SU1026731A1 - Unit for keeping aqueous organisms - Google Patents

Abstract

I. INSTALLATION FOR THE CONTENT OF WATER ORGANISMS, including a reservoir for organisms, a water tank with an aerating device, a water quality control system and a water circuit with a pump and control elements, characterized in that in order to be able to determine the change in concentration of substances during movement due to physicochemical and biochemical processes, it is equipped with an additional tank for water, and the tank is made in the form of a tray formed by at least two straight-line sections, between each other is a curvilinear section, with both containers mounted under the ends of the rectilinear sections of the tray, and the circulation circuit is connected to water tanks. 2. Installation according to claim 1, characterized in that, in order to change the hydrodynamic conditions during fluid movement, the tray and the water tank are provided with lifting devices. 1C 05 with

Description

The invention relates to biology, in particular, to installations for the maintenance of aquatic organisms, and can be applied in studying the processes of self-purification of water. There is a known installation for the maintenance of aquatic organisms, including a reservoir for organisms, a reservoir for water, and a water circulation system 1. However, this design the installation does not allow its use even for an approximate study of the change in the concentration of substances in both water courses and aquatic organisms. Closest to the proposed technical essence and the achieved effect is an installation for the maintenance of aquatic organisms, including a reservoir for organisms, a tank for water with an aerating device, a system for monitoring water quality, and a water circuit with a pump and regulating elements. The facility is used to determine the effect of metal ions on aquatic organisms under controlled conditions and it provides for the creation of intervals of water flow rates that are identical to water flow rates in natural watercourses, for simultaneously keeping living organisms at optimal water flow rates 2. it is impossible to determine the change in the concentration of substances in watercourses under the influence of both living organisms and physicochemical processes occurring in water, since the time of passage of water it is very limited through the reservoir, and the hydraulic conditions of the flow cannot be reproduced in the reservoir even on an approximate scale. The purpose of the invention is the ability to determine the change in the concentration of substances during the movement of water due to physicochemical and biochemical processes. The objective is achieved in that the installation for keeping aquatic organisms, including a tank for organisms, a tank for water with an aerating device, a system for monitoring water quality and a water circuit with a pump and regulating elements, is provided with an additional tank for water, and the tank is designed as a tray formed by at least two linear portions, interconnected by a curvilinear shape, with both containers mounted under the ends of the straight sections of the tray, and the circulation loop and connected to water tanks. In addition, for changing the hydrodynamic conditions of the fluid when the fluid is moving, the tray and the water tank are equipped with lifting devices. The drawing shows an installation for keeping aquatic organisms, a general view. The installation for the maintenance of aquatic organisms includes a reservoir for organisms made in the form of tray 1 formed by two rectilinear sections interconnected by a curvilinear section, two tanks for water 2 and 3, one of which, the container 2 is equipped with an aerating device 4, and the water circuit containing the pump 5, the pressure pipe 6 connected to the tank 2, and the suction pipe 7 connected to the tank 3, while the flow meter 8 and the regulating element are installed on the pressure pipe 6 9, and a regulating element 10 on the suction pipe 7. For emptying the circulation loop, a branch 11 with shut-off valves 12 is provided. Tray 1 and containers 2 and 3 are mounted on supports 13 and 14 having lifting devices 15 and 16. representing for example, jacks. The quality control of water in tray 1 is carried out by a monitoring system 17, which may contain temperature meters and dissolved oxygen, sensors for the active reaction of water with a pH meter, and other instruments. The intensification of the biomass buildup of aquatic organisms is accomplished by illuminating tray 1 with fluorescent lamps 18. Tray 1 is made of neutral, non-oxidizable and non-extractive materials, to which aquatic organisms are well attached, for example glass. The dimensions of tray 1 are determined based on the fact that the movement of the waste liquid is subject to hydrodynamic conditions, the modeling of which is well developed and based on the similarity theory. The scaling factors (ot) in the approximate modeling are determined on the basis of the Froude criterion from the relation 1; C (- dp where; d (o; j; oc ,,; s. A (a, cj), respectively, the scaling coefficients of water consumption, the width of the watercourse channel, the depth of the channel, the