UA120644U - RECIRCULATION WATER SUPPLY TO GET ORGANIC PRODUCTS IN AQUACULTURE - Google Patents

Abstract

The device for recirculating water supply for organic production in aquaculture has a reservoir for growing hydrobionts, a light source, a compressor, an air sprayer, a pipeline system, a pump, a thin layer sump, a tank for cultivating plants. Additionally, the device has a tank with a dense planting of herbivorous fish, with the introduction of spirulina into their diet from a ratio of 10 ml per 100 liters of reservoir volume 1-2 times a week.

Description

The useful model belongs to devices intended for intensive cultivation of hydrobionts and plants in closed water supply systems (devices). This device can be used in fish farming, greenhouse farming, fishing (for long-term maintenance of live caught fish), as well as trade and other sectors of the national economy, where it is necessary to store live hydrobionts for a long time and grow plants.

A well-known closed water supply device (Y.A. Pryvezentsev. Breeding of fish in small ponds. - M. "Kolos", 2000. - 126 s. containing a tank designed to hold hydrobionts, filters for cleaning water from waste products of living organisms, pumping equipment.

The disadvantage is high energy consumption.

The closest in essence and the result that is achieved is a recirculation water supply device (ША 74880 АО1ТК 63/04; АОС: 33/00; АОТО: 31/00)|), which contains a tank, a light source, a compressor, an air atomizer, and a pipeline system , pump, thin-layer settling tank.

The disadvantage is low performance.

The problem solved by the declared useful model is the unification of the design, the exclusion of the use of chemicals for the cultivation of hydrobionts and plants.

This result is achieved by the fact that the system includes a tank with a dense planting of herbivorous fish, with the introduction of spirulina into their diet.

The general features of the claimed device are a tank for growing hydrobionts, a light source, a compressor, an air atomizer, a piping system, a pump, a thin-layer settling tank, and a tank for cultivating plants.

A distinctive feature of the claimed device is that the system includes a tank with a dense planting of herbivorous fish, with the introduction of spirulina into their diet at a ratio of 10 ml per 100 l of tank volume 1-2 times a week.

The essence of the claimed useful model does not clearly follow from the prior art known to the authors.

A set of features characterizing known solutions does not ensure the achievement of new results, and only the presence of the above-mentioned distinguishing features provides a new, higher technical result.

The utility model is explained by the drawing, which shows the scheme of the claimed device.

The closed water supply installation has tank 1 for cultivating hydrobionts, mechanical 2 and biological C filters, pump 4, tanks with plants (lettuce leaves, strawberries, vegetables, etc.) 5, column for ozonation b and ozonator 7, column for aeration 8, water supply line of purified water 9.

The device works as follows.

The reservoir with hydrobionts is filled with water, the water flows to the gravel tanks 5, where lettuce leaves, vegetables, etc. are cultivated, from the containers, the water flows to the mechanical 2 and biological 3 filters, after which the purified water is fed by the pump 4 to the columns 6,8, where it is ozonated and enriched with oxygen - aerated. After passing successive levels of purification, the water enters the tank with hydrobionts 1. During the entire cycle, at each stage, the plants "accumulate" the necessary amount of organic substances 3 of the water after the vital activity of the hydrobionts, the water is gradually purified by filters on the circulation path and again enters the tank 1.

The waste products of fish contain nutrients for plants and are not toxic to the fish themselves. Plants absorb these substances, which provides them with the necessary nutrition, and thereby cleans the water for fish (at the same time, plants and fish grow more actively). The purified water is returned to the fish, then the cycle repeats. In this case, the most common expanded clay or gravel is used as soil for plants.

Plants and expanded clay play the role of a biological filter. In this regard, it is possible to increase the number of fish kept in the tank without the risk of their disease or poisoning by waste products. Water is added only as plants absorb, evaporate into the air, or remove biomass from the system.

Fish waste is an excellent natural fertilizer for vegetables or flowers. The yield is significantly increased and fruit ripening is accelerated. In tomatoes grown on aquaponics, the content of nitrates is usually five to ten times lower than in the best ground tomatoes, and the taste and aroma are in no way inferior. In the process of their vital activity, fish emit a large amount of ammonia into the water. Ammonia is dangerous for fish, but bacteria that settle in the substrate (keramsite, gravel, etc.) process ammonia into less safe nitrite, and bacteria process nitrite into nitrate. Nitrate, in turn, is consumed by plants, providing fish with clean water (symbiosis). 60 Therefore, there is no need to introduce chemical elements, but you only need to periodically feed the fish.

An experimental sample of a closed water supply device for the combined intensive cultivation of hydrobionts and plants was manufactured and tested in the laboratory conditions of the Dnipropetrovsk State Agrarian and Economic University, and is undergoing production inspection at Bastion PJSC.

The proposed useful model can be repeatedly reproduced and used as a recirculation water supply device for obtaining organic products.

Claims (1)

UTILITY MODEL FORMULA A recirculating water supply device for obtaining organic products in aquaculture, comprising a tank for growing hydrobionts, a light source, a compressor, an air atomizer, a piping system, a pump, a thin-layer settling tank, a tank for cultivating plants, characterized in that it additionally has a tank with dense planting of herbivorous fish, with the introduction of spirulina into their diet at a ratio of 10 ml per 100 l of tank volume 1-2 times a week. 020534 TYA - pglei 323-856... 1 EV and 8. 8 e !