DD215332A1 - PROCESS FOR THE QUANTITATIVE OR PARTIAL SEDIMENTATION OF MICRO-ORGANISMS - Google Patents

Abstract

The invention "method for the quantitative or partial sedimentation of microorganisms" refers to the biomass production difficult to separate from their media microorganisms of various applications and is thus a method of biotechnology. It aims to recommend for these microorganisms a practicable sedimentation method in every dimension, which allows the quantitative or partial separation of the organisms from their medium with little effort, without changing their organismic character on the one hand and the character of the medium on the other. The invention is based on the application of calcium ions at pH values above 6 in such organism suspensions, wherein the organisms aggregate rapidly and then sediment as organisms flakes. Depending on the amount of calcium ions introduced, the sedimentation can be realized quantitatively or partially.

Description

A method for quantitative or partial sedimentation of microorganisms'

Field of application of the invention

Microbial biomass production, food technology, brewing, pharmacy, chemical, biochemical, biological laboratories, biotechnology

Characteristic of the known technical solutions

Microorganisms can be cultivated in aqueous mono- or multiphase liquid systems for the purpose of biomass production or for the production of their specific metabolites. In the technological process as well as in the laboratory, their quantitative separation is required continuously or discontinuously in order to obtain the desired biomass or to obtain it · Substantial processes are able to accomplish this task · The microorganisms can be separated from the medium by continuously or discontinuously operating centrifuges, obtained by filtration, sedimented by flocculation with aluminum sulphate, and then expanded by flotation Concentrate by means of biohydrolysates · However, these are very small microorganisms that grow

In addition, the methods mentioned generally lead to unsatisfactory results or completely fail. Thus, no more continuous centrifuges are used for coccal green algae and for medium and very small bacteria. Discontinuous centrifuging is possible but requires highest rotational speeds and then limited to small amounts of suspension · This results in a rapid increase in costs with increasing susceptibility to failure of highly loaded technical systems ·

Formal filters are able to produce particles with a purity of ice bases below 15 / WUiCbI; web * "Wptfofcft ^ iaiteb · special filters, such as" * _z * B * membrane filters are suitable to, but are correspondingly expensive, sophisticated to handle and to small suspension quantities limited The Plockung with aluminum salts sedimented smallest particles no longer quantitatively · Moreover, it is the so-flocculated biomass with a high salt content loaded · He let Although detach by acid treatment of the sediment, but this hät additional operations and significant changes of the biological material result _o flotation while allowing the foaming smallest particles, but does not operate quantitative and brings The biological material process-related with hydrophobic chemicals and detergents for foam formation in contacts By the method proposed in the patents DD 129 622, DD 145 279 and DE-OS 2 Ο63939 suspended particles can indeed sediment, but always with the use of 2 or more It is obvious, then, that for the separation of minute organisms with cell diameters below 15 / un and with a specific weight which is similar to that of water, it is obvious that

tative methods for their separation from the surrounding medium, which have only one active component, are not available ·

Object of the invention

The invention aims to recommend for such microorganisms that can be separated by conventional methods only at high cost or impairment of their biomass from the surrounding medium, a procedure that allows quantitative quantitative sedimentation of the biological material with minimal effort, the material up is not burdened, falsified or altered to its organismic nature and the medium to be separated from the microorganisms is only insignificantly influenced and therefore easy to correct.

Explanation of the essence of the invention

The invention has for its object to provide a method that causes quantitative or .partial sedimentation of otherwise difficult to separate microorganisms, without affecting the biological activity of a single substance under defined conditions, without affecting their biological activity, to change their organomic nature, their This object is achieved by introducing calcium ions into aqueous suspension of organisms, the proportion of which amounts to a maximum of 5% of the biomass to be precipitated.

At pH values above pH 6, normal pressure, reduced pressure or elevated pressure and temperatures of the treated suspension is between 5 ° and 50 ⁰ C, the cells of the microorganism suspension to aggregate under the influence of the calcium ions in large numbers, so that flaky structures are produced, the rapidly Soil sinking and finally forming a sediment distinct from the medium, consisting exclusively of the aggregated organisms, thus containing no crystalline Sübstanzanteil originating from the precipitant. "Turbulence reduces the resulting organisms flakes initially, but does not dissolve them. If the turbulence is suppressed, the flakes form again to large units whose diameter can reach several millimeters »These flakes can be removed immediately, but also after hours or even days as organisms sludge or from the supernatant medium on filters of low demand, by means of fine-mesh sieves or by slow centrifugation continuously The supernatant, after regeneration of the nutrients consumed in the cultivation process and after the associated correction of the pH value, can again be used as nutrient medium for a further generation of organism.

embodiments

1 embodiment

An underwater light fermentor is used for the autotrophic cultivation of developmentally synchronous cell material of the species Chlorella vulgaris, strain BÖHM / BORNS, 1972/1. After 8 hours of light and 4 hours of dark, it contains 1000 liters of a fully synchronous autosomal pore suspension with a dry matter content of 1 g / l and a car pore

