UA113347U - METHOD OF ACCELERATED GROWING OF HIGHER AQUATIC PLANTS FOR BIOLOGICAL WASTE WATER TREATMENT - Google Patents

Abstract

Method for accelerated cultivation of higher aquatic plants for biological wastewater treatment using a water tank, aerobic conditions, higher aquatic plants (Eichhornia crassipes), immobilized microorganisms on a fibrous carrier. Before planting higher aquatic plants in sewage treatment plants for 12-14 days, they are planted in the aquatic environment of the tank, and at night they are further intensively illuminated with polarized light 0.24 ÷ 0.30 lux, and fed with biogenic elements, and then in the container is loaded with a fibrous carrier with the necessary immobilized microorganisms and active sludge hydrobionts and immobilized the microorganisms and hydrobionts on the root system of higher aquatic plants (Eichhornia crassipes), after which higher aquatic plants are removed They are discharged from the tank and discharged into the sewage treatment plant.

Description

The useful model belongs to the field of ecology, in particular to the method of biological wastewater treatment, and can be used for the treatment of industrial and domestic wastewater.

For the biological treatment of wastewater, higher aquatic plants are increasingly used, for example, beautiful eichhornia (Eispotia sgazzire5 (Map.) ZoiItv). This tropical flowering plant is widely used for the treatment of wastewater containing oil products, effluents from paper production, silicate products factory, flax mill and agricultural wastewater GI Ivasenkov. Treatment of wastewater of agricultural origin with the participation of Eispotia sgazzirez I, G.I Vasenkov, T.P. Vasylyuk,

I.P. Budnik // Nauk. zap Ternopil national ped. university Ser. Biol. - 2010. - Mo 2 (43). - pp. 48-51).

The effectiveness of biological wastewater treatment depends on the condition and development of eichhornia splendifera (optimal temperature regime in the range of 15-35 "C, quality of lighting and other favorable parameters of development). In Ukraine, in the southeastern region, favorable conditions for the development of eichhornia splendifera begin at the end of April - mid-May months.

Planting higher aquatic plants in the specified period can have a negative impact on their development due to day-night changes in air temperature, waste water and the quality of natural lighting. As a result, the root system of the beautiful eichhornia develops slowly, sometimes the plants may die. It is necessary to additionally adapt the higher aquatic vegetation to the environmental conditions, which requires some time. Therefore, there was a need to accelerate the cultivation of higher aquatic plants for the biological treatment of wastewater at the sewage treatment plant.

A known method of wastewater treatment using higher aquatic plants (Patent No. 95279

of Ukraine, IPC (2006.01) СО2Е 3/32, СО2Е 11/02, СО2Е 101/10, СО2Е 101/20 "Method of wastewater treatment using higher aquatic plants" 09/25/2012, Byul. Mo 18). Higher aquatic plants are placed in a vertical plastic module with holes, in which the root system is located inside the module and the stems and leaves are outside. The module is installed in a greenhouse, in which the temperature regime, photoperiod and lighting quality are adjusted. Waste water is fed into the irrigation chamber, which is located in the upper part of the module, and passing through a vertical trunk with plant roots, the water enters the receiving chamber. From the receiving chamber, purified wastewater is discharged through a control well to a reservoir or groundwater flow. By

Due to the insufficient quality of cleaning, as well as after carrying out technological processes, they are returned to the head of treatment facilities for repeated cleaning.

The disadvantage of the method is that wastewater treatment with the help of higher aquatic plants is carried out in a greenhouse. The method cannot be applied in existing engineering treatment facilities, the area of which reaches 250--500 m". The construction of an additional greenhouse for existing treatment facilities requires significant material costs. In addition, the root system of higher aquatic plants is not immobilized by microorganisms and hydrobionts of activated sludge, which reduces the efficiency wastewater treatment.

Signs common to the analogue are: - higher aquatic plants with a root system; - lighting; - waste water; - capacity (irrigation chamber).

The closest analogue is the method of biological treatment of stormwater wastewater (Patent

Mo 99685 of Ukraine, IPC (2015.01): СО2Е 3/00 (2006.01) СО2Е 3/02 (2006.01) СО2Е 3/10, "Method of biological treatment of stormwater wastewater" 25.03.2015, Byul. Mo b), which is accepted as a prototype.

