RU2060656C1 - Method for fish rearing in ponds - Google Patents

Abstract

FIELD: commercial salmon rearing in farms using waste heat of energy releasing objects. SUBSTANCE: method involves setting objects to be grown in different groups of ponds; creating hydrochemical conditions by supplying water having temperature of 24-26 C with specific flow rate of 70-80 cu.m/g per ton of product relative to yearly fish production capacity of farm ; feeding fish and catching grown fish. Water consumption for groups of ponds is selected in accordance with ratio: G_sp.= G $\genfrac{}{}{0ex}{}{\text{p}}{\text{sp}}$ +G $\genfrac{}{}{0ex}{}{\text{p}}{\text{sp}}$ +G $\genfrac{}{}{0ex}{}{\text{p}}{\text{sp}}$ ,, where G_sp. is specific water flow rate per ton of product for fish farm; G $\genfrac{}{}{0ex}{}{\text{p.}}{\text{sp.}}$ = 0,315G_sp.-specific water flow rate in young fish pond; G $\genfrac{}{}{0ex}{}{\text{p.}}{\text{sp.}}$ = 0,315G_sp. is specific water flow rate in fry ponds for product batch weight; G $\genfrac{}{}{0ex}{}{\text{p.}}{\text{sp.}}$ = 0,37G _sp. is specific water flow rate in finishing ponds. EFFECT: increased capacity and improved quality of product.

Description

 The invention relates to industrial warm-water breeding of mainly sturgeon (sturgeon, bester, beluga) and can be used in industrial-type basin farms that utilize waste heat from energy-generating objects.

Known methods of growing fish in ponds, cages and swimming pools, including landing fish, feeding with feed dispensers during the period of detention and selective capture of marketable products by size [1]
The disadvantages of the known methods include the difficulty in organizing feeding due to food competition between individuals of different sizes, due to the content in the reservoir of different age objects of cultivation.

The closest in technical essence and the achieved effect is a method of growing fish in pond farms, including the breakdown of ponds into groups, planting fish in various groups of ponds, creating a hygrochemical regime, feeding and catching commercial products [2]
The disadvantages of this method include the impossibility of creating an optimal hygrochemical regime for sturgeon cultivation, due to increased sturgeon requirements for the concentration of dissolved oxygen and water quality, which determine the fish productivity of the economy.

 The objective of the invention is to remedy these shortcomings and increase fish productivity of the economy by creating the optimal hygrochemical regime.

The problem is solved in that in the method of raising fish comprising landing uneven growing objects in different groups pools, creating hydrochemical regime, feeding and trapping of commodity products, hydrochemical regime create water flow with a temperature of 24-28 ^{° C} and a specific rate of 70-80 m ³ / h per ton of marketable products from the annual fish production capacity of the economy, while the water flow rate for various groups of pools is chosen from the ratio
G _beats G $\genfrac{}{}{0ex}{}{\text{m}}{\text{beats}}$ + G $\genfrac{}{}{0ex}{}{\text{lm}}{\text{beats}}$ + G _beats ^etc , where G _beats 70-80 m ³ / h · t specific water consumption per ton of marketable products for the entire basin economy;
G $\genfrac{}{}{0ex}{}{\text{m}}{\text{beats}}$ _Ud = 0,315G specific consumption of water in pools for growing juveniles to 3-6 g;
G $\genfrac{}{}{0ex}{}{\text{m}}{\text{beats}}$ = 0.315G _beats - specific consumption of water in pools for growing planting material up to 120 g per commodity sample;
G $\genfrac{}{}{0ex}{}{\text{etc.}}{\text{beats}}$ = 0,37G _beats the specific consumption of water in pools for growing marketable products to 1500-2500, the

 The solution to this problem is really possible, since experimentally determined costs and their ratios used in conjunction with the basic fisheries regulations governing the technology of industrial production of commercial sturgeon (the density of planting of juveniles and average commercial weight, yield, etc.), as well as accepted water temperatures for sturgeon cultivation in basins with water supply with waste thermal waters (Kozlov VI and Abramovich LF Commodity sturgeon breeding. M. Rosselkhozizdat, 1986) allow you to divide the fish growing into technological stages with the achievement at the end of each optimal ichthyomass. In case of synchronous transfer of fish from one weight group to another and transfer to the appropriate pools from the end link of the technological scheme, the principle of continuous production is implemented, which ensures uniform distribution of marketable products during the calendar year with fish productivity of up to 500 t / ha.

 The proposed method of cultivation can be illustrated by the example of commercial cultivation of beluga in the farm with a capacity of 50 tons / year.

To determine the total water consumption at the optimal hygrochemical mode, choose the average value from the range of the specified specific consumption of 75 m ³ / h · t. then the total water consumption will be 75 m ³ / t · hx50 t 3750 m ³ / h.

In accordance with the above ratio
the water consumption of fish tanks for rearing juveniles up to 3-6 g will be
3750x0.315 1181.25 m ³ / h;
water consumption of fish tank for growing planting material up to 120 g per commodity weighed
3750x0.315 = 1181.25 m ³ / h;
water consumption of fish tanks for the cultivation of marketable products up to 1500-2500 g
3750x0.37 1387.5 m ³ / h.

Accepting water exchange in containers equal to 20 min, and standard sizes and parameters of pools (volume 36 m ³ , area 30 m ² ), we obtain the total number of pools divided into groups
(11 + 11 + 13) 35 pools.

Fish are planted in the corresponding groups of pools, taking into account the basic planting densities and the normative yield of cultivation objects (see the above book "Commodity sturgeon breeding") in such a way that at the time of landing, pieces are contained in different groups of pools. One-day larvae 338350 Germinated juveniles up to 3-6 g 67670 Planting stock up to 120 g 47369 Commercial products 36000
Feeding in the period of maintenance is carried out by trout compound feed with a feed cost of one kilogram of growth equal to 4.

Claims (1)

A method of growing fish, mainly sturgeon, in swimming pools, including planting different-sized growing objects in different groups of pools, creating a hydrochemical regime in them, feeding and trapping commercial products, characterized in that the hydrochemical regime is created by supplying water with a temperature of 24 ^{° to} 28 ^° C and a specific consumption of 70 80 m ³ / h per 1 ton of marketable products from the annual fish production capacity of the farm, while the water flow rate for various groups of pools is selected from the ratio
G _in G _{m d. y d} + G _{p . m. y d} + G _{t . n . y d}
where G _{y d} specific water consumption per 1 ton of marketable products for the whole economy;
G _{m. y d} 0.315 G _{y d} specific consumption of water in pools for rearing juveniles;
G _{n. m. y d} 0,315 G _{y d} - the specific consumption of water in the pools for growing planting material on a commercial basis;
G _{t. n . y d} 0.37 G _{y d} - the specific consumption of water in the pools for the cultivation of marketable products.