proof explosion chamber, the necessary conditions were determined to initiate the initiation of the process. The composition of the fuel-air mixture and the power modes of the plasma-electrochemical generator were determined, at which its maximum detonation ability was ensured.

Claims (2)

1. A method for studying the conditions of ignition of powder charges of an explosive air-fuel mixture when it is blown up, including preparing the medium in the form of combustible gas and an oxidizing agent and registering a process, characterized in that a fuel-air mixture consisting of combustible gas and an oxidizer is fed into the explosion-proof blast chamber, and the preparation has been completed in a plasma-chemical generator, and the initiator of ignition and detonation of the prepared air-fuel mixture is the process of changing the operating mode of the plasma-chemical generator an ora, involving a change in the initial concentrations of the air-fuel mixture, and due to ignition of the mixture and subsequent detonation, a powder charge is ignited located inside the explosion-proof blast chamber, which is capable of recording the ignition of the powder charge, while determining the composition of the mixture and the operating mode of the generator, ensuring maximum detonation ability. 2. A device for studying the conditions of ignition of powder charges of an explosive air-fuel mixture when it is detonated, containing recording equipment, characterized in that the explosion-proof explosion chamber is equipped with inspection windows, an active fuel-air mixture inlet unit with a plasma-chemical generator designed for preparing a fuel-air generator is connected to the chamber on one side. mixture, on the other hand, is a unit for relieving excess pressure that occurs when the mixture is detonated, equipped with an extract of children's products ation, the hardened blasting chamber is configured to process registration ignition powder charge, and the device is provided with a control unit-dose active fuel mixture and electric power control unit, supplied to the plasmachemical generator.