SU1453124A1 - Installation for determining diameter of damping and normal rate of flame propagation - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to increase the reliability of an installation. The installation includes a tank 1 with gas and an air source 8 connected to a mixer 7, made in the form of a vortex chamber with an axial outlet of the gas-air mixture, an axial inlet of the Y-air and a tangential inlet of gas. The mixer 7 is connected via a buffer tank 23, equipped with a gas analyzer 24, and a flow meter 26 with a measuring cone 31, equipped with two electric heaters 32 and 33 with separate sources 46, 47, one of which is installed before entering the cone 31, and the second is in the form of a cylinder 33, sweeping the cone 31 and fitted with observation windows. The cone 31 is made of heat-resistant glass and is equipped with a temperature sensor 39 installed at its entrance, and a temperature sensor 40 mounted in case 31. Such an installation allows the flame front to be stabilized by the flame propagation by temperature and speed control prevent its penetration to the input of the cone 31, which increases the reliability of the entire installation. 2 ZoPo f-ly, 5 ill. 2829 .fL JSJJiff f3 4g Q (L ate 00 to 4; yy

Description

The invention relates to a measurement technique for determining quenching diameters and normal propagation speeds of a gas / air mixture.

The purpose of the invention is to increase reliability,

; Figure 1 shows an installation diagram for determining the diameter of the quench and the normal flame propagation rate; figure 2 - mixer, General view; on fig.Z - section aa in figure 2; FIG 4 is a flesh-jacket and a heater for preheating the gas-air mixture, general view; FIG. O5 is a section BB in FIG.

The apparatus for determining the quenching diameter and the normal flame propagation rate (Fig. 1) contains a gas tank 1 connected to pressure regulator 2, in series, a needle valve 3, a gas meter 4, races. the flow meter 5, the service for determining the instantaneous gas flow rate, the U-shaped pressure gauge 6 and the mixer 7, the air Source 8 is connected to the mixer 7 by an air duct on which needle valve 9 is installed, a gas meter 1U, a flow meter 11, and an image pressure gauge 12o And the duct 13 is brought to the mixer 7 tangentially.

The mixer 7 (FIG. 2) is made in the form of a vortex chamber and contains a nozzle 14 for gas supply, a gas nozzle 15, a nozzle 16 for air supply, a cylindrical mixing chamber 17 with a metal grid 18 located coaxially with it, which contributes to the turbulence of the air flow and crushing separate streams, thereby increasing the area of contact between the streams and the quality of the mix. In addition, the mixer contains a diffuser IV, in which the gas is further mixed with air, a camera 20 that transforms velocities and concentrations along the cross section of the flow, an output confusor 21 and a port 22 for the output of the gas-air mixture.

The mixer is connected to the measuring cone via a buffer tank 23, equipped with a gas analyzer 24 and a temperature sensor 25. Buffer

Q 5

0 5 Q

five

0

the tank serves to smooth the aerodynamic imbalance in the system during sampling into the gas analyzer.

The gas analyzer serves to refine the composition of the gas-air mixture leaving after the mixer. In addition, a flow meter 26 is installed on the gas / air mixture piping linking the buffer tank to the measuring cone. The flow meter 26 is used to measure the instantaneous flow of the gas / air mixture, the needle valve 27 is used to control the flow rate of the air / gas mixture entering the measuring cone, the flame arrester 28, which serves to prevent flame breakthrough. In order to measure the pressure of the gas-air mixture, a U-gauge 30 is installed in the pipe 29.

The measuring cone 31 is made of heat-resistant quartz glass, the inner diameter of which is tared in millimeters along the entire length.

An additional electric heater 32 is installed in front of the measuring cone. It serves to preheat the pipeline section adjacent to the cone. Preheating is provided to reduce the temperature gradient between the temperature of the gas-air mixture to the measuring cone and in the cone itself, and consequently, reduce the gas-air mixture mileage to reaching the temperature of the mixture of the temperature of the measuring cone wall

The measuring cone is heated by an electric heater 33. The designs of the electric heaters 32 and 33 are identical.

The electric heater 33 (FIG. 4) consists of two semi-cylinders 34 and 35. Each of the semi-cylinders consists of a metal casing 36, a ceramic nozzle 37, in the slots of which a heating element 38 is laid.

