RU2050947C1 - Gas cleaning apparatus - Google Patents

Abstract

FIELD: cleaning gases. SUBSTANCE: deflector 4 is mounted in gas duct 3. Ring pipe line 5 with nozzles 6 and 7 arranged in two sets is positioned at the bottom part of the deflector. One set of nozzles 7 is inclined to the vertical axis at 60-80° and points to the top end of the gas duct. The other set is inclined to the horizontal axis at 10-20° and faces the housing wall. The nozzles pointing to the center enclose the outlet of the contaminated gas. The gas is then returned to the housing outlet and enters the condensation chamber wherein it is cooled by the condenser. Exhaust pipe 15 is mounted at the top end of condensation chamber. Heat exchanger 16 for drying wet air is positioned at the bottom part of the condensation chamber. Branch pipe 17 for draining condensate is connected opposite the exhaust pipe. EFFECT: enhanced efficiency. 4 cl, 1 dwg

Description

 The invention relates to a device for cleaning gas and neutralizing it from toxic substances and can find wide application, for example, in chemical, oil refining and other industries.

A device for gas purification, including a housing with inlet and outlet nozzles, an irrigation manifold with nozzles mounted on it, located at right angles to the upward flow of gases [1]
The disadvantage of this device is the low cleaning efficiency.

Closest to the invention is a dust and gas cleaning installation comprising a housing, an annular pipe for distributing liquid, a supply gas pipe, an exhaust pipe, a condensate drain pipe, a condensation chamber with a condenser in the form of a set of tubular sections, a heat exchanger, a coolant supply manifold and a liquid collector [2 ]
The disadvantages of this installation are the low efficiency of gas purification, as well as the low capacity of the condenser due to the delay in it of coolant, which leads to its rapid heating in the coil. It should also be noted the insufficiently efficient operation of the heat exchanger installed in the condensation chamber, which inhibits the action of the condenser by its heating.

 The technical result of the invention is an increase in the efficiency of gas purification and condensation.

The technical result is achieved by the fact that the inlet gas pipeline is deepened into the housing to its upper part and is equipped with a reflector mounted above the gas pipeline and made in the form of a straight truncated cone with a muffled upper end, while an annular pipeline is installed along the lower edge of the reflector, to the lower part of which nozzles are fixed in two rows, of which one row of nozzles at an angle of 60-80 ^{about the} vertical axis is directed to the end of the outlet gas pipeline, and the other at an angle of 10-20 ^{about the} horizontal axis to c body enclosure.

 The condenser is made in the form of a set of tubular sections, forming a system of upper and lower pipelines, rows located along the condensation chamber, plugged from opposite ends in each pair, while the other ends of the pipelines of each pair are connected to the fluid supply and collection manifolds, respectively, and each row of pipelines interconnected by vertical pipes, the heat exchanger is installed in the lower part of the exhaust pipe, the exhaust pipe at the upper end of the condensation chamber, the condensate drain pipe opposite the exhaust Noah pipe.

 The drawing shows a dust and gas cleaning installation.

The dust and gas cleaning installation comprises a housing 1, an inspection hatch 2, a gas supply pipe 3, above the outlet of which a reflector 4 is installed in the form of a straight truncated cone with a damped upper end, an annular pipe 5 located in the lower part of the reflector. On the pipe 5, nozzles 6 and 7 are fixed in two rows, of which one row of nozzles 7 at an angle of 60-80 ^{about the} vertical axis is directed to the end of the outlet gas pipeline, and the other at an angle of 10-20 ^about relative to the horizontal axis at the wall of the body, the underwater pipeline 8, a condensation chamber 9 with a condenser made in the form of a set of tubular sections forming a system of upper 10 and lower 11 pipelines, arranged in rows in pairs along the condensation chamber, with each row of pipelines interconnected by vertical pipes 12, moreover, some ends of the upper and lower pipelines from the opposite side of the corresponding row are plugged, while others are connected to the collector 13 for supplying coolant and to the collector 14 for collection, an exhaust pipe 15, in the lower part of which a heat exchanger 16 is located. At the bottom of the condensation chamber 9 opposite the exhaust pipe 15 a nozzle 17 for draining the condensate into an appropriate collector (not shown), a valve 18 is designed to remove sludge and excessive water intake, the level of which depends on the conditions under which the installation will operate.

 If, for example, the installation operates in high temperature mode, then the water level can reach and be held up to 3/4 of the vertical part of the gas pipeline, which protects the gas pipeline from overheating and premature failure of the gas pipeline and allows enhancing gas purification, since in addition to gas spraying with nozzles it can hit the surface of the water, and then return to the exit.

 Installation works as follows.

 Contaminated gas is supplied to the gas pipeline 3, which, when exiting, hits the reflector 4 and is braked and directed in the opposite direction to the bottom of the housing 1, falling into a ringed circle of water jets leaving nozzles of nozzles 7 directed to the upper outlet edge of the gas pipeline 3, and then exiting from the casing, washed by jets of water leaving nozzles of nozzles 6 directed to the wall of casing 1, after which the gases enter the condensation chamber, condense and are discharged through the heat exchanger and exhaust pipe 15 into the atmosphere.

 Capacitor 9 works as follows.

 Coolant is supplied to the manifold 13, which, filling the pipelines 10, enters the pipelines 11 through the pipelines 12 and is discharged through a collecting manifold 14 to a suitable reservoir (not shown) for secondary use.

 Condensate settles in the lower part of the chamber 9 and is discharged through a nozzle 17 to the corresponding tank, where the sludge is also discharged from the housing 1 through the valve 18, the sludge where water is sedimented and used again.

The invention allows, due to the installed reflector and located under it in two rows of nozzles, mounted on the lower part of the annular pipeline, at an angle of 60-80 ^about and 10-20 ^{about the} respective vertical and horizontal axes, to increase the cleaning of gas from dust and neutralize harmful substances.

 The invention also allows to increase the efficiency of condensation due to the condenser, made in the form of a set of tubular sections and an installed heat exchanger in the lower part of the exhaust pipe.

Claims (4)

1. DUST AND GAS CLEANING SYSTEM, comprising a housing, an annular pipe for distributing liquid, a gas supply pipe, a chimney, a condensate drain pipe, a condensation chamber with a condenser in the form of a set of tubular sections, a heat exchanger, a coolant supply manifold and a liquid collector, characterized in that it is equipped with a reflector in the form of a straight truncated cone with a damped upper end mounted above the inlet gas pipeline, recessed inward, to the upper part of the housing, an annular pipe the wire is located on the lower edge of the reflector and is equipped with nozzles attached to its lower part in two rows, with one row of nozzles at an angle of 60 80 ^o relative to the vertical axis oriented to the upper edge of the gas pipeline, and the other row of nozzles at an angle of 10 20 ^o relative to the horizontal axis to the wall of the housing.  2. Installation according to claim 1, characterized in that the condenser has a system of upper and lower pipelines, arranged in pairs in rows along the condensation chamber and plugged from opposite ends in each pair, while the other ends of the pipelines of each pair are connected to the coolant supply manifold and collector liquid collection, respectively, and the pipelines of each pair in each row are interconnected by condenser pipes oriented vertically.  3. Installation according to claim 1, characterized in that the exhaust pipe is located on the upper end of the condensation chamber, and the pipe for draining the condensate opposite the exhaust pipe.  4. Installation according to claim 1, characterized in that the heat exchanger is installed in the lower part of the exhaust pipe.