SK315792A3 - Process for exhausting medium formed by a mixture of gas and air and apparatus for making the same - Google Patents

Description

METHOD OF EXHAUSTING THE ENVIRONMENT OF A GAS MIXTURE WITH AIR AND A DEVICE FOR CARRYING OUT THIS METHOD

Field of the invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the exhaustion of an environment consisting of a mixture of gas with air, liquid or solid particles contained in air or warm air, and an apparatus for carrying out this method.

It is the state of the art

In general, for exhaust systems, pollutants such as heat, suspended particulate matter, water vapor or various gas products are either fully or largely bound to the air as the wearer. It is clear from the foregoing that an effective device must, in conjunction with the exhausted environment, drain the corresponding amount of wearer, i. usually indoor air.

To date, passive exhaust devices are known for exhausting a mixture of gases and warm air, which can operate effectively only at a short distance from the exhaust organ and in an area with an average concentration of exhaust mixtures, thereby providing exhaust efficiency.

Furthermore, devices are known which, in addition to the usual passive suction, use a flat flow of external air to induce the suction mixtures. These devices use a slit along the entire length of the drain cover as the supply air of the external air stream. The resulting flat stream can induce the aspirated composition with a lower inductive surface, since a continuous flat stream does not pass the aspirated composition to the top of the cover.

Outside air is supplied to the cover space in a relatively large amount of 65 to 70% of the required ventilation air to be recirculated to the outside air after inducing only 30 to 35% of the exhaust mixture.

On the opposite side of the cover, drainage organs are again installed along its entire length, which are connected to the main drainage system.

In order to save heat, these devices use outdoor unheated air, and in winter the dew point temperature on the metal surface of the cover is below the surface, condensation of water vapor and thus dripping of the cover water.

Discharge bodies distributed over the entire length of the cover cannot respect the locally increased concentration of pollutants above their individual sources, and thus the exhaust efficiency is only given by the average concentration in the exhaust mixtures.

The functional efficiency of the device with inductive flat air flow can be characterized by so-called. a volume induction ratio of 1: 0.30 to 1: 0.35, which means that only 0.30 to 0.35 m ³ / h of the extracted secondary air can be induced per 1 m ³ / h of primary air mixture. It follows from the above that the exhaust mixtures bound to the internal air as the carrier are discharged poorly by the devices described.

The amount of slot air flow must be adjusted so that there is no turbulence in front of the drainage organs and that the drainage of the drainage organs is not exceeded and thus the passive suction function is not impaired.

These devices are characterized by high consumption of conveyed ventilation air, relatively high total pressures of supply and exhaust fans, said low efficiency in inducing exhaust mixtures, including the air carrier, and correspondingly high operating costs, in particular for electricity. To reduce heat consumption, heat exchangers are used to utilize heat in the exhaust air.

Also known are blow-off exhaust systems used in industrial baths, such as plating baths. These systems consist of longitudinal slots through which purge air is supplied. A continuous screen is thus created above the surface of the bath, which induces harmful substances on its underside. Only the lower surface area of the flat air stream is effective for the devices. The air curtain separates the surface of the bath from the working environment, thus preventing the escape of aggressive, explosive or harmful fumes into the environment. On the opposite side of the tank, the resulting total stream, including the fumes from the bath, is discharged by the longitudinal drain. Said device can be used practically only in the mentioned baths formed by angular tanks or tanks of simple geometric shapes.

SUMMARY OF THE INVENTION Enabling environment

The aforementioned drawbacks are eliminated by the method of aspirating a gas / air mixture, in particular liquid or solid particles contained in air or warm air according to the invention. It is based on the fact that the aspirated environment is treated with an injector jet emerging from at least one opening at a speed of 3 to 25 m / s, inducing a vacuum induction of the aspirated environment on the surface of the total current expanding in a cone shape with apex angle of 20-30 ° whereupon the total current, including the induced exhaust, is removed. By injection stream is meant a permanent primary medium / medium, which by its flow field sucks the ambient (usually harmful) environment, mixes with it and generates with it a total stream which is further transported to the effective proximity of the drainage organ. The volume amount of the total stream, including the aspirated environment, is 5 to 60 times greater than the volume amount of the injection stream. The volume amount of induced exhaust is directly proportional to the amount of injection stream and the amount of vacuum induced by the current and velocity fields of the total stream. The axis of the cone of the total flow, including the exhausted environment, is preferably perpendicular to the inlet plane of the drain. Preferably, inert and / or catalyst gas is also added to the injection stream. The amount of injection stream and the amount of exhaust environment are adapted or harmonized with each other. The implementation of this so-called. The harmonization allows to meet the requirement of a residual exhaust system without marginal turbulence at the drain, with a high exhaust efficiency, which allows to reduce the amount of ventilation air and thus to reduce energy losses and operating costs for electricity, heat and transport and heating the ventilation air.

The apparatus according to the invention is characterized in that it consists of at least one nozzle for the injection of an injection stream directed to the discharge body for the removal of the total current, including the exhausted environment, the inlet cross section of at least one discharge body corresponding to the resulting cross-section. the total current generated by all relevant injection currents. The injection jet nozzle with the respective discharge member is preferably located in the region of increased concentration of the exhausted mixtures / gases, suspended liquid or solid particles and / or warm air. The nozzle can be adjustable and lockable in any direction at a spatial angle of from 0 to 80 °.

