DE29623422U1 - Modular fixed bed reactor for cleaning floors and substrates contaminated with heavy metals and / or organic pollutants - Google Patents

Description

Title:

Modular fixed bed reactor for cleaning soils and substrates contaminated with heavy metals and/or organic pollutants

Field of use:

The invention relates to modular planted fixed bed reactors for an accelerated, largely natural purification of soils and substrates contaminated with heavy metals and/or organic pollutants, such as sewage sludge and water sediments. They can be returned to the material cycle after the predominantly biological-physical treatment.

Characteristics of known technical solutions:

Known technical solutions with similar tasks are referred to as biopolders in the patent documents DE 43 23 610 C 1 and in
DE 41 42 085 A 1 has been described as a heap of material stored in layers. In DE 43 23 610 C 1, the boundary between an aerobic and an anaerobic zone is described as remaining constant over the treatment period. The layer structure from bottom to top consists of an iron ore layer that is treated anaerobically. Above this is the substrate layer, in which aerobic conditions prevail. It is known that pollutant degradation occurs through the interaction of oxidative and reductive processes. This type of arrangement makes it difficult to mechanically separate the iron ore from the substrate once the cleaning process has ended. If the heavy metal levels in the substrate are high, the iron ore cannot be replaced at any time. The concentration of the deposited heavy metals cannot be influenced in the technical solutions described, since the iron ore lies beneath the substrate to be cleaned during the treatment period. The buyers of the iron ore prescribe limit values for the heavy metal content, which must not be exceeded within the framework of specified tolerances for the smelting process.
Planted fixed bed reactors for the soil conversion of municipal, usually uncontaminated sewage sludge are described in Wissing, F.: Water purification with plants, pp. 42 - 47 (Ulmer, Stuttgart 1995).

According to the Closed Substance Cycle and Waste Management Act, media such as relatively lightly contaminated soils, substrates, sewage sludge and water sediments with an organic substance content of more than 5%, which may no longer be disposed of in this form, will be generated to a much greater extent in the future.

For economic and capacity reasons, the disposal path of incineration will continue to be reserved primarily for the more heavily contaminated batches.

Ways to achieve environmentally friendly interim storage and simultaneous treatment with the aim of predominantly recycling the cleaned substrates or components will become increasingly important for the economy in the future.

Aim of the invention:

The aim of the invention is to create, with the help of planted fixed bed reactors, practical, location-independent, easily dismantled and environmentally friendly, nature-adapted processes and systems for the intermediate storage, treatment, and accelerated cleaning and return to material cycles of soils and substrates contaminated with heavy metals and/or organic pollutants.

The addition of organic acids from food industry residues increases the mobility of heavy metals.

A modular exchange system allows the iron ore to be exchanged depending on the heavy metal intake.

All components of the modular fixed bed reactor system are connected to one another by a water circuit. Process water purification is possible here on the basis of mobile plant purification modules that can be arranged in any order in containers. The water, which can largely be circulated, is used again to irrigate the fixed bed reactor via storage tanks.

Statement of the nature of the invention:

According to the invention, the problem is solved by designing fixed bed reactors and other system components for the accelerated cleaning of contaminated soils and substrates on the basis of expandable mobile components. Depending on the pollutant content in the medium or in the water cycle, certain components can be supplemented at any time.

The adsorption of heavy metals is carried out by load-dependent process control in external filter modules filled with iron ore. When the iron ore reaches the saturation level with heavy metals and other limit values, an immediate direct exchange can be carried out in order to ensure the smelting capability of the ore. This limits the need for iron ore for treating the media to the amount actually required, depending on the heavy metal adsorption.

By adding electrolytes, preferably in the form of mineral fertilizers, the mobility of the heavy metal ions is increased and influenced in a targeted manner.

The water flow in the fixed bed reactor and the filter modules is designed in such a way that it largely forms a circulation system including a

A plant-based sewage treatment plant consists of mobile plant-based sewage treatment modules in containers that can be arranged in any order.

