DE9420276U1 - Exhaust air treatment device - Google Patents

Description

Device for treating exhaust air

The invention relates to a device for treating the exhaust air from spaces used by motor vehicles/in particular tunnels or garages, with the features in the preamble of the main claim.

In industrial plants, it is common practice to treat the exhaust air from production and machine rooms with a variety of cleaning devices, e.g. filters, to remove any contamination that may be carried along. In these cases, the cleaning effect is of primary importance, but the further use of the air after cleaning is less important. Heat treatment is not planned.

For the non-standard flue gas treatment of furnaces in power plants, waste incineration plants, etc., it is known from DE-C-29 00 275, for example, to pre-clean the hot flue gases in a dust separator, then cool them in a circulating regenerative heat exchanger and then send them through a gas scrubber and a gas mixer. Behind the gas mixer, a partial flow of the clean gas is branched off, returned to the regenerative heat exchanger, heated there with the waste heat from the flue gases and fed back into the gas mixer, where the cool clean gas coming from the gas scrubber is heated. DE-A-40 02 434 teaches a similar technique for denitrification and desulfurization of hot exhaust gases from furnaces.

Heat recovery systems are known for large-scale plants, e.g. for flue gas desulphurisation. The literature reference "Current status of continuous air dehumidification with solid sorbents ¹¹ in air and refrigeration technology 1/1992 teaches the structural design and function of a sorption heat exchanger as an air dehumidifier for industrial applications in the field of power plants, pharmaceuticals, chemical production, food technology and the like.

The situation is different in garages. Usually, garage exhaust air is not cleaned at all, but rather just extracted from the rooms and blown out over the roof. This is usually only possible if the air is directed into the free wind flow (chimney) and also has the disadvantage that, according to practical experience, the pollutants are not distributed as evenly as hoped.

The idea of cleaning the exhaust air and at least partially recirculating it as recirculated air has so far failed due to unresolved problems such as air conditioning. Even in garages, there are certain comfort and safety requirements for the air climate, whereby increases in pollutant concentrations and fog formation in particular must be avoided at all costs.

It is therefore an object of the present invention to provide a device for treating exhaust air from rooms used by motor vehicles, which better meets the requirements and is particularly suitable for the special difficulties of tunnels or garages.

The invention solves this problem with the features in the main claim.
The cleaning device according to the invention has the

• «4 ·

The advantage is that the air washer used optimally cleans the exhaust air of any pollutants it carries. The connected heat recovery device then ensures optimal conditioning of the cleaned air, whereby heat and moisture are exchanged. This makes it possible to return at least part of the cleaned exhaust air to the room, especially a garage, as recirculated air. The formation of fog is prevented in a simple and safe way. In addition, the exhaust air or recirculated air has already been warmed up and only needs to be heated up further in special weather conditions.

The device according to the invention is particularly suitable for garages, especially underground garages. Compared to the previous practice of exhaust air disposal via chimney, there are not only advantages in terms of air quality and pollutant disposal. The cleaning technology according to the invention also represents an acceptable solution in underground garages from an economic point of view (parking fees), especially when the higher acceptance from an environmental point of view is taken into account. The special conditioning of the exhaust air prevents the formation of steam and mist when blowing it off via chimney or other outlet openings.

The heat recovery device can be designed in different ways. In the preferred embodiment, it is a sorption heat exchanger with a hygroscopic and rotating storage mass. The exhaust air is cooled and humidified on the inlet side of the air washer and, after cleaning, is heated and dehumidified again on the outlet side of the air washer. The aforementioned moisture and heat exchange takes place across the air washer. Overall, the cleaning device is more economical than other solutions due to the heat and moisture exchange achieved. It requires a relatively low, acceptable construction and

It takes up little space and is easy to handle and control. In the overall cost balance when building underground car parks, investment costs can even be saved due to the elimination of high exhaust air ducts and chimneys.

The air washer is preferably designed as an adiabatic cooling washer, which has a particularly high cleaning effect. From the exhaust air, both the

γ water-soluble, gaseous pollutants, as well as dust and other contaminants such as pollen, are reliably removed. For the effectiveness of the preferred air washer, it is not critical or even beneficial if the exhaust air supplied is cooled and humidified beforehand using the heat recovery device. On the other hand, the air cooled in the air washer can be regeneratively heated again on the output side without the need for an external and additional energy supply. The overall energy consumption is relatively low because only the drive energy for the rotating storage mass and the energy requirement of the air washer are available, the latter also being reduced by the heat and moisture exchange.

Further advantageous embodiments of the invention are specified in the subclaims.

The invention is illustrated by way of example and schematically in the drawings. In detail,

Fig. 1 shows a schematic diagram of a device for

Treatment of garage exhaust air with a cleaning device and a recirculation system,

&iacgr;&ogr; Fig. 2 an air washer in schematic and

perspective representation and

Fig. 3 a heat recovery device in

two perspective views.

Fig. 1 shows a schematic diagram of a device for treating exhaust air from a room (2). In the embodiment shown, this is an at least largely closed room (2), preferably a garage or a garage deck. The preferred area of application is single- or multi-storey underground garages.

