ITRM20080579A1 - VERTICAL PHYTODEPURATION SYSTEM FOR WASTEWATER TREATMENT. - Google Patents

Description

"VERTICAL PHYTODEPURATION SYSTEM FOR WATER TREATMENT

REFLUE "

DESCRIPTION

The present invention refers to a latest generation integrated phytodepuration system for the purification of polluted waste water, where the plant essences used are inserted on a structure that develops vertically / obliquely (wall and / or column), not in horizontal (parallel to the ground) as in conventional constructed wetlands systems.

The integrated vertical constructed wetland system object of the present invention (hereinafter also indicated with the initials SIF-V) has a general flow pattern similar to the aforementioned patent, but it differs from it due to the presence of a mixing and homogenization stage instead of the biological stage, and furthermore the phyto-absorbent stage includes the biological stage, which occur in a single integrated structure.

History of technology

The present invention derives from the invention patent marked with the n ° 1224597 called "Integrated phytodepuration process" owned by the same inventor Dr. Maurizio Giannotti, but it is detached from it and becomes a new innovative technology because:

i) it substantially modifies the phyto-purification stage where the plant essences used are inserted in a special vertical structure in the shape of a wall and / or column; ii) includes and integrates the biological stage within the phyto-purification stage itself, transforming it into a single multifunctional structure.

Previous technical description

The integrated vertical constructed wetland system object of the present invention (hereinafter referred to as SIF-V) has a general flow scheme similar to the aforementioned patent, but it differs from it due to the presence of a mixing and homogenization stage in place of the biological stage, and furthermore the phyto-absorbent stage includes the biological stage, which occur in a single integrated structure.

Disadvantages of the prior art

As is known, the various conventional constructed wetlands technologies currently on the market are made in basins, more or less extensive and complex, in which the plants are arranged horizontally.

This, to date, determines a series of limitations:

· The need for large areas of land to build the phytodepuration basins horizontally;

• high construction costs;

• difficulty in accessing all plants for maintenance and pruning; • environmental impact sometimes not in line with the needs and morphology of the territory.

Aims of the invention

The object of the present invention is to solve the aforementioned disadvantages by providing a modular electric machine as substantially described in claim 1. Further characteristics of the process are defined in the corresponding dependent claims.

Advantages of the invention

The present invention, overcoming the aforementioned problems of the known art, entails numerous and evident advantages.

The structural and operational characteristics of the vertical constructed wetland system object of the present invention allow to obtain the following advantages and improvements with respect to both the aforementioned patent and the other conventional constructed wetlands technologies and activated sludge purification systems:

• the space required for phytodepuration is further reduced;

• the plant structure is simpler and more compact;

• the necessary dimensions are optimized;

• there are lower construction and management costs;

• a greater and constant purification efficacy is obtained compared to conventional activated sludge purification and phytodepuration technologies;

• a positive environmental impact is obtained on the territory; and

• always offers the guarantee of a final effluent with chemical and microbiological characteristics suitable for the recovery and reuse of purified water for irrigation or other purposes (Water Reclamation).

Furthermore, the SIF-V allows to eliminate and reduce the drawbacks still present in conventional purification and phytodepuration systems. Indeed:

• the surface necessary for the phyto-purification basin is drastically reduced because the plants are inserted in a vertical structure which actually occupies from 50% to 60% less surface than the same structure placed horizontally and parallel to the ground;

■ the same vertical structure also contains the biological activated sludge stage which is in direct contact with the roots of the plants;

• this allows the elimination of the separate activated sludge biological stage, with considerable savings in terms of money and space;

• major excavation works are no longer necessary, compared to conventional phyto-purification, because the plant's phyto-absorbent section develops vertically and out of the ground;

· Bio-diversity is increased because autochthonous plant species can be used, that is, already present and typical in the same territory, and in pluriculture; unlike phytoremediation systems that use only one species of plants;

• the vertical structure in the form of a wall or column has a lower construction cost compared to the horizontal tanks and can be built both on site and using prefabricated elements;

• all plants are easily accessible and therefore their maintenance is simpler and cheaper;

• it is possible to apply this new phyto-purifying technology vertically, as for the patent mentioned in the introduction, both directly on the raw sewage, and downstream of existing purification plants (so as to recover the old structures and improve their efficiency) ;

• this solution has a greater and more constant purification efficiency compared to other conventional technologies and allows to obtain a guaranteed final effluent, of excellent quality and ready to be reused for irrigation, industrial or other purposes.

Brief description of the drawings

Still further advantages, as well as the characteristics and methods of use of the present invention will become evident from the following detailed description of a preferred embodiment thereof, presented by way of non-limiting example, with reference to the figures of the attached drawings, in which:

figure 1 shows a side schematic view of a constructed wetland system according to the present invention; And

Figure 2 shows in front view some examples of embodiment of a system according to the present invention.

