SU1061780A1 - Method of concentration of phytoplankton - Google Patents

Abstract

A METHOD OF CONCENTRATION OF PHYTO-PLANKTON In an aqueous medium, which involves the introduction of a precipitating agent into the suspension of microalgae, which is characterized in that, in order to reduce the complexity of the process, improve the quality of the biomass, ensure a more complete sedimentation and increase the yield of the biomass, increase the quality of the biomass, ensure the sedimentation of the biomass, increase the yield of the process, increase the quality of the biomass and increase the yield of the biomass. rotifer from the genus Brachipnus, which is administered in the amount of ml with a density of 150-200 ind / ml per 1 l of microalgae suspension, while the concentration process is carried out at the temperature of the suspension and 34-38 ° C under its lighting conditions.

Description

00 The invention relates to hydrobiology, in particular to methods for concentrating phytoplankton in an aquatic environment and can be used to increase the productivity of reservoirs. The known method of phytoplankton deposition involves creating an electric field in an aquatic environment, under the action of which the phytoplankton ionizes and deposits on plates with a positive charge of electricity III. However, this method is time consuming and requires a lot of electricity for its implementation. There is a known method for the concentration of phytoplankton, according to which a precipitating agent — coagulant sodium chloride — is introduced into an aqueous medium with microalgae to create saline pacTBopia with a concentration sufficient to make up phytoplankton sd. In addition, under the action of chlorine sodium, phytoplankton cells undergo lurphological changes (shrink) and their color changes, which degrades the quality of the biomass. , ; . ; y . . A method is also known for the concentration of phytoplankton, which involves the use of aluminum sulphate or polyethylamine as a precipitating agent with simultaneous feeding into the aqueous medium with microalgae of a supersaturated solution in water in water h. However, with these methods, coagulant does not provide a sufficient completeness of phytoplankton concentration. The closest to the proposed technical essence is the phytoplankton concentration, which provides for the introduction of a precipitating agent into the microalgae suspension - {4. In a known method, sodium sulfide is used as a precipitating agent in the amount of 4-5 ml per 1 l of the suspension being processed, after which the suspension with the precipitating agent is thoroughly mixed. For neutralization, perhydrol is used, under the action of which sodium sulfide is oxidized to sodium sulfite. A disadvantage of the known method is that, as a result of its use, incomplete precipitation of phytoplankton occurs and contamination of the biomass obtained to the precipitating agent 4, which leads to a decrease in its quality. In addition, the method is laborious, as it requires the mandatory neutralization of water. The aim of the invention is to reduce the laboriousness of the process, improve the quality of biomass, ensure its more complete precipitation and thus increase biomass yield. The goal is achieved by the fact that according to the method of phytoplankton concentration, which involves introducing a precipitating agent into the microalgae suspension, a culture of plankton rotifers of the genus Brachionus is used as a precipitating agent, with a density of 150-200 ind / ml per 1 l suspension of microalgae, while the concentration process is carried out at a temperature of the suspension 34-98 s in conditions of its illumination. The method is carried out as follows. In tanks in which in water. Phytoplankton, such as microalga chlorella, is grown in the environment, rotifers of the genus Brachionus, for example (Brachio us cafcycifEorus), which can be obtained under natural conditions from shallow water bodies, are introduced. The rotifer culture is introduced in an amount of 50-60 ml with a density of 150-200 ind / ml per 1 l of the suspension being processed and the process is carried out under illumination of the medium and a temperature of 34-38 ° C. Trying to ensure for their viability the optimal amount of oxygen in the medium, rotifers intensively pass phytoplankton cells through their rotation apparatus, with the result that cells 1 open up. slime and stick together with each other, forming a flake deposited on the bottom of the tank. T Deposition starts 15-20 minutes after the culture of the collar is set. After 1.5 h, 100% of the phytoplankton biomass in the water is deposited. After this, the upper transparent layer of the aqueous medium with rotifers is drained into another container and compressed, if necessary, for further use, and the phytoplankton biomass is discharged. Biomass unloading can be facilitated by using tanks with a conical bottom. Concentrated phytoplankton may contain some amount of rotifers, which increases the overall biomass yield. Example 1. Rotifers from the genus Brachionus-B are cultured with a chlorella microalgae suspension tank. caiycifKorus in the amount of 50 ml with a density of 150 ind / ml. l suspension. Suspension of microalgae with rotifer culture

They are sunshade when exposed to sunlight and ZB ° C.

Under these conditions, the precipitation of microalgae begins 20 minutes after the introduction of rotifers and after 1.5 hours, 100% precipitation of chlorella occurs. After sedimentation, the transparent upper layer of water with the remaining rotifers is drained for further use, and the microalgae biomass is discharged.

If necessary, rotifers removed from the tank along with microalgae are separated by filtration through mill gas No. 61.

EXAMPLE 2 The method is carried out. according to example 1. However, rotifers were injected in the amount of 100 ml per 1 liter of microalgae suspension. The start of sedimentation of microalgae occurred after 15 minutes, however, complete precipitation occurred as in Example 1 after 1.5 hours, which indicates that it is not advisable to increase the number of rotifers introduced.

The table shows the data on char / koku euusha decrease in the time of sedimentation of chlorella with an increase in the number of introduced rotifer culture under the conditions of example 1.

The results show that with solar light and a temperature of 34-38 ° C to precipitate 1 liter of chlorella suspension, the optimum amount of rotifer culture lies in the range of 50-60 ml and a further increase in the input of rotifer culture O can affect the microalgae deposition rate.

The proposed method allows to increase the biomass yield of microalgae by 15–20% compared with the known methods.

the deposition of a biological agent allows to ensure the ecological purity of the method and to obtain biomass not contaminated by chemical substances, which is very important when using it for feed for fish and cattle.

The cost of implementing the method is reduced practically to the extraction of rotifers from small standing reservoirs or to their cultivation in cell culture, chatkov bacteria.

Claims (1)

METHOD FOR CONCENTRATION OF PHYTO – PLANKTON in an aqueous medium, which involves introducing a precipitating agent into the microalgae suspension, characterized in that, in order to reduce the complexity of the process, improve the quality of biomass, ensure more complete sedimentation and thereby increase the yield of biomass; as a precipitating agent, a culture of plankton rotifers from the genus Brachipnus is used, which is introduced in an amount of 50 * 60 ml with a density of 150-200 ind / ml per 1 liter of microalgae suspension, while the concentration process is carried out at a suspension temperature of 34-38 ^ 0 under about yah her lighting. |.