SU925279A1 - Method and device for growing alive fodder for fishes - Google Patents

Description

of the organism under study and an increase in the sagym's output of X11v x feed.

In order to implement the unallocated target: in the method of extracting live feeds, involving the release of microalgae, which is a nutrient medium for live feeds, controlled feeding of the nutrient medium to the cultivator with live feeds and selection of the nutrient medium further determines the concentration of the nutrient medium in the cultivator according to its optical density , and the regulation of the supply of the nutrient medium is carried out depending on the data obtained, while simultaneously increasing the intensity of growing the nutrient medium in accordance with with its consumption in the cultivator.

A known plant for growing live feed is an open concrete pool filled with water I.

In the pool at the same time there is a cultivation of microalgae and live feed. Eating fodder and manuscripts is manual, catching them with a net. Similarly, manual yeast is applied to the pool and fertilizer.

The use of the plant is related, as it is said above, with the cost of manual labor, and, in addition, the cultivation of feed depends on weather conditions.

A plant for growing live fish feed is also known, comprising an inoculum with microalgae light sources and a live feed cultivator connected by a pipeline for discharging the microalgae suspension 2.

In such a plant, there is no provision for regulating the supply of the suspension to the cultivator, as well as the automatic selection of feed as it grows.

Closest to the proposed technical entity is a plant for growing live feed for fish, including a nodule with a source of light for microalgae, a feed cultivator, a device for selecting live feed and a control unit 3.

The installation has metering devices for controlled feeding of the nutrient medium into the cultivator, which are controlled by a time relay and software device included in the control unit, and the dose is set in advance, based on the nutrient requirements of the food organisms. Such regulation of the nutrient medium dose leads to the fact that if the growth rate of live food organisms exceeds the calculated one, their starvation may occur, and if the nutrient medium is introduced in an excess amount, the hydrochemical regime and its utilization rates may deteriorate. All this ultimately leads: to the production of live food culture and their output.

In addition, in a known installation, the intensity of the expression of nutrient src,; ь PS zav1; spt from its consumption.

The goal of the proposed setup is to create optimal conditions for breeding organisms and thereby increase the yield of live food.

This goal is achieved by the fact that the installation comprising an inoculum with microalgae light sources is an imitative medium for live feed, a cultivator for live feed,

The device for the selection of live feeds and the control unit are additionally equipped with an optical density sensor installed in the cultivator and sensors Zfovi placed in the inoculum, and

the cultivator and inoculum are interconnected in a closed system through a pipeline for supplying the nutrient medium and a pipeline for discharging culture, on which control valves are installed, while the optical density sensor is connected to the input of the control unit, the outlets of the latter are connected to the control valve, smog) on the pipeline for feeding the nutrient medium and with light sources, and the level sensor is connected to a control valve mounted on the pipeline for discharging Tural fluid.

The proposed method is as follows.

Nutrient chlorella microalgae is grown.

environment for live feeds, when they are illuminated and circulated.

Part of the chlorella suspension is fed to the cultivator, where rotifers that are live food are grown.

for fish.

In the process of growing rotifers, the concentration of algae in the cultivator is determined, and their optical density is continuously measured.

With a decrease in optical density, which indicates that chlorella rotates eat, another portion of chlorella suspension is fed to the cultivator. At.

when the suspension arrives at the cultivator, the level of the culture liquid in it rises and part of the culture liquid merges, passing through the filter, on which rotifers remain, which

then used as live starter feed for fish larvae. In addition, the proposed method involves changing the power of the light sources illuminating the inoculum, depending on

Claims (3)

1. The guide of the fish farmer on the artificial breeding of commercial fish. Ed. Doctors of Biological Sciences, irof.N. I. Kozhina. M., “Pischeva nromyashchepnost, 1971, p. 157-158. 2. Kozlov V. I., Abramovich L. S. Guide fish farmer. M., Rosselkhozizdat, p. 73. 3. USSR author's certificate, YO 721043, cl. A 01 K 61/00, 1977 (proto-hy).