DE1542807C - Continuous process for keeping the nutritional composition of a liquid fertilizer medium constant - Google Patents

Description

3 4

From the prospectus of the German gold and silver pH value of the fertilizer between 3 and 8, before-

Scheideanstalt formerly Roessler, Frankfurt, »That is preferably between 4.5 and 5.5.

DEGUSSA mineral culture process «(2nd edition, based on the drawing, which is

1949) it is known, in a constant compilation, a device for carrying out the

. set liquid fertilizer from time to time 5 shows the inventive method, the invention

the concentration is further explained with the help of an electrical measuring device.

device to determine and at intervals of about. In the device shown, the plant nutrient 4 Weeks with the help of an indicator dye pH substance distributed over three separate storage containers 1, 2, 3, Measurements with samples of the fertilizer medium through the various nutrient solutions, for example and then when a certain io is determined with the composition consumption listed below of the nutrients contained in the fertilizing medium with gen. The storage container 1 contains a additional fertilizer concentrate and given alkaline nutrient solution, the storage container 2 a if additional acid or additional nitrogen acidic nutrient solution and the storage container 3 a to enrich the acidic or neutral nutrient solution absorbed by the plants. From the pre-nutrient salts to complete. The enrichment of the liquid 15 advice containers 1, 2 and 3 lead from lines 4, 5 In this case, the fertilizer medium should be intermittent and 6 to a mixing vessel 8, which the fertilizer after longer time intervals and with a medium. This mixing vessel 8 is with a single nutrient solution. But this has provided the stirring device 7. Lines 4, 5 and 6 Disadvantage that in the times up to the next night are each equipped with valves 9, 10 and 11, Setting the nutrient composition of the fertilizer 20 The valves 9 and 11 are controlled by a pH value medium controlled by differently strong absorption of the measuring device, which from a pH meter 12 various elements contained therein with regard to and a galvanometric controller 13, and some elements are depleted, as a result of which the valves 10 and 11 become by a conductivity other Elements an oversupply results. This controls the measuring device, which is made from a conductance the nutrient balance in the plant is disturbed by 35 meter 14 and a galvanometric regulator 15, and this disorder in turn exerts a negative standing. The electrodes 16 of the pH meter 12 and the Influence on the increase in yield from and can often measuring cell and the thermal resistance 17 of the Konsogar lead to the death of the plants. The ductometer 14 is immersed in the mixing vessel 8 shows the German Auslegeschrift 1 542 805, which contains a fertilizer. Besides, this is To avoid such effects a fertilizer 30 mixing vessel 8 with a line 18 for the supply of suggests preparation for green plants, the content of which is deionized water from an ion exchanger 19 of the elements nitrogen, phosphorus, potassium, calcium, provided with tap water via a pipe 21 Magnesium and sulfur - the optimal elements - is fed, the latter with a solenoid valve equilibrium in the green plants to be fertilized is developed. This is through one in that speaks, the nitrogen content 4 to 12.5 times 35 mixing vessel 8 provided liquid level sensor 22 greater than the phosphorus content, regulated 1 to 2.5 times greater.

than the potassium content, 1.5 to 25 times greater than the one line 24 with a liquid pump 23 leads

Calcium content, 2.5 to 25 times greater than the magne- from the mixing vessel 8 to one or more fertilizers

sium content and 3 to 15 times greater than the sulfur bursts, which are not shown in the drawing. the

salary is. 40 nutrient-depleted solution is over from there

The object of the invention was now to return the downstream line 25 to the mixing vessel 8,
Parts of the