The measuring cone 31 is located about one meter, relative to the electric heater 33 and the additional electric heater 32 “

To monitor the temperature of the pipe wall adjacent to the measuring cone, and the temperature of the wall of the measuring cone itself, two thermocouples 39 and 40 are installed, respectively. Thermocouples mounted on a recorder with a recorder

41 (figure 1).

The semicylinders of which the electric heater 33 consists are diluted with the aim of installing two viewing windows

42 and 43, made of heat-resistant glass and installed diametrically opposed to each other. Window

42 serves to visually observe the position of the flame front in the measuring cone. Window 43 serves to reduce the effects of radiation from hot heaters and ceramic

for determining the volumetric flow rate of the gas, the flow meter 5, tared at a certain flow rate and used to determine the instantaneous flow rate of gas. To measure the pressure in the gas line, a U-gauge 6 is installed. Next, the gas enters the mixer 7. Gas from the source 8 passes the needle valve 9, the gas meter 10 to measure the volume flow of air, the flow meter 11, and the service meter

nozzles for determining the diameter gagay-15 instantaneous air flow. Pressure and normal flame speed. To obtain a greater contrast of the image of the flame front in the measuring cone behind the window 43, a screen with a black surface (not shown) is installed.

Along the entire length of the electron REFTEL 33 two metal dimensional diametrically opposed

The air duct is measured using an i-shaped manometer. Further, the air through the duct 13 enters the mixer 7, and for a more qualitative displacement of air, the air is supplied tangentially.

In the mixer 7, there is a qualitative mixing of the gas-air mixture and then the mixture enters the buffer

ribbons 44 and 45 (fig. 3), which serve 25 as capacitance 23, which serves and even to determine the position of the aerodynamic unbalance direction of the men with respect to the measuring cone. The presence of two measuring tapes is necessary to eliminate the influence of the angle

thirty

a view of the diameter of the pile and the normal speed of the flame.

The temperature control in the additional electric heater 32 and in the electric heater 33 is carried out using two autotransformers 46 and 47, respectively (Fig. 1). In addition, a switch 48 and an ammeter 49 are turned on in the electric circuit of the additional electric heater 32. The operation of the electric heater 33 is controlled by the indicator lamp 50, ammeter 51, voltmeter 52 and switch 53 included in the electric circuit. The gas-air mixture is ignited using an electric helix 54, located at the bottom of the measuring cone 31. The helix of the helix is controlled by the transformer 55.

When determining the diameter of the slaking installation works as follows.

The gas from the tank 1 is reduced by means of the pressure regulator 2 and the needle valve 3, which serves to regulate the gas flow, passes in series. The gas meter .435

40

45

50

55

in the system, when sampling the gas analyzer 24 o The latter serves to clarify the composition of the gas-air mixture leaving the mixer. The temperature of the gas / air mixture is measured using a temperature sensor 25. From the buffer tank 23, the specified composition of the gas-air mixture passes through the flow meter 26, which is used to determine the instantaneous flow rate of the gas-air mixture, the needle valve 27, which serves to control the flow rate of the gas-air mixture, the flame arrestor 28, which prevents the flame breakthrough and through the pipe 29 enters into the measuring cone 31, pre-heated in the additional heater 32. The pressure of the gas-air mixture in the pipe 29 is measured using an i-shaped pressure gauge 30.

The electric heater 33 provides heating of the gas-air mixture in the measuring cone 31 to a predetermined temperature. Temperature adjustment and control of the operation of the additional electric heater 32 is carried out using an autotransformer 46, a switch 48, an ammeter 49.

The temperature in the electric heater 33 is regulated by means of an autotransformer 47. In addition, 4531244 is connected to its electrical circuit.

for determining the volumetric flow rate of the gas, the flow meter 5, tared at a certain flow rate and used to determine the instantaneous flow rate of gas. To measure the pressure in the gas line, a U-gauge 6 is installed. Next, the gas enters the mixer 7. Gas from the source 8 passes the needle valve 9, the gas meter 10 to measure the volume flow of air, the flow meter 11, and the service meter

-15 instantaneous air flow. The duct pressure is measured with an i-shaped manometer. Further, the air through the duct 13 enters the mixer 7, and for a more qualitative displacement the air is supplied tangentially.