speed of water movement, time, acceleration, channel area. Taking into account that the transformation of substances in a watercourse is influenced mainly by physicochemical and biochemical processes, the flow of which is mainly influenced by the speed of water movement and time, the scale factor of the speed of water movement (o (y1 | must be equal to one, i.e. the speed at the installation and in the watercourse should be the same. Then, The total ratios take the form l, l 1 The received scale factors for simulating the installation introduce distortions into hydrodynamic conditions, but they do not have a significant effect on the change in the concentrations of water in the water, since the determining factors are water velocity and time and the processes of transfer of matter and heat in the watercourse proceed with reduced intensity and speed. The proposed installation works as follows. Tray 1, the width and depth of which is determined using scale factors, lifting device 16 gives the necessary slope in accordance with the given hydrodynamic parameters. Tray 1 is filled with water that is identical to the water in the river bed. Then, using the circulation circuit, water moves along the ring: tank 3 — suction pipe 7 — pump 5 — pressure pipe 6 — tank 2 — tray 1 — tank 3. The water flow is controlled by elements 9 and 10 and measured by a flow meter 8. Thereafter as in tray 1 the constant hydrodynamic regime is established, aquatic organisms are introduced into it. In order to intensify the growth of biomass, tank 2 is supplied with device 4 compressed air for aeration of water and round-the-clock illumination of tray 1 is carried out with fluorescent lamps 18. Periodically monitor the growth of biomass. When there is approximately as much biomass per unit volume of water in a reservoir. How much is per unit volume of water in the river bed is the installation calibrated. For this purpose, check points are selected on the studied watercourse, the speed and time of movement of water in these cross sections are determined. In the installation of the water supply from the initial range. The time is taken for which the water quality indicators at the installation of the station1 1 are new and equal to the water quality indicators in the river control chamber. Knowing the time of passage of water between the control stations of the river (T,) and the time of circulation of water in the installation (1 "), for which the indicators of the water quality in the installation become equal to the indicators of the quality of water in the control section, find the time scale equal to Then proceed directly to the experiments. Water is supplied to the installation reservoir, which is a mixture of river water and purified waste water in predetermined ratios. This mixture begins to circulate in the installation. After a certain period of time, the indicators of water quality, the concentration of substances in the water are determined. The speed of water in the installation is the same as in the river. Knowing the distance from the place of the proposed discharge of wastewater to the water use station, using the scale factor of time, an over - count is taken: how much time should the water in the installation circulate. After this time has elapsed, the concentration of substances in the installation is determined and their compliance with the maximum permissible concentrations of these substances at the water use site is checked. In the event of inconsistencies, the amount of discharged wastewater is reduced or the degree of wastewater treatment is increased. Water of any quality can be supplied to the plant, the transformation of substances in which they want to be studied. Thus, the proposed installation with the help of aquatic organisms placed in it is applicable to the study of self-purification processes occurring in a watercourse under controlled conditions of the aquatic environment. The installation allows to determine the effect of wastewater on the processes occurring in water courses and serves as a solution. problems of combating pollution of water bodies. In addition, the installation can be used to determine changes in the biocenosis of aquatic organisms under the influence of wastewater of different composition or individual chemical compounds.

Claims (2)

1. INSTALLATION FOR CONTAINING WATER BODIES, including a reservoir for organisms, a water tank with an aeration device, a water quality control system and a water circulation loop with a pump and control elements, characterized in that, in order to be able to determine the change in the concentration of substances during water movement due to physico-chemical and biochemical processes, it is equipped with an additional water tank, and the tank is made in the form of a tray formed by at least two straight sections, connected between each other with a curvilinear shape, with both containers installed under the ends of the rectilinear sections of the tray, and the circulation circuit is connected to water tanks. 2. Installation according to claim 1, characterized in that, in order to change the hydrodynamic conditions when the fluid moves, the tray and the water tank are equipped with lifting devices. SU .... 1026731