SU1513314A2 - Device for thermal neutralizing of waste water - Google Patents

Abstract

The invention relates to liquid waste incinerators, can be used in chemical, microbiological, medical and other industries where fatty wastes containing organic and mineral impurities are formed, as well as in power engineering as a furnace for steam generators. The purpose of the invention is to increase the degree of trapping mineral non-combustible impurities. The device consists of horizontal vortex cylindrical chambers 1 connected along the entire length of forming with a vertical channel 2. In the lower part of the channel on its side walls there are devices 7 for feeding mineral impurities. The axes of the devices 7 for feeding mineral impurities are directed one towards the other at the intersection point of the vertical axis of the channel and the horizontal axis of the chambers. The degree of trapping of mineral impurities is increased by improving the aerodynamics of the vortex motion. 1 hp f-ly, 1 ill.

Description

m

The invention relates to liquid waste incinerators, can be used in chemical, microbiological, medical and other industries where liquid waste is generated containing combustible fractions and non-combustible mineral impurities, as well as in the power industry as a furnace for steam generators and properties. Secondary air supply.

20

25

improvement of the invention on the main author. St. No. 1132111.

The purpose of the invention is to increase the degree of trapping mineral non-combustible impurities.

The drawing shows a device for the thermal disposal of wastewater.

The device contains horizontal vortex cylindrical chambers 1. The chambers are connected along the entire length of the generators with a vertical channel 2 of straight horizontal section. An anti-jet head 3 with nozzles 4 for supplying an air-fuel mixture and nozzles 5 for supplying waste water is connected to the upper part of the channel. On the end surfaces of the vortex cylindrical chambers 1, axial inserts 6 are located for exhausting flue gases. In the lower 30 part of the channel 2, on its side walls, devices 7 are installed for feeding mineral impurities, the axes of which are directed toward each other at the intersection point of the vertical axis of the channel C5 and the horizontal axis of the chambers. Devices for supplying mineral impurities are placed at the ends of the vortex cylindrical chambers 1 on the side opposite to the axial inserts 6 for output-40 and gases. On the side surfaces of the chambers at the ends, from the side of the axial inserts 6, there are slit holes 8 and bunkers 9 for removing ash from the chambers.

A device for the thermal disposal of wastewater containing organic and mineral impurities, works as follows.

Wastewater is pretreated in separation devices with a separation into two streams: the base is the drain containing organic impurities and the drain containing mineral 45

50

through the nozzles 7 is minimal (no more than 10%), since air does not require air to dry the drain containing mineral impurities, and the proportion of organic impurities in the drain is small. Combustion products of fuel and combustible components of the main drain together with the mineralized drain enter horizontal cylindrical vortex chambers 1, where thermal treatment of wastewater takes place (heat treatment of mineral impurities, evaporation of water and oxidation of a small part of organic impurities that remained unseparated in the mineralized drain) mainly due to the heat introduced into the vortex zone from the zone of neutralization of the main drain and separation of ash on the lateral surfaces of cylindrical shells. Pressed to the side surfaces of the shells of the ash is requested through the slit holes 8 in the bins 9 to remove it from the chambers. Ash-free products are removed from the chambers through axial inserts 6.

The degree of trapping of mineral impurities is increased due to the improved aerodynamics of the vortex motion. Since the axes of the devices for supplying mineral impurities converge at the intersection of the vertical axis of the channel and the horizontal axis of the chambers, the mineralized flow is introduced into the vortex zone with a maximum radius, i.e. almost in the center of the vertical channel. Solid ash particles pass the shortest way before encountering the shell of a solid chamber. Consequently, due to the concentrated input of solid particles at one point on the line of intersection of the vertical axis of the channel and the horizontal axis of the chambers, the possibility of ejection of the insert hour is reduced.

impurities. Wastewater containing particles through axial combustible components is fed through nozzles 5 and fuel-air mixture through nozzles 4 into the counter-jet head 3 and further into the vertical channel 2. Into the impurities captured, aerodynamics vortex as axes of devices for vertical impurities of vertical horizontal axis to the flow in the zone with a maximum almost along the center of the channel. Solid gold from the shortest side of the shell. Therefore, by inserting a solid cable on the line crossing the axis of the channel and the horizon is reduced, it is possible

The deviation from the offer of the axes of the device impurities in the vertical axis of the can

The fuel burns and thermally neutralizes the main drain (evaporation of water and oxidation of organic impurities, as well as heat treatment of a small part of mineral impurities that remain unseparated in the main drain). Mineralized drain is fed through the mouth

0

five

five

0 5 0

five

0

 axial through axial

through the nozzles 7 is minimal (no more than 10%), since air does not require air to dry the drain containing mineral impurities, and the proportion of organic impurities in the drain is small. Combustion products of fuel and combustible components of the main drain together with the mineralized drain enter horizontal cylindrical vortex chambers 1, where thermal treatment of wastewater takes place (heat treatment of mineral impurities, evaporation of water and oxidation of a small part of organic impurities that remained unseparated in the mineralized drain) mainly due to the heat introduced into the vortex zone from the zone of neutralization of the main drain and separation of ash on the lateral surfaces of cylindrical shells. Pressed to the side surfaces of the shells, ash is requested through the slit holes 8 into the bins 9 for removal from the chambers. The ash-free products of combustion are removed from the chambers through axial inserts 6.

The degree of trapping of mineral impurities is increased due to the improved aerodynamics of the vortex motion. Since the axes of the devices for supplying mineral impurities converge at the intersection of the vertical axis of the channel and the horizontal axis of the chambers, the mineralized flow is introduced into the vortex zone with a maximum radius, i.e. almost in the center of the vertical channel. Solid ash particles travel the shortest way before meeting the shell of the solid chamber. Consequently, due to the concentrated input of solid particles at one point on the line of intersection of the vertical axis of the channel and the horizontal axis of the chambers, the possibility of an insertion hour decreases.

The deviation from the proposed arrangement of the axes of the devices for the supply of mineral impurities up and down along the vertical axis of the channel also increases; If the device axes intersect above the intersection point of the vertical axis of the channel and the horizontal axis of the chambers, the flow is processed in opposite jets, the particles are thrown to the side walls of the channel and introduced into the vortex zone with a smaller radius. If the axes of the devices intersect below the intersection point the vertical axis of the channel and the horizontal axis of the chambers, then the principle of tangential entry into the vortex chamber is violated, which also leads to an increase in pypeunos.

leads

No. 1132111, which is so that, in order to increase the degree of trapping mineral non-combustible impurities, it is equipped with additional devices for feeding mineral impurities installed in the lower part of the vertical channel on its side walls, and the axes of the devices for supplying mineral impurities are directed towards each other at the point of intersection of the vertical axis of the channel and the horizontal axis of the chambers.

2, The device according to claim 1, about t l and

Invention Formula

1. A device for the thermal disposal of sewage according to author.

15 that the devices for the supply of mineral impurities are located at the ends of the chambers on the side opposite to the axial inserts for the removal of gases.

20

Claims (2)

Claim 1. Device for thermal disposal of wastewater by ed.St. No. 1132111, with the proviso that, in order to increase the degree of capture of mineral non-combustible impurities, it is equipped with additional devices for supplying mineral • impurities installed in the lower part of the vertical channel on its side walls, moreover, the axis of the device for supplying mineral impurities are directed towards each other at the intersection of the vertical axis of the channel and the horizontal axis of the chambers. 2, The device according to claim 1, characterized in that the device for supplying mineral impurities are located at the ends of the chambers from the side opposite to the axial inserts for the discharge of gases.