In the mixer 7, there is a qualitative mixing of the gas-air mixture and then the mixture enters the buffer

25 capacity 23, which serves as a smoothing and aerodynamic imbalance

25 capacity 23, which serves as a smoothing and aerodynamic imbalance

0

five

0

five

0

five

in the system, when sampling the gas analyzer 24 o The latter serves to clarify the composition of the gas-air mixture leaving the mixer. The temperature of the gas / air mixture is measured using a temperature sensor 25. From the buffer tank 23, the specified composition of the gas-air mixture passes through the flow meter 26, which is used to determine the instantaneous flow rate of the gas-air mixture, the needle valve 27, which serves to control the flow rate of the gas-air mixture, the flame arrestor 28, which prevents the flame breakthrough and through the pipe 29 enters into the measuring cone 31, pre-heated in the additional heater 32. The pressure of the gas-air mixture in the pipe 29 is measured using an i-shaped pressure gauge 30.

The electric heater 33 provides heating of the gas-air mixture in the measuring cone 31 to a predetermined temperature. Temperature adjustment and control of the operation of the additional electric heater 32 is carried out using an autotransformer 46, a switch 48, an ammeter 49.

The temperature in the electric heater 33 is regulated by means of an autotransformer 47. In addition, an electrical circuit is included in its electrical circuit

The indicator lamp 50, ampere meter 51, voltmeter 52 and switch 53, which control the operation of the electric heater 33, are used. After filling the measuring cone with an air-gas mixture of a certain composition, it is ignited at the bottom of the measuring cone using an electrofusion 54, | the heat of which is regulated by means of a transformer 55. After igniting the mixture, stabilize the flame front and then reduce the flow rate of the gas-air mixture entering the measuring cone using a needle valve 27, bringing the front of the flame to quenching. Thus, a pre-section is determined, where the fire extinguished. After that, the measuring cone is again filled with the gas-air mixture, ignited and stabilized the flame front at a distance of approximately 10 mm from the previous section. the experience occurred quenching rlamenia. Then smoothly reduce the spread of the gas-air mixture by means of the Needle Valve 27, up to; flakes of flames in a certain northeast. This section is fixed on a measuring tape 44. It is critical for a given composition of the gas-air mixture. The diameter of the cross section obtained is the required diameter: Gashéne.

When determining the normal flame propagation, the apparatus works as follows: To determine the normal speed of flame propagation, the installation works in a similar way to the specified method until the mixture in the measuring cone.31 is ignited using an electrospiral 54. Then, the front of the flame is stabilized in any section of the cone. the position of the flame front on the measuring tape 44. If the flame front is stationary, then the rate of propagation of gshameni U is balanced by the speed of the incident flow of gas-air Wg mixtures, i.e. and WL W C o The flow rate of the gas-air mixture is measured using a flow meter 26.

It is known that in the case of a laminar flow of a gas-air mixture in a pipe, a parabolic distribution of velocities over the cross section is established.

pipes. A mixture in such a flame ignites on the flow axis, where the normal speed of the flame spreads. In this case, the speed on the cone axis is equal to the maximum speed:

2 G cm

 Td

 four

W

Was W max 8 G Egl

d

where Woe is the flow velocity along the axis, m / s;

W, “Kc maximum flow velocity, m / s;

W.cp average flow rate, m / s;

Srl gas-air mixture consumption,

d is the diameter of the section in which the flame front is stabilized, m.

Thus, knowing the flow rate of the oncoming gas-blowing mixture, the diameter of the cross section in which the flame front is stabilized, and the velocity distribution over the cross section of the flow, one can calculate the flame propagation velocity.

, flow:

Ups wcp

8 G cm

fd

Claims (3)

Invention Formula 1 o A device for determining the quenching diameter and the normal speed of flame propagation, containing a gas tank and an air source connected to the mixer, a measuring cone equipped with a temperature sensor, which in order to increase and reliability, it also contains a buffer tank equipped with a gas analyzer and connected to the mixer output, a flow meter connected to a buffer tank and a measuring KdHycoM, and two electric heaters with separate power sources, one of which is installed before entering the measuring cone and the other is in the form of a cylinder covering the measuring cone and is provided with inspection windows, formed in the mixer yide vortex chamber with an axial outlet-gas mixture, axial gas inlet and tangential air inlet. 2, Installation according to claim, 1, I differ from the fact that the temperature sensor is mounted in the measuring cone. 1453124.8 3. Installation pop. 1, characterized in that it is equipped with a second temperature sensor mounted at the entrance to the measuring cone. nineteen f ; 7- .2 Bxod) (c, .d The input is 9 ° C (the Noah mixture , 39 JZ i 33 thirty g 57f14gL thirty 35