In a closed garage (2) there are some 5 basic hygienic and technical requirements as shown below.

The motor vehicles that take part in road traffic are generally equipped with engines in which the energy content of liquid or gaseous fuels is converted to drive. The combustion products consist - apart from the components of stoichiometric combustion - of the hydrocarbon compounds produced by the thermo-chemical reaction, the oxidation products of nitrogen (NOx) and also of the complete or unburned fuel components and

soot particles.

The most harmful or toxic substances are carbon monoxide (CO) as a respiratory poison and certain configurations of pyrenes with a carcinogenic effect. When assessing atmospheric air, the level of nitrogen oxides (NOx) is of considerable importance. The distribution of the individual components depends largely on the fuel quality, the setting of the

&iacgr;&ogr; fuel allocation (injection device, carburettor), the operating state of the engine (cold start, overheating and the type of operation. The various dependencies are laid down in the publications of the European test cycles.

CO was chosen as the reference value because carbon monoxide can be measured even at low concentrations and, on the other hand, once the required dilution of the breathing air has been achieved, all other toxic and harmful components are now present in negligible concentrations.

It should be noted that the regeneration of the blood, i.e. the flushing out of CO, is a long-term process that takes several hours. This means that if you are exposed to CO several times, the following exposure will result in a higher initial COHb value and the effect may be additive.

Guideline values for measuring pollutant levels:

In garages with permanent workplaces, the statutory MAK limit values (maximum workplace concentration of harmful substances) must be observed.

· S

In the other garage rooms, the longest duration of stay under normal conditions can be assumed to be 30 minutes. The carboxyhemoglobin content (COHb) of the blood, which builds up over this period through the breathing air, is crucial for the toxic effect of carbon monoxide.

As a CO limit value for garages and tunnels in which

If there are no workplaces, air pollution is considered to be &iacgr;&ogr;, which leads to a maximum load of 3% COHb after an exposure time of 30 minutes.

In order to comply with this value, a half-hour average CO value of 100 ppm should not be exceeded in garages under normal conditions. This average value must be calculated for each measuring point from individual measurements at intervals of maximum 6 minutes.

If the half-hour average value of 100 ppm is exceeded, the warning devices in garages are activated.

The outside air flow must therefore be selected so that the carbon monoxide concentration is reduced to at least the specified CO limit value (half-hour average) even at the highest possible operating load. For mechanical ventilation systems, the air volume is specified, taking all local and operational conditions into account.

In the device for treating exhaust air from a room (2) shown in the embodiment of Fig. 1, the air is guided through a network of pipes. Fresh air is supplied through a fresh air pipe (14) using one or more fans (15). The fresh air pipe (10) can contain a flap (9) for flow control and, if necessary, an air heater (16).

—7—

The used exhaust air (11) coming from the room (2) is led through a cleaning device (1) in which the exhaust air is freed of gaseous, solid and liquid pollutants and conditioned. The cleaning technology is described in more detail below. The exhaust air (11) is also extracted by one or more suitable fans (15), which are preferably located behind the cleaning device {1) in the direction of flow. The exhaust air line (11) has

&iacgr;&ogr; embodiment, a branch into a recirculation line (13), which leads back into the room (2) and an exhaust air line (12), which leads to a chimney, an exhaust shaft or another suitable discharge point or to further treatment or processing of the exhaust air. Here, flaps (9) are provided for regulating the air volume.

The recirculated air line (13) and the fresh air line (14) flow into the common supply air line (10), which leads into the room (2). An additional air heater (16) can be present in the supply air line (10). The air rate supplied into the room (2) and the exhaust air rate are 12m ³ /hm ² parking area. The fresh air (14) and the recirculated air (13) each contribute 50% to the formation of the supply air.

Accordingly, at the branching point of the exhaust air (11) there is also a 50% division into recirculated air (13) and exhaust air (12).

The cleaning device (1) consists of at least one air washer (3), which is preferably designed as an adiabatically cooling air washer. The air washer (3) is assigned a heat recovery device (4) which is connected to the inlet side (7) and the outlet side (8) of the air washer (3) and exchanges the heat and moisture.

The air washer (3), which is also shown in more detail in a perspective image in Fig. 2, cools the exhaust air as it passes through heavily sprayed water to below the condensation point in the saturation area, where the pollutants are washed out. It has a pH control for the washer water, which is gradually replaced. In the air washer (3), the water-soluble pollutants such as nitrogen oxides, carbon monoxide, hydrocarbons,

&iacgr;&ogr; Sulphur dioxide etc. are washed out and removed with the scrubber water. In addition, dust from tire abrasion, concrete dust etc., soot, pollen and other solid or liquid pollutant particles are removed.

The heat recovery device (4) is preferably designed as a sorption heat exchanger and has a rotating, wheel-shaped, hygroscopic storage mass (5), preferably according to category III of VDI 2071. The storage mass (5) is driven to rotate about an axis (6) extending along the inlet line. In the embodiment shown, the left side of the storage mass (5) is connected to the inlet side (7) immediately in front of the air washer (3). On the outlet side (8) of the air washer (3), the outlet line is led back in the bend 5 over the axis (6) and connected to the other opposite side of the storage mass (5).

