SU1395337A1 - Set for preventing explosions of dust and air medium when transporting finely dispersed reagents - Google Patents

Abstract

The invention relates to the field of fire fighting equipment, in particular, to systems for the prevention of fires and explosions in unloading devices, pneumatic conveying and loading of finely dispersed reagents containing flammable dusts, and improves fire and explosion safety. To ensure fire and explosion safety, the valve 18 is shut off before starting the installation, leaving the flow valves on the hopper 6 and the hopper 20 closed. After that, with the help of the gas blower 29, air is started to be pumped in a closed loop while simultaneously replacing the air with nitrogen through a gas mixer 13. An excess of the gas mixture is then vented through the valve 18, equipped with a filter, to the atmosphere. Upon reaching the explosion-proof mixture, valve 18 closes and proceeds to unload the product from tank 23 into dispenser 20. Dispensing valve is then opened in it and the material first enters trunk 11 and then into the sedimentation chamber, where it accumulates and accumulates in the bunker 6 for further use in technological apparatuses. 1 il. (Oh (L

Description

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I The invention relates to fire-fighting equipment, in particular, to systems for preventing fires and explosions in devices for unloading, pneumaticsport and loading finely dispersed reagents with a content of combustible dusts.

The purpose of the invention is to increase fire and explosion safety.

The drawing shows the proposed installation.

generator 19, which depends on the fractional composition of the mixture. A gas blower 29 is used to pump the transported mixture.

The installation works as follows.

Before starting the installation, the air contained in it is cut off from communication with the external environment, closing the valve 18 and leaving the rotary valves located on the hopper mouths. The installation contains a settling chamber 20 and the bunker 6 closed. Air 1 for separation from transportable start to pump over the formed

| through the pipeline of a mixture of finely dispersed reagent, for example, powdered raw material for the production of activated carbon, hot coal or carbon catalyst. The precipitation chamber 1 has a safety explosion-proof membrane 2,: the output of which is brought to fire prevention; the injector 3. Chamber 1 is equipped with an inlet 4 for introducing the pneumatic mixture into it

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in the installation of a closed pneumatic circuit, passing it through the gas line 11 and the cavity of the settling chamber 1. Bleeding is carried out with the help of the gas blower 29. After air is drawn into the circulation, it is started, if necessary (if an explosive material is transported) with nitrogen pick up from ramp 17. Formed

: Outlet pipe 5 for withdrawing from it 20 This is an excess of the gas mixture in the pneumoagent and the collection 6 of the reagent. In addition, chamber 1 has fireproof barriers 7 and 8 mounted on inlet 4 and outlet 5 nozzles, reagent fire extinguishing agent 9 installed on collector 6, and sensor 10 for detecting fire.

The sedimentation chamber 1 is connected to the recirculation gas through pipes 4 and 5.

11 through the valve 18, equipped with a filter, is released into the atmosphere. This process is stopped after the gaseous medium in line 11 is diluted to the required explosion-proof concentration. After that, the valve 18 overlap. On the loading neck of the hopper 20 dispenser set removable capacity. The corresponding gate valves are opened and the product is loaded into the bunker line with connecting pipelines. A dispenser 20. Then, at the neck, it is opened with waters 11 and 12, connecting them to the locking valve and through the gas-powered pneumatic system. This system is equipped with a gas mixer 13 for saturating the pneumatic agent removed from the chamber 1 with nitrogen. The gas mixer 13 is equipped with a gas analyzer. The material enters the pipeline 11. The gas stream carries it into the settling chamber 1. There, the material is precipitated and accumulated in the bunker 6 for further use by the torus 14 to determine the percentage of co-use j in the process apparatus, holding nitrogen in the pneumatic agent. A portion of the material that is not deposited in the gas analyzer 14 is connected through the block 15 to the holding chamber 1, continues to move with an adjustable valve 16 for inert gaseous media and to catch nitrogen from the ramp 17. Also, during the precipitation with a new batch

The closed pneumatic system has a valve 18 for the material coming from the dust generator to discharge the excess pneumatic agent from the heating 40. Thus, a trans-dump line 11 occurs due to the removal of the material from the replaceable tank 23 with nitrogen during the start-up of the installation. Close-to tank 6 without any emissions to that pneumatic system is also equipped with a dust-free atmosphere.

the generator 19 for forming of the sub-advantages of the proposed reagent of the non-novelty to be shipped for transportation is the trouble-free operation of

Dust generator 19 is attached to reagent metering hopper 20. The latter has a throat 21 for alternately fitting to it portable hoists 22 rastarami removable containers 23, a safety QQ explosion-breaking membrane 24, the output of which is output to the fire suppressor 25, the means 26 to extinguish the fire of the reagent and the sensor 27 to detect fire. In addition, the hopper 20

the inertization of the dusty environment and the elimination of contamination of the working area with harmful substances through the use of a closed pneumatic system.

Claims (1)

Invention Formula An apparatus for preventing explosions of a dusty-air medium during transportation of finely dispersed reagents, containing containers for finely dispersed reagents, is equipped with a level gauge 28 for tracking 55 a collecting chamber with a collector, a gas blower, a filter, and crusher suppressors, so as to increase the fire explosion safety additionally by not dropping the thickness of the reagent layer below the level of guaranteed locking of the pneumatic agent from breaking it out of the dust generator 19, which depends on the fractional composition of the mixture. A gas blower 29 is used to pump the transported mixture. The installation works as follows. Before starting the installation, the air contained in it is cut off from communication with the external environment, shutting off valve 18 and leaving consumable rotary valves located on the hopper mouths-dose in the installation of a closed pneumatic circuit, passing it through the gas line 11 and the cavity of the settling chamber 1. Bleeding is carried out with the help of the gas blower 29. After air is drawn into the circulation, it is started, if necessary (if an explosive material is transported) with nitrogen pick up from ramp 17. Formed P this is the excess gas mixture in the master's 11 through the valve 18, equipped with a filter, is released into the atmosphere. This process is stopped after the gaseous medium in line 11 is diluted to the required explosion-proof concentration. After that, the valve 18 overlap. On the loading neck of the hopper 20 dispenser set removable capacity. The corresponding gate valves are opened and the product is loaded into the bunker 20. Then, the flow valve is opened on the neck and, through the gas and gas generator, the operation of the the inertization of the dusty environment and the elimination of contamination of the working area with harmful substances through the use of a closed pneumatic system. Invention Formula An apparatus for preventing dusty air explosions during the transportation of fine reagents, containing containers for fine reagents, Osaka, a filter and explosion suppressors, characterized in that, in order to increase the fire and explosion safety, it additionally 1395337 3 contains located under the capacity of the bun-of the inlet nozzles of which is connected to a core metering unit connected to the gas blower and an wasp by the lower part of the metering hopper, and with a pressure chamber, a gas mixer with a source with a gas blower, and an outlet nozzle inert gas and dust generator, one connected to the precipitation chamber.