8 3

Number of 10 cells per cm φ The pH of the inorganic composite nutrient medium is 6.9, the culture temperature 37 ⁰ C * It is operated under atmospheric pressure and gassed with air containing 2% CO ₂ . In order to achieve a quantitative sedimentation of the cell material, the permentor is charged with 50 g of calcium ions and further aerated. After 10 minutes, the ventilation is interrupted, the sedimentation of the pores aggregated into flakes begins 20 minutes after which the flocculated cells form a sharply demarcated from the medium Layer in the base part of the per- mentor, which can be easily separated from the nutrient medium as organism sludge _e The nutrient medium remains in the per- mentor, is regenerated and brought to a starting pH of 5.4 with HNOo, which also serves as N-quel-Ie The sludge can be filtered by filtering on technical filter paper for coarse precipitates, eg with paper grade 6 MN from VEB SpezialPapierfabrik Niederschlag, DDR, or grade 1406 from "Schleicher and Schuell, FRG, respectively" by centrifugation at low speed be further concentrated, or directly by mixing with carbohydrate-containing flours and follow Parts of the organism sludge can be completely deflocculated by acidification to a pH below 5.8 so that they can be used again as inoculum for culture purposes «

2 embodiment

Cell material of the species Chlorella fusca, vacuolata variety is cultivated in underwater Lichtfermentor as in 1 x Ausführungsbeiepiel synchronously, but the Kultivationstemperatur is only 33 ⁰ C · In order during the dark time

To avoid respiratory losses, at the end of the light period, the mature mother cells, the 2 g dry matter per liter

Cell suspension, brought to flocculation by calcium ions and sedimented · For a fermentor volume of 1 nr * 100 g of Ca ions are required. Since the culture has a pH of 5 »7, worked with CaCl ₂ « · and adjusted by means of concentrated NaOH required for the flocculation pH of 7.0. The flocked and sedimented cell material is either further processed concentrated or used as organisms as in 1, embodiment. · In order for the regeneration of the culture is ensured, a corresponding proportion of the organisms sludge is returned unchanged in the fermentor and there after adjusting the pH on 6,0 by means of ENT in the dark as usual for sporulation, so that at the end of the cultivation time there is an intact autosuspension suspension, with which a new cultivating cycle can be initiated * · ^ν ·

3β embodiment

The species Scenedesmus quadricauda is cultivated continuously in a sunlight artificial light fermenter, the optical density of the cell suspension being used as a guide parameter for dilution being adequate for increasing dry mass. The quasi-continuous harvest of the organism suspension takes place at the rate of the dilution steps and, according to the overflow principle, corresponds to the amount for dilution fed nutrient solution «. Since the cell suspension of the continuously accumulating crop has a pH of 5.7, the flocculation of the cell material is carried out by automatic supply of saturated calcium hydroxide, which contains 1.7 g of Ca (OH) ₂ per liter at 20 ^° C. and the pH Value of the cell suspension shifts to the basic range at 10%, so that the flocculation of the cell material is instantaneous.

Flocculated crop may be further concentrated as in Embodiments 1 and 2 or used directly as sludge of the organism ·

4 · Embodiment

In a discontinuously operating Permentor yeast cells of the species Saccharomyces cervisia at 30 ⁰ C and a pH of 3.8 cultured be at optimum oxygen supply by means of injected air as carbon source sugar beet molasses is "Uach appropriate cultivation time deliver the organisms 10 g! Dry matter per liter of cell suspension · By feeding 0.5 g of Ca ions per liter of cell suspension and modifying the pH to the neutral range via the calcium compound itself or additional treatment with UaOH or KOH, the flocculation of the yeast cells and their rapid sedimentation occur immediately when the aeration is discontinued. The separation of the cell material as an organism sludge and its further processing can be carried out similarly as in the previously outlined embodiments.

5th embodiment

One at 34 ⁰ C? and a pH of 3 _t 0 with glucose as a carbon source operated bacterial culture of the genus Micrococcus is vigorously aerated in the dark, so that after 16 hours, the cell count has increased to 5.10 ^ cells per cm ^ and the content of dry matter 3 »4 g per liter · Since Micrococcus species are very small cells and usually reach only cell diameters around or below 1yum, they can be centrifuged poorly and separated from the medium only with membrane filters. Therefore, the cell suspension becomes

Harvest date with 100 ml of calcium hydroxide per liter offset Thus, the suspension reaches pH values around 7, and the bacterial cells aggregate into flakes so that they can be centrifuged at low speeds quantitatively or separated from the medium via soft or medium paper filters "their use as an organism sludge is equally possible «

Claims (5)

Invent mageans praise Verfahren «Process for the quantitative sedimentation of microorganisms, characterized in that microorganisms suspended in aqueous media are caused by the addition of calcium ions and a pH above 6.0 for aggregation and in this way form flakes, which then sediment, so that the organisms can quantitatively separate from the surrounding medium either directly as organism sludge or by using such separation processes which fail without this pretreatment, without decisively changing their organismic nature on the one hand and the nature of their medium on the other hand Method according to item 1, characterized in that the calcium ions are made available by using any calcium compound in dissolved, suspended or solid form. 3 · Method according to items 1 and 2, characterized in that partial sedimentation is achieved by supplying a fraction of the calcium ions required for the quantitative sedimentation of microorganisms. 4 · The method of item 1, 2 and 3 ^{»characterized,%:} f that the necessary sedimentation pH either realized by suitable calcium compounds alone or by ihre.Kombination with basic reacting liquid, gaseous or solid substances · Method according to items 1, 2, 3 and 4 _f, characterized in that, by appropriate pH variation, the sedimentation of microorganisms caused by calcium ions is abolished or practiced once or repeatedly.