The rotating hygroscopic storage mass (5) ensures an exchange of heat and moisture in the circulating exhaust air (11). The exhaust air (11) coming from the garage (2) has a largely constant temperature of approx. 10 ⁰ C and a relative humidity of 50-60%, for example. It is cooled on the inlet side (7) by the storage mass (5) to approx. 6 to 7 ⁰ C and moistened by the release of water. This increases the relative humidity on the inlet side (7) of the air washer (3) to approx. 80-90%.

The adiabatically cooling air washer (3) lowers the air temperature on the outlet side even further to approx. 5 ⁰ C, whereby the relative humidity on the outlet side is approx. 100%. In the rotating storage mass (5), the exhaust air (11) is heated again to approx. 8 to 9°C by transferring the heat previously extracted on the inlet side. At the same time, moisture is extracted from it by the hygroscopic storage mass (5). The exhaust air (11) or exhaust air (12) has a residual moisture content of approx.

&iacgr;&ogr; 75%. The values given depend on the ambient climate and can vary. The example refers to the transition or winter period.

A switchable bypass (17) is arranged in front of the cleaning device (1) for rapid smoke extraction from the garage (2). Controllable flaps (9) are located at the passage points of the rotating storage mass (5) and the bypass (17) for this purpose.

As mentioned above, the air in the garage (2) is preferably kept at at least 10 ⁰ C. In the cleaning device (1) only a relatively small amount of temperature is lost due to the regenerative effect of the rotating storage mass (5). The exhaust air (12) or the circulating air (13) therefore have a temperature only slightly lower than desired. Depending on the outside weather, the supplied fresh air (14) can be heated to the desired temperature of at least 10 ⁰ C in its air heater (16) before the mixing point. After the mixing point 0, the supply air (10) can also be heated to the stated temperature in a second air heater (16). Air heating is not required most of the year. The stated 10 ⁰ C represents a threshold value which is usually slightly exceeded, so that no additional air heating is required from the point of view of fog formation and due to the only minor heat losses in the cleaning device (1).

is required.

In a modification of the embodiment shown, the cleaning device (1) can be assigned to several rooms (2), in particular several parking decks of a garage. The rooms (2) have a correspondingly divided pipe network that allows the rooms to be supplied individually.

&iacgr;&ogr; Variants of the invention are possible in various ways. Instead of the rotating storage mass (5), the heat recovery device (4) can have other suitable system components for heat and moisture exchange. The inlet and outlet air flows can also be treated individually and without regenerative heat and moisture exchange. The air washer (3) and the piping can also be modified.

LIST OF REFERENCE SYMBOLS

1 Cleaning device 2 ■ Room, garage deck 3 Air washer 4 Heat recovery system, Sorption heat exchanger 5 rotating storage mass 6 axis 7 Home page 8th Home Page 9 flap 10 Supply air, supply air duct 11 Exhaust air, exhaust air duct 12 Exhaust air, exhaust air duct 13 Recirculation, recirculation duct 14 Fresh air, fresh air duct 15 fan 16 Air heater 17 bypass

Claims (11)

ANl » »· · · ■ · * · ·•• · ··* •.1DE-G94 20 276A. ScheelAnm:Dipl.-Ing.Akte:929-3 er16.11.1995 NEW PROTECTION CLAIMS 1.) Device for treating the exhaust air from &iacgr;&ogr; rooms used by motor vehicles, in particular from tunnels or garages, with an exhaust air line and an inlet air line and a cleaning device, characterized in that the cleaning device (1) has an air washer (3) with a heat recovery device (4) which dehumidifies and heats the exhaust air (11) after the air washer (3), and that the exhaust air line (11) behind the cleaning device (1) has a branch into an exhaust air line (12) and a recirculation line (13) for returning air to the room (2). 2.) Device according to claim 1, characterized in that the heat recovery device (4) is connected to the inlet side (7) and the outlet side (8) of the air washer (3). 3.) Device according to claim 1 or 2, characterized in that the heat recovery device (4) cools and humidifies the exhaust air (11) on the inlet side (7) of the air washer (3). 4.) Device according to claim 1, 2 or 3, characterized in that the heat recovery device (4) is Sorption heat exchanger with a hygroscopic storage mass (5). 5.) Device according to claim 4, characterized in that the storage mass (5) is arranged to rotate. 6.) Device according to claim 1 or one of the following, characterized in that the air washer (3) is designed as an adiabatically cooling washer. 7.) Device according to claim 1 or one of the following, characterized in that the exhaust air line (11) has a switchable bypass (17) for smoke extraction upstream of the cleaning device (1). 8.) Device according to claim 1 or one of the following, characterized in that the recirculating air line (13) opens into the supply air line (10). 9.) Device according to claim 8, characterized in that an air heater (16) is arranged in the circulating air line (13) and/or the supply air line (10). 10.) Device according to claim 9, characterized in that controllable flaps (9) are arranged in the recirculation line (13) and/or the exhaust air line (12). 11.) Device according to claim 1 or one of the following/ characterized in that several rooms (2), in particular several garage decks, are connected to a common Cleaning device (1) are switched on.