By controlling the water level in the fixed bed reactor from a relatively high level at the start of treatment to a level that tends to decrease, the root growth of the marsh plants planted on the surface in a balanced mixture of shallow and deep-rooted species is guided in a targeted manner to open up the soil through roots down to the drainage layer.

Example:

The invention is explained in more detail using an embodiment:
Figure 1: Cross section of the modular fixed bed reactor
Figure 2: Process diagram of modular fixed bed reactor
Figure 3: Side view of iron ore container

A modular fixed bed reactor is preferably designed in the form of an elongated rectangle at ground level with mass compensation in plan view and the excavation is used to form the limiting dams 1. To protect the groundwater, a foil lining 2 is made, which is protected on the surface by a construction fleece 5. On top of this is a load-bearing, drivable drainage layer 7 with drain pipes 10 made of inert materials. A separating fleece 6 is spread over this in order to fill the loaded substrate 4. The elongated design allows the intake volume to be continuously adjusted according to the respective batch size. Filling by driving directly with transport vehicles takes place when three sides have been completed. The last dam on a narrow side is only closed after filling has been completed.

After leveling and the plant species preferred depending on the season, the surface of the modular fixed bed reactor is protected against wind and water erosion with immediate greening. This is followed by targeted planting with marsh plants 3, which have already proven themselves in wastewater treatment (plant-based sewage treatment plant 12), to act as replacement plants.

The plants use the fixed bed reactor as a location and root it intensively. The top view shows the pump sump 8, which, with the installed pump 9, is used to regulate the water level and thus to promote targeted root growth. Sprinklers 17 or drip hoses on the fixed bed reactor are used to irrigate the plants during growth, to keep them moist during dry periods, and to guide the process for substrate maturation when natural precipitation is insufficient.
The systematic lowering of the water level can be adjusted via a telescopic pipe 15 in the pump sump at the end of the drain pipe 10.

The process water pumped from the pump sump 8 is transferred to externally installed bulk containers (filter module) 11 filled with iron ore and specially equipped with an inflow device in order to transfer dissolved heavy metals. Once the iron ore has reached its capacity to absorb heavy metals, the container can be exchanged for other containers with the same capacity.

The process water is treated in a plant-based sewage treatment plant 12 and/or a filter system 13, collected in a water reservoir 14 and can be used again for irrigation as required.

In order to ensure continuous operation during frost periods, a closed circulation line 16 for heated media, such as air or water, is installed in the drain system or at the boundary to the substrate.

Claims (6)

Parterrt^h sayings: 1. Modular fixed bed reactor for the accelerated cleaning of soils and substrates contaminated with heavy metals and/or organic pollutants, characterized in that an external filter module filled with iron ore (11), preferably as a modified bulk material container, is placed next to the fixed bed reactor in the process water circuit. 2. Modular fixed bed reactor according to claim 1, characterized in that, depending on the pollutant load, further external filter modules (13) are connected upstream or downstream for process water treatment. 3. Modular fixed bed reactor according to claims 1 and 2, characterized in that the process water from the additional irrigation and from natural precipitation is collected in a water storage module (14) and in the drainage system (7; 10), consisting of a drivable drainage layer (7), is pumped via pumps (9) in the pump sump (8) into the filter modules (11 and 13), and passes through a plant-based purification plant (12). 4. Modular fixed bed reactor according to claims 1 to 3, characterized in that in the filling and emptying phase, in which one end face is temporarily open, leakage of seepage water is prevented by pulling up the water protection film (2) in this area to the level of the load-bearing drainage layer (7). 5. Modular fixed bed reactor according to claims 1 to 4, characterized in that accelerators for pollutant dissolution or metabolism are applied via feed devices in the irrigation system. 6. Modular fixed bed reactor according to claims 1 to 5, characterized in that one or more circulation lines (16) for heated media are installed in the drain pipe (10) and/or above the drain layer (7) to keep it free from frost.