DE4304521A1 - System for the detection and monitoring of pollutants - Google Patents

Description

The invention relates to a system for detection and monitoring of pollutants.

An example of the problem of detection and monitoring of pollutants can be explained using the landfill seal become. In known systems for contaminated base sealing in Sword jacking process with downstream sealing membrane train and auxiliary or overflow sewer system for the isolation of So far there are no contaminated sites, landfills and new landfill facilities ne verifiability of the following factors:

• a) tightness of the bulkhead (foil) over time;
• b) reactions of the landfill material through chemical processes and physical changes to the landfill;
• c) Recording, evaluation and early initiation of Countermeasures to prevent contamination from for example, groundwater located under the landfill.

New landfills and / or contaminated sites to be renovated  must be hermetically sealed off from the geological environment in order to to prevent pollutants from entering the environment. The foreclosure is carried out using foreclosure barrier foils and multiple detectors merschott.

When monitoring the functionality of such landfills the result is a very complex problem. Here must be the same the mechanical long-term behavior of the bulkhead and that Behavior of chemical processes in the landfill before and after the renovation will be examined. The gradients must continue of chemical biological degradation progress, d. H. the conversion the pollutants are analyzed. After all, is one Early warning system for changes in foreclosure (detection of defor mation up to damage). Finally ge also hears an early warning system regarding the problem area Storage or release of rays.

There are also problems with erkening in other areas Pollution control and monitoring. For example desirable at least qualitative statements about the pollutant composition in garbage containers, pipes or in contaminated soil from old industrial plants - so-called Preserve contaminated sites.

The object of the present invention is now to provide a system for Provide detection and monitoring of pollutants, with which the pollutants with respect to the aforementioned factors reliably recognized and, if necessary, continuously can be monitored.

According to the invention, the object is achieved by the combination of features of the characterizing part of claim 1 solved. After this The solution is one or more in at least one receiving chamber  Sensor elements for the various monitoring tasks arranges. Inside the receiving chambers is the sensor element with a compact microelectronic module Signal adaptation, signal processing and first interface orderly. Data processing is via a second interface processing system for evaluation, actuator control connected and corresponding actuator elements can be connected. Between the a bus system is arranged at the first and second interfaces, with which the systems of each reception chamber with the data processing plant are coupled.

In an advantageous embodiment of the invention, the sensors can be covered with sensor protection hoods. This provides protection before direct exposure to water.

The system includes sensors for detecting the temperature, the Pressure, humidity, conductivity, radioactivity and / or available for the analysis of gas, which are clocked one after the other can be queried.

Sensors can be used as closed rod sensors men, the modulated magnetic fields with differentiation of statements about allow the change or influence of the magnetic fields.

The first and second interface can be a fiber optic include coupler system.

The system can be used to monitor landfills with a basic Ab seal, preferably a multi-chamber sealing barrier film, be used. In this case there are several reception chambers for the sensors distributed over the base seal and integrated into it.  

The system can also be used to monitor landfills with an upper surface cover are used, the receiving chambers ver divides arranged over the surface cover and inte are free.

On the other hand, the system can also be placed in a dumpster or Garbage container to identify the composition of the waste be arranged. This is an identification of the together it is possible to place the waste material on the landfill before disposal Lich.

According to an alternative embodiment, several sensor elements can tion form in a preferably cylindrical sensor housing be arranged together with the corresponding electronics. Here can be a sensor assembly for the detection of moisture, ion con concentration, pressure, radiation and temperature etc. integrated his. The encapsulated sensor housing can be pre-fitted accordingly driven borehole can be lowered to work with the system in the corresponding borehole data on u. a. the humidity, ion concentration tration, pressure, radiation and temperature on site. This allows qualitative analysis results, for example investigate in unprotected contaminated sites directly on site. Here it is in contrast to the previously necessary procedure no longer necessary to take your own samples, the then have to be analyzed in a laboratory. It can with the With this advantageously designed system, statements can be made immediately be made. It is particularly advantageous here portable electronic evaluation unit, for example a note book to connect.

According to a further embodiment, the system can be in a Sheet pile or diaphragm wall arranged within a tunnel body be to pressurized water and changes in rock and  Recognizing backfill material. Here the system for con trolling and as an early warning system for damage prevention and Long-term monitoring is used.