The method includes a container in which wastewater is purified under aerobic conditions by microorganisms on a fibrous carrier, fixed to a supporting carrier in the form of a raft with additional buoyancy, which has a perforated bottom. The roach is placed in the aeration tank of sewage treatment plants to immobilize activated sludge microorganisms on a fibrous carrier for 0.5--1.0 months.

After that, the roaches with immobilized microorganisms on the carrier are removed from the aeration tank and placed at the beginning of the storm drains in the basins of the treatment facilities, and the following additional roaches are placed after the roaches with the immobilized microorganisms on the carrier in the storm wastewater along the basin for additional immobilization of microorganisms for 12-16 days on a fibrous carrier. After that, in the holes of the perforated bottom of the roaches submerged in water, higher aquatic vegetation is planted, for example, eichhornia beautiful in the amount of 3-5 plants per water surface of the roaches, with an area of 0.48-0.50 m2. After the growing season, excess plant biomass of higher aquatic plants of water hyacinth (Eichhornia splendifera) is collected from the water surface of roaches, and then the control of plant biomass is carried out to ensure that the content of harmful toxic substances in them exceeds the MPC, and non-toxic plant biomass is transferred to farms as feed for farm animals . Roaches are fixed in the pool with the help of elongated halyards with balancers to the side walls, at a distance from each other along their perimeter with a step (n), 0.5--1.0 m.

The disadvantage of the method is that it does not ensure the reliability of growing higher aquatic plants for biological wastewater treatment. Higher aquatic plants are used when the temperature and lighting regime for their development is insufficient. Higher aquatic plants are planted in the sewage treatment plant late. They are waiting for the establishment of favorable environmental conditions for the optimal development of higher aquatic plants. As a result, the time and efficiency of biological wastewater treatment is lost.

Signs common to the analogue are: - container with water; - aerobic conditions; - fibrous carrier; - immobilization of microorganisms on a fibrous carrier; - a higher aquatic plant.

The basis of a useful model is the task of developing a method of accelerated cultivation of higher aquatic plants for the biological treatment of wastewater, which would allow to increase the efficiency of industrial and domestic wastewater treatment of a treatment plant by pre-planting higher aquatic plants in a ballast tank for the development of their root system and its subsequent immobilization microorganisms and hydrobionts of activated sludge.

The essential features of the method are: - container with water; - aerobic conditions; - fibrous carrier; - immobilization of microorganisms and hydrobionts on a fibrous carrier; - a higher aquatic plant (Eisppogpia sgazvzirev); - planting higher aquatic plants in the water environment of the container before planting them in the waste water of the treatment plant; - additional intense illumination of higher aquatic plants at night with polarized light 0.24--0.30 lux; feeding higher aquatic plants with biogenic elements; - loading the artificial fibrous carrier with the necessary immobilized microorganisms and hydrobionts into the container; - immobilization by microorganisms and hydrobionts of the root system (natural carrier) of higher aquatic plants (Eisprotia sgavzvzirev); - removal of higher aquatic plants from the container and planting them in the waste water of the treatment plant; - growing higher aquatic plants in a container for 12-14 days; use of biogenic elements - bird droppings, 30--40 g per 1 liter of water for feeding higher aquatic plants.

Distinctive features of the method are: - planting higher aquatic plants in the water environment of the container before planting them in the waste water of the sewage treatment plant; - additional intense illumination of higher aquatic plants at night with polarized light 0.24--0.30 lux; - feeding higher aquatic plants with biogenic elements; - loading the artificial fibrous carrier with the necessary immobilized microorganisms and hydrobionts into the container; - immobilization by microorganisms and hydrobionts of the root system (natural carrier) of higher aquatic plants (Eisprotia sgavzvzirev); - removal of higher aquatic plants from the container and planting them in the waste water of the treatment plant; - growing higher aquatic plants in a container for 12-14 days; - use of biogenic elements - bird droppings, 30-40 g per 1 liter of water for feeding higher aquatic plants.

