RU32776U1 - Sewage treatment plant - Google Patents

Abstract

1. Installation of wastewater treatment, containing floating structures with frameworks having a space for non-pressure contact of air and aqueous media, loading the framework with water-air plants and means for distributing the passing water through the framework space of the aquatic environment, characterized in that it is provided with means for heating the aquatic environment passing through the space of the frame and a heat-insulating light-transmitting shelter. 2. Installation according to claim 1, characterized in that it is equipped with a means of artificial illumination of water-air plants.

Description

2003114667

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Sewage treatment plant

The utility model relates to the field of hydrobotanical treatment of industrial and domestic wastewater, characterized by animals or plants used for treatment, for example, aquatic vegetation.

A known installation of wastewater treatment, containing floating or stationary structures with frames with space for pressure-free contact of air and water, loading the frame with floating (or not submerged) plants and means for distributing the passing water through the space of the frame of the aquatic environment (SU No. 927960 C 02 F 3/32, 1982).

A disadvantage of the known installation is that its use in open water is limited to the seasonal period of the biological activity of the culture of water-air plants, which ultimately prevents the use of highly effective water hyacinth (Eichornia) for wastewater treatment in a temperate climate.

The task to which the claimed utility model is directed is to create an effective tool for significantly increasing the treatment period of various types of wastewater and optimizing the cultivation of an Eichornia aquatic plant.

The technical result that can be obtained by implementation

A useful model is to provide a condition for eliminating the influence of ecological and geographical variability of the level of metabolism of water hyacinth (Eichornia), carrying out its biological activity at a higher energy level and providing better conditions for adaptation.

. : l,. „. -. ., and space for non-pressure contact of air and water, loading

frame water-air plants and a means of distributing passing water through the space of the frame of the aquatic environment, due to the fact that it can be equipped with a means of heating the aquatic environment passing through the space of the frame, and heat-insulating, light-transmitting shelter.

And also due to the fact that it is equipped with a means of artificial illumination of water-air plants.

The essence of the claimed utility model is illustrated in the drawing with a schematic representation of the installation module in the context.

The wastewater treatment plant contains the required number of modules of a floating or stationary structure with hollow parts 1 and a frame 2 (for example, a multi-tier grate) between hollow parts 1 having a space 3 for pressure-free contact of air 4 and aqueous medium 5 with hydrobotanical loading 6. In space 3 placed load 6 of the frame 2 with water-air plants - water hyacinth (Eichornia), and under space 3 there are trays 7 or other modules that limit the depth of immersion, taking into account the size of the root part of the plants, together with the means of water supply 8 (for example, a pump, pressure vessel or gravity flow) a means of distributing passing water through the space 3 of the frame 2 of the aquatic environment .. According to specific application conditions, the means 8 and the trays 7 can be connected by a channel system (not shown ) or pipelines for directional flow of water. Trays 7, in turn, can be either of the appropriate size, or made up of the corresponding number of modular parts, correlated with the average rates of extraction of plant utilized ingredients, manufacturability and ease of maintenance.

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2 The unit is equipped with a heat-insulating light-transmitting shelter,

made, for example, in the form of reinforcing parts 9 with a film coating 10. For the first, for example, elements made of fiber composites (glass-fiber concrete or carbon-fiber concrete) can be used, and as the second, a covering film material based on a polyethylene film with a filler providing a temperature gradient 5-8 ° C higher, polycarbonate film or cellular polycarbonate.

To ensure the living conditions of plants in the cold periods of the year (most typical for mid-latitude conditions), the installation is equipped with a means 11 for heating the aqueous medium circulating from the means 8 through channels and trays 7 through the space 3 of the frame 2. The corresponding thermal regime can be provided, for example, transonic jet pump - heater, using steam energy for heating and pumping liquid without the use of additional energy sources, catalytic heat sources on a gaseous top the flow or due to the technological circulating water of the existing heat transfer systems (boilers).

The installation is equipped with a means 12 for artificial illumination of water-air plants, for example in the form of scattering lamps with a specific power of 400 W on () 20 m of the water surface.

For water purification, the installation is placed on a water surface in a pond, storage pond or sedimentation tank. Means B circulate the purified water through the trays 7 and through the space 3 of the frame 2, providing the greatest contact and biological interaction with the root of the biological load 6. To increase the cultivation time of plants, the plant performs its work while maintaining the humidity, air temperature and water environment in the zone

3 active interactions depending on changes in weather conditions and

time of day. Shelter with a film coating 10 on the reinforcing parts 9 is guaranteed to protect plants from probable extreme impacts in cases of temperature fluctuations characteristic of mid-latitude conditions, and ensures that the cultivation mode is close to natural for water hyacinth (Eichornia) and, as a result, an increase in vegetation and the possibilities of maintaining plants with options for using them in seasonal or year-round modes of operation. The movement of the aquatic environment with appropriate heating means 11 of the flow of the aquatic environment, affecting the development of the root part of plants. Additional artificial illumination by means 12 creates a luminous flux of the necessary intensity and spectrum, compensating for seasonal insufficiency of illumination and vital activity until a steady level of positive temperatures occurs.

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Claims (2)

1. Installation of wastewater treatment, containing floating structures with frameworks having a space for non-pressure contact of air and aqueous media, loading the framework with water-air plants and means for distributing the passing water through the framework space of the aquatic environment, characterized in that it is provided with means for heating the aquatic environment passing through the space of the frame, and heat-insulating light-transmitting shelter. 2. Installation according to claim 1, characterized in that it is equipped with a means of artificial illumination of water-air plants.