The system can also be integrated in a sewer rehabilitation robot freeze.

Finally, the system can also be carried below water Arrange the sewers and pipes to get out wastewater early early detection and analysis.

The power supply for the electronics and sensors can be via ensure special multi-cable connections. For data transfer averages can be used in the usual way measurement data cable the. Alternatively, the power supply can also be via a long-term battery mulators take place. The sensor measurement data can instead of a Measurement data cables can also be called up by radio at intervals. There the sensor elements represent the passive components, wuh rend transmitter and receiver represent the active part.

Further details and advantages of the system according to the invention are based on a special embodiment only on one application variant of the different usable Systems relates, based on the drawing and several diagrams in the following explained in more detail. Show it:

Fig. 1 shows a schematic overview of a portion of the system according OF INVENTION dung,

Fig. 2 is a schematic block diagram of the Übersichtsdarstel lung shown in FIG. 1,

Fig. 3 is a detailed block diagram of the system portion of FIG. 1,

Fig. 4 is a schematic block diagram of the entire OF INVENTION Systems to the invention,

Fig. 5 is a diagram relating to the basic structure of the bus system and

Fig. 6 shows an overview of the system structure.

In Fig. 1, a chamber barrier composite film 10 is provided as the base seal. In this, a receiving chamber 12 is arranged, the outer wall of which is formed from a multi-layer combination laminate. Sensor elements 14 are arranged within the receiving chamber, which is followed by a compact microelectronic module. This consists first of all of a circuit for signal preprocessing, signal adaptation and compensation 16 , a downstream unit of multiplexers and A / D converters 18 and a central processing unit CPU as well as a first interface 20 with an optocoupler. Within the receiving chamber 12 is also a shield and a power supply is arranged. The sensor heads of the sensor elements 14 protrude, as shown here, over the receiving chamber 12 , with an appropriate seal being attached to the exit point.

The receiving chamber can contain a protective housing made of polyethylene for the internal reception of the microelectronics in a manner not shown. The various sensor heads can be guided through the receiving chamber with a corresponding watertight penetration. Alternatively, the sensors can also be integrated on the outside of the housing. There are water and unbreakable inputs and outputs for energy supply and feeds of the sensor outputs to the microplate. The protective housing can be milled from solid polyethylene material and have tight side / front entrances in spiral plug-in parts. Additional flattened side and front parts are used for static load distribution. In addition, mounting mounting surfaces for the film 10 can be present.

According to the circuit diagram in Fig. 2, the output from the individual NEN sensors is given via a signal adaptation 22 and compensation to another unit with a multiplexer clock generator, measuring point switch, sample and hold and A / D converter. This is followed by a unit consisting of a central unit (communication processor) and the interface with an optocoupler. Bus 24 connects to this.

The data are forwarded to a unit that is also connected to the bus via an interface with an optocoupler and contains a data processing system that is used to evaluate the measured data. This data processing system also contains the linking software and is also used to control the actuator elements, which for example consist of a relay, lamps or a horn, a printer or a command output for emergency systems (cf. FIG. 3). An overall view of the schematic structure can also be seen from Fig. 4. There the 8 data lines of the corresponding measuring heads are labeled 1-8. These measuring heads pass on their data to the first construction unit I of the microelectronic circuit, which consists of signal adaptation and compensation. These data are then passed on to the second unit of the microelectronic circuit II, which contains a multiplex clock generator, measuring point switch, sample and hold and A / B converter. This data is then passed on to the first interface III.

On the other side of the system is the second interface IV, followed by the data processing system V and the actuators VI. Between the interface III and the interface IV, the bus system VII (reference numeral 24 ) is arranged.

The basic structure of the bus system is shown in Fig. 5. The bus system operates between the first and second interfaces (coupling stages) as follows: The node address is set in terms of hardware (bridge) for the master and slave. The master sends a telegram to the bus with the subscriber address of the slave to be addressed. If the address of a slave is not acknowledged (three requests from the master), the master triggers a fault message. If the monitored acknowledgment of the slave has a negative function, the slave sends a data telegram to the bus with the address task of the master to be received and the user data (sensor values).