The essence of the proposed method of growing higher aquatic plants for biological wastewater treatment is as follows. Planting of higher aquatic plants is carried out in a container with water in aerobic conditions with immobilization of microorganisms and hydrobionts on their root system.

According to a useful model, the planting of higher aquatic plants (Eichhornia bella) in the water environment of the container is carried out before they are planted in the waste water of the treatment plant.

The container is placed in a greenhouse where the temperature regime and lighting quality are adjusted. because the temperature regime of the surrounding and water environment of the container is maintained at a temperature not higher than 17 "C and not higher than 35 "C. The planted higher aquatic plants are kept in the container for 12-14 days and at night they are additionally intensively illuminated with polarized light of 0.24-0.30 lux. In addition, for the optimal development of the root system of higher aquatic plants, they are fed with biogenic elements, for which bird droppings are used - 30--40 g per 1 liter of water. After that, a fibrous carrier with the necessary immobilized microorganisms and hydrobionts of activated sludge with an average biomass of 12,800-13,000 mg/l is loaded into the water medium of the container, and the microorganisms and hydrobionts are immobilized on the root system (natural carrier) of higher aquatic plants. The immobilized microorganisms and hydrobionts of activated sludge on the root system of higher aquatic plants are further used for the biological treatment of wastewater at the sewage treatment plant. After immobilization of microorganisms and hydrobionts on the root system of higher aquatic plants, they are removed from the container and planted in the wastewater of the treatment plant.

The implementation of the proposed method is carried out in a separate container with water, where higher aquatic plants develop optimally. The optimal development of higher aquatic plants is achieved due to additional lighting and feeding with biogenic elements - bird droppings, which contains 95% of the dry matter of biomass: organic matter - 76.0--77.0; nitrogen - 2.3-5.7; phosphorus - 1.0-2.7; potassium - 1.0-2.9; calcium - 5.6--11.6; magnesium - 0.9--1.1 and other nutrients.

The necessary (specialized) strains of bacteria listed in the table are used as activated sludge microorganisms, which later immobilize on the root system of higher aquatic plants.

Table

Rzeidotopaz 5 years. VKPM B - 3780,

Vasiyiz Ispepitogitikh VKPM B - 3779, Phenol, methanol, formaldehyde.

Vasiiy5 tedaiegisht VKPM B - 3778

Musobasiegisht 5 years IZH-4,

Musobasietiit Pamezsepv,

Apodososyvz 5 years 56 0/4, Petroleum products.

Asipegobasieg 5 years NB-1

Kosypa Gozea, Kosytiaroiviiv5,

Rzepdotopazv zeipepiirgaesiritapv, Surface-active substances.

Rgoyeiz mcyYidagiv, Ziarnuiosossiv magtpea A.

The proposed method of accelerated cultivation of higher aquatic plants for the biological treatment of wastewater, in comparison with known basic methods, makes it possible to effectively grow higher aquatic plants under optimal environmental conditions for them. Effective treatment of industrial and domestic wastewater at the sewage treatment plant is achieved by pre-planting higher aquatic plants in a ballast tank for the development of their root system and subsequent immobilization of it by microorganisms and hydrobionts of activated sludge.

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Claims (2)

USEFUL MODEL FORMULA 1. The method of accelerated cultivation of higher aquatic plants for the biological treatment of wastewater, which uses a container with water, aerobic conditions, higher aquatic plants (Eisppogpia stgazvzirev), immobilized microorganisms on a fibrous carrier, which differs in that before planting higher aquatic plants in the sewage water of the sewage treatment plant, they are planted in the water environment of the container for 12-14 days, and at night they are additionally intensively illuminated with polarized light of 0.24--0.30 lux, and they are fed with biogenic elements, and then a fibrous carrier with the necessary nutrients is loaded into the container with immobilized microorganisms and hydrobionts of activated sludge and carry out immobilization of microorganisms and hydrobionts on the root system of higher aquatic plants (Eispiogpia stazzirev), after which higher aquatic plants are removed from the container and planted in the waste water of the treatment plant. 2. The method according to claim 1, which differs in that bird droppings are used as biogenic elements, 30--40 g per 1 liter of water for feeding higher aquatic plants in the container.