Detailed description of the drawings

With reference to Figure 1, it shows a side view of a vertical constructed wetland system for a polluted water flow according to the present invention. The phyto-purification system comprises a phyto-purifying structure 3 on which vegetable essences, or more generally plants, are arranged, suitable for cooperating with the polluted water flow in order to carry out a phyto-purifying action. As can be seen in Figure 1, the structure 3 is arranged in a substantially vertical manner with respect to a walking surface. In particular, again with reference to Figure 1, the following functional stages are highlighted:

Stage A: tank 1 for separating the solids from the liquid phase;

Stage B: homogenization and mixing tank 2;

Stage C: structure 3 for vertical constructed wetlands and biological treatment;

Stage D: containment structure 4, comprising a recirculation tank 7 and a discharge tank 6, configured for complete aerated lagooning,

The hydraulic connection between the various stages can be by gravity, if possible, or by suitable and specific pumping systems.

The structure 3 in the preferred embodiment presented here by way of example and not of limitation is a vertical wall, but it is understood that it may assume other forms, such as for example a column with a circular base or other geometric shape.

The feeding of Stage C from Stage B is given by a first pumping apparatus 5 in which the water is pumped and mixed with compressed air or sucked by depression and feeds a perforated distribution manifold positioned on the top of the phyto-purifying wall 3 In particular, in the preferred form described herein by way of non-limiting example, an apparatus of the Venturi / aspirated air type is used, which is well known to those skilled in the art and which therefore will not be further discussed.

The system object of the present invention comprises, in correspondence with stage D - aerated lagoon - two indispensable and typical structures: the drain tank 6 and the recirculation tank 7. The phyto-purification system comprises a pond 10 in which a second pumping apparatus through which the water is pumped into the homogenization tank 2 (passage illustrated in the figure with the arrow denoted by the numerical reference 8), in an upper part of the phyto-purification wall 3 (passage illustrated in the figure with the arrow denoted by the numerical reference 9) and in the jets of water present in the pond 10 itself and which have the function of mixing and moving the water present therein.

More particularly, the present invention relates to an improvement and improvement of the patented technology n ° 1224597; in fact, it substantially modifies the way of positioning the plants which are arranged on the vertical wall 3, so as to form a wall with a phyto-purifying function.

The same vertical structure 3, moreover, is made in such a way as to also allow the biological degradation step of the organic substance by the bacterial population adhering to filling elements present in the internal part of the same. The plants can be arranged on one side only or on two, three and four sides of the phyto-purifying wall. Also for the structure having the shape of a phyto-purifying column, the plants can occupy only one side or turn all around the column itself. In both solutions, the plants are positioned in such a way as to guarantee their growth and maximum phyto-absorbent efficiency.

The invention can be applied to the purification of various types of wastewater, such as: 1) civil discharges from small, medium or large cities; 2) agro-industrial, zootechnical, industrial discharges; and also 3) for the refining and recovery of partially purified water coming from conventional purification systems.

In all cases, the final effluent has chemical, physical and microbiological characteristics suitable for recovery and reuse in agriculture or industry or other.

In particular, the present invention comprises the following structures:

- rear vertical supporting wall which can be made from a special metal structure (grilled type) or from a masonry wall (concrete or other material);

front wall, where the plants are positioned, formed by a metal structure (grid type) or other structure of different material but with the same function, on the wall special pins are applied which have the function of a vase to support the roots of the plants;

internal filling with plastic inert bodies with a supporting function for the bacterial biological film; or other material with the same function and of various shapes and sizes;

- plant support pins or other structure of the same function.

The cotter pins can have various sizes and shapes and are positioned and connected on the front wall by means of hook or screw systems, or other, as required.

Each cotter pin can contain one or more plants and have the appropriate and most suitable dimensions for the type of application required:

plants of various species, inserted in the cotter pins, with a concentration ranging from a minimum of 2 to 10 plants per square meter;

inert material inside the cotter pins, such as expanded or high clay with the same function in supporting the roots of plants;

- internal recirculation system consisting of pump, pipes and a special water distribution system;

collection tank below;

re-oxygenation pond, located downstream (Stage D);

recirculation tank 7, inside Stage D, in which the aforementioned second pumping apparatus is positioned;

- treated water discharge tank 6, inside Stage D;

mixing and homogenization tank 2 (Stage B), in which it is possible to mix the incoming sewage with the water recirculated from the pond and coming from the recirculation tank 7.

Referring to the following figure 2, it shows two typical examples of the present invention:

Example of a phyto-purifying wall:

a) central - phyto-purifying wall (Stage C) located in the center of the pond (Stage D); b) lateral - phyto-purifying wall (Stage C) placed sideways to the pond (Stage D); c) single - phyto-purifying wall (Stage C) isolated, the pond (Stage D) is created downstream and separately.