The method according to the invention enables the induction ratio to be effected by the combined action of the injection stream and the withdrawing organ after harmonization between the injection stream amount and the amount withdrawn for the air stream reaches 450 to 2000 mm, thus providing an inductive volume ratio of 1: 5 to 1: 60. complete evacuation of exhaust environment. By volume induction ratio is meant the ratio of the amount of injection stream to the amount of induced exhaust at atmospheric pressure. Increased induction from the room with increased concentration in the exhausted environment results in a slight need for an impulse environment, which allows the use of indoor air or a small part of the ventilation air. Said complete evacuation of the evacuated environment at an increased concentration of the evacuated mixtures allows for an energy-efficient and efficient evacuation of usually pollutants from the working environment.

The device according to the invention makes it possible to induce even floating particles in the air and, depending on their nature or value, they can either be trapped or returned to the process. The device makes it possible to reduce the amount of ventilation air, to reduce electricity consumption and to reduce the cost of transporting the air and the heat to heat it, and thus the overall operating costs. The adjustability and lockability of the nozzles makes it possible to utilize the device according to the invention for the rising or falling tendencies of the exhausted environment and extends the overall usability of the device. The device according to the invention can also be used in plants where harmful or gaseous gases are generated by adding various or inert gases, such as catalyst explosive particles or environments, in harmless or subcritical amounts in space or air mixtures to the required pulse gases.

so that the air levels of the exhaust system are

The method and apparatus according to the invention allow the total flow, including the exhaust environment, to be completely discharged, consisting essentially of 94 to 97% of the exhaust environment and a residual amount of pulsed environment of 3 to 6%. From the foregoing, it is clear that the amount of injection stream is so small that it is also possible to use advantageously the air from the space or an unavoidable part of the ventilation air.

All the described embodiments of the device increase the safety and cleanliness of the working environment, reduce the consumption of usually several types of energy, while the saving of electric energy is considerable at the increased investment costs. The device is not only environmentally friendly, but also economically advantageous for the user and the investor.

BRIEF DESCRIPTION OF THE DRAWINGS

In FIG. 1 is a schematic front view of a device for evacuating a gas / air mixture according to the invention. In FIG. 2 is a diagrammatic elevational view of the principle of this apparatus with several nozzles in series and FIG. 3 is a plan view of the solution of FIG. Second

DETAILED DESCRIPTION OF THE INVENTION

Exemplary particular devices for exhausting an environment composed of a mixture of gas and air, in particular liquid or solid particles according to the invention, consist of one nozzle 1 for supplying the injection stream 6 directed to the discharge organ 2 for exhausting the total stream 10 including the exhaust environment 9. The nozzle 1 for the inlet of the injection stream 6 and the outlet member 2 are located in the region of the increased concentration of the exhaust mixtures. Nozzle 1 is adjustable and lockable in any direction at a spatial angle of 0 to 80 °.

In another particular embodiment, the device consists of a plurality of nozzles 1 and a plurality of suction bodies 2, the total inlet cross section of which corresponds to the transverse cross section of the resulting total stream 10 in the plane of the discharge body 2.

In both cases, the discharge device 11 is formed by a centrifugal fan 3, in front of which the filters 4 are placed.

The evacuation device 11 for exhausting the gas-air mixture consists of a collecting cover 5 located above the source 7 of the exhausted environment 9. The collecting cover 5 is formed by an exhausting organ 2, behind which a filter 4 and a fan 3 are located. 7 of the exhaust environment 9 placed its own nozzles 1 directed to the drainage body 2.

The injection stream 6 emerging from the nozzles 1 produces a conical total stream 10 by inducing the evacuation environment. An inductive zone 8 is formed on the surface of the conical total stream 10, in which the evacuation environment 9, after mixing with the injection stream 6, is led to a discharge member 2. the air is passed through the filters 4 and free of impurities eventually fed back to the working environment.

Industrial wuseability

The method of exhausting the gas / air mixture and the apparatus for carrying out the method according to the invention find particular application in the kitchen, restaurant, food, pharmaceutical, chemical and industrial plants.

Claims (7)

A method of aspirating an atmosphere formed by a mixture of gas and air, in particular liquid or solid particles, contained in air, characterized in that the aspirated environment is treated with an injector jet emerging from at least one aperture causing vacuum induction of the aspirated environment on the total stream surface; the cone-shaped expander having an apex angle of 20 to 30, whereupon the total current, including the induced evacuation medium thus generated, is drained, wherein the volume of induced evacuation medium is 5 to 60 times greater than the volume of the injected stream. Method according to claim 1, characterized in that the volume amount of the induced exhaust environment is directly proportional to the amount of injection stream and the amount of vacuum induced by the current and velocity fields of the total stream. Method according to claim 1 and / or 2, characterized in that the axis of the cone of the total current, including the exhausted environment, is perpendicular to the inlet plane of the drain. Method according to claim 1, 2 or 3, characterized in that inert and / or catalyst gas is added to the injection stream. Device for carrying out the method according to claim 1, characterized in that it comprises at least one nozzle (1) for supplying an injection stream (6) directed to a discharge member (2) for discharging the resulting total stream (10) including the exhaust environment (9). ), wherein the inlet cross-section of the at least one discharge member (2) corresponds to the resulting cross-section of the total flow (10) generated by the action of all the respective injection streams (6). Apparatus according to claim 5, characterized in that the nozzle (1) for supplying the injection stream (6) with the respective discharge member (2) is located in the region of an increased concentration of the exhaust mixtures / gases, floating liquid or solid particles and / or warm air. Device according to claim 5 and / or 6, characterized in that the nozzle (1) is adjustable and lockable in any direction at a spatial angle of 0 to 80 °.