SU1492256A1 - Device for determining temperature of self-ignition in dynamic mode - Google Patents

Abstract

The invention relates to physics of combustion and explosion, namely, devices for determining the fire and explosion hazard by measuring the auto-ignition temperatures of a reactive medium in a dynamic mode. The purpose of the invention is to increase the reliability and expand the range of detectable temperatures — by equipping the device consisting of a tubular reactor with a cylindrical insert, moving along the axis of the reactor allows adjusting the residence time of the medium in the reactor, the speed of which remains constant. 2 hp f-ly, 1 ill.

Description

The invention relates to the field of fire and explosion hazard determination and can be used in the chemical and oil and gas processing industry.

The aim of the invention is to increase the reliability and the widening of the range of detectable temperatures.

The drawing shows a diagram of a device for determining the self-reproducing temperature of a dynamic mode.

The device consists of a tubular reactor 1 with an electric heating element 2. In the reactor, a cylindrical insert 3 is mounted coaxially with it to be axially movable (limited reaction zone

4, In the insert, coolant 5 can circulate, and the insert itself forms a gap 6 with the reactor wall. The insert can have an ignition sensor 7 connected to the 8 ”registration system, the device is equipped with flow meters 9 and shut-off valve. ten.

The device works as follows.

By moving the insert 3 along the reactor I, a predetermined value of the length of the reaction zone 4 is established, the ratio of which to the flow rate determines the residence time of the medium and, accordingly, the induction period. Regulator 1 is heated to a predetermined rate.

ture, then it serves a stream of the medium at a given speed. Then, the temperature of the walls of the reactor 1 is slowly and smoothly increased to the value at which the medium ignites, which is detected by means of a sensor, which can also be located on the insert.

The test medium is formed by mixing the components in the supply lines. The flow rate of the medium components is measured using flow meters 9 (for example, rotameters) and is regulated by means of shut-off and control valves 10 (for example, fine-tuning needle valves). The cost ratio of the components determines the composition of the test medium. A bypass line is used to control the flow rate without changing the composition of the mixture. The flow rate is defined as the ratio of the working flow rate of the medium (the difference between the sum of the flow components and the flow rate of the bypass line to: the cross-sectional area of the reaction zone of the device.

After ignition set using insert 3 new value

the length of the reaction zone A and carried out

next experience.

Claims (3)

1. A device for determining the auto-ignition temperature in a dynamic mode, consisting of a heated tubular reactor, systems for measuring and controlling the temperature of the walls of the reactor, the flow rate of the medium under investigation, and a recording system with ignition sensors, with the aim of increasing the reliability and extending the determined temperatures, it contains a cylindrical insert located coaxially with the reactor with the possibility of moving along the axis of the reactor and forming an annular with the walls of the reactor Azor. 2. A device according to claim 1, characterized in that the cylindrical insert is made in the form of a heat exchange element with a circulating refrigerant. 3. A device according to claim 1, characterized in that the sensors for reflow are mounted on a cylindrical insert. bsod test environment