With the bus system implemented here is an uninterrupted Remote diagnosis on request in the cycle time interval via the respective current state of the contaminated site / landfill foreclosure system in the physical / chemical changes or the behavior of the Landfill good possible. The high availability is related to the total area by the previously described bus system, which is arranged integrated connection manufactured.

With reference to FIG. 6, the monitoring operation can be explained in more detail with the OF INVENTION to the invention system. First, all sensor data are read in cyclically. The measured values are read in one after the other. The measured values are sorted and stored in RAM. Then the measured values are processed. On the one hand, a long-term log is made and long-term data is saved on a hard disk and these hard disks can be archived. On the other hand, the measured values are monitored and the current actual value is compared with a predetermined target value. In the event of impermissible deviations, an alarm is issued on the one hand and a fault report is made on the other hand.

As described above, is based on the inventive Systems a microelectronic sensor monitoring at hand given that the happenings in contaminated landfills continuously supervised. The sensors detect pressure, gas, radiation or the like in the subordinate microelectronic components, which, however, are compactly combined in one unit, the best hend from sensor element heads, signal preprocessing, Signalwei processing, interface and bus system, as well as others Functional microelectronic assemblies, such as interfaces, data Evaluation / actuator control and actuator element, processed become.

The system explained in detail using the landfill sites the microelectronic sensor monitoring can be fiction, ge according to use in other areas. So it can't just be in the basic sealing of landfills, but also for example in the existing surface cover of a landfill be integrated.

In another embodiment, it can also be stored in a large garbage can instal to identify the composition of the waste be. The system can also be integrated into an egg be encapsulated in a cylindrical sensor housing. It can go on inte in a sheet pile or diaphragm wall of a tunnel body be free to keep water under pressure and changes in the Monitor rock and backfill material. The system leaves also integrate into a sewer rehabilitation robot in order to the pollutant remediation work  feel or monitor. Finally, the system can also Arrange below water-carrying ducts and pipes in order to Detect leaking water early. Similar orks ting and monitoring tasks can be advantageous with the System of microelectronic sensor monitoring described here solve.

Claims (12)

1. System for the detection and monitoring of pollutants, characterized in that
that at least one sensor element is arranged in and / or on at least one receiving chamber,
that a compact microelectronic unit with signal adaptation, signal processing and first interface is arranged downstream of the at least one sensor element within the at least one receiving chamber,
that a data processing system for evaluation, actuator control and corresponding Ak tor elements can be connected via a second interface and
that a bus system between the first and second interface is arranged. 2. System according to claim 1, characterized in that the sen sensors with these covering sensor protection hoods are.   3. Sensors for recording the temperature, pressure, humidity, conductivity ability to radioactivity and / or gas analysis are available, which can be queried sequentially. 4. System according to any one of claims 1-3, characterized in that the first and second interface is a fiber optic include coupler system. 5. System according to any one of claims 1-4, characterized in that it is used to monitor landfills with a basic seal device, preferably a multi-chamber sealing barrier film is used and that the receiving chambers distributed over the basic seal arranged and integrated into this are. 6. System according to any one of claims 1-4, characterized in that it is used to monitor landfills with a surface ab cover is used, with the receiving chambers distributed arranged over the surface cover and inte are free. 7. System according to any one of claims 1-4, characterized in that it is in a dumpster or bin for Identi Specification of the composition of the waste is arranged. 8. System according to any one of claims 1-4, characterized in that several sensor elements in a preferably cylindri sensor housing together with the corresponding electrical nik are arranged, this encapsulated sensor housing can be lowered into an appropriately driven borehole, to transfer data to the system in the appropriate borehole  u. a. Humidity, ion concentration, pressure, radiation and Temperature. 9. System according to claim 8, characterized in that it with can be connected to a portable electronic evaluation unit is. 10. System according to any one of claims 1 to 4, characterized in net that it is in a sheet pile or diaphragm wall within a Tunnel body is arranged to accumulate pressurized water and Detect changes in the rock and backfill material nen. 11. System according to any one of claims 1 to 4, characterized net that it is integrated in a sewer renovation robot. 12. System according to any one of claims 1 to 4, characterized in net that it is below water-carrying channels and pipes is arranged to detect escaping waste water early nen.