Example with phyto-purifying column:

al) central - phyto-purifying column (Stage C) located in the center of the pond (Stage D); b1) lateral - phyto-purifying column (Stage C) placed sideways to the pond (Stage D);

c1) single - phyto-purifying column (Stage C) isolated, the pond (Stage D) is created downstream and separately.

The dimensions and measurements of the vertical constructed wetlands structures (height, length and thickness), both in the wall and column version, may vary and depend on the organoleptic characteristics and the flow rate (hourly and daily) of the sewage to be treated.

The materials used for the construction of the various structures that make up the vertical constructed wetlands, both wall and column, are those normally available on the market (various stone materials, all types of plastic, all metal and non-metal alloys, iron and derivatives , various types of wood, various fiberglass, concrete, etc.).

This technology can be applied to all organic civil, industrial, agro-industrial, zootechnical wastewater; and to all surface and non-surface waters that require a reduction treatment of the organic substance and / or inorganic compounds, such as: Nitrates, Phosphates, etc.

The SIF-V systems can be built for a potential ranging from 10 inhabitants / equivalent to 100,000 inhabitants / equivalent; or on hydraulic flows ranging from 1 mc / g to 1 mc / sec.

The present invention has been described up to now with reference to a preferred embodiment thereof. It is to be understood that there may be other embodiments that refer to the same inventive core, all falling within the scope of the claims set out below.

Claims (16)

CLAIMS 1. Integrated system of vertical phyto-purification of a polluted water flow, comprising a phyto-purifying structure (3) on which are arranged plant essences suitable to cooperate with said polluted water flow and to carry out a phyto-purifying action , said system being characterized in that said phyto-purifying structure (3) is arranged in a substantially vertical manner with respect to a walking surface. 2. Integrated vertical constructed wetland system according to claim 1, in which said structure (3) can have the shape of a wall, or of a column with a circular base or of other geometric shape. 3. Integrated vertical constructed wetland system according to one of the preceding claims, in which said plant essences suitable for constructed wetlands are inserted on at least one side of the vertical structure (3). 4. Integrated vertical constructed wetland system according to one of the preceding claims, in which the plant essences used are all the species present on the market (floral, shrub, seasonal, evergreen). 5. Integrated vertical constructed wetland system according to one of the preceding claims, in which said vertical structure (3) comprises inert fillings inside it which act as a support for the bacteria, in such a way as to carry out a biological treatment step. 6. Integrated vertical constructed wetland system according to the preceding claim, in which said water flow is recirculated by means of a first pumping apparatus (5) and passes through the entire vertical structure (3) from top to bottom, thus coming into contact both with said bacteria and with the roots of said biological essences. 7. Integrated vertical constructed wetland system according to one of the preceding claims, further comprising a containment structure (4) of suitable shape and dimensions arranged downstream of the vertical structure (3) and in which a specific pond (10) is created. 8. Integrated vertical phytodepuration system according to the previous claim, in which a second pumping apparatus is positioned in said pond (10) able to recirculate the water both at the head of the vertical phytodepuration, and in fountains and jets inside it pond (10), and in a homogenization and mixing tank (2). 9. Integrated vertical phytoremediation system according to one of the preceding claims, which can be implemented both as a new plant and downstream from existing conventional purifiers. 10. Integrated vertical constructed wetland system according to one of the preceding claims, comprising a tank (1) suitable for carrying out a first treatment stage A aimed at separating the solids by means of any conventional apparatus available on the market. 11. Integrated vertical phytoremediation system according to one of the preceding claims, comprising a tank (2) suitable for carrying out a second homogenization and mixing stage B of suitable dimensions and proportional to an inlet flow rate and an internal recirculation flow rate. 12. Integrated vertical constructed wetland system according to one of the preceding claims, comprising said vertical structure (3) suitable for carrying out a third stage C of constructed wetlands and biological treatments. 13. Integrated system of vertical constructed wetlands according to claims 7 and 8 and one of the previous ones, comprising a containment structure (4) of said pond (10), suitable for carrying out a fourth stage D of aerated lagoon of suitable dimensions and proportional to the flow rate and the incoming load. 14. Integrated vertical phytodepuration system according to the preceding claim, in which a drainage tank suitably separated from the pond (10) is placed inside said pond (10) by means of filtering structures composed of panels formed by a layer of non-woven fabric. fabric, said filtering structures being suitable for retaining suspended solids. 15. Integrated vertical phytodepuration system according to the preceding claim, in which a recirculation tank (7) separated from the pond (10) is placed inside said pond (10) by means of filtering structures composed of panels formed by a layer of fine net, inside said recirculation tank (7) being present said second pumping apparatus able to recirculate the water at the head of the vertical structure (3), in the homogenization tank (2) and in the jets present in the pond ( 10). 16. Integrated vertical constructed wetland system according to one of the preceding claims, in which said plant essences arranged on the vertical structure (3) can be of several species (pluriculture); moreover, all the species of plants on the market, seasonal or evergreen, can be inserted, always giving preference to the species already present in the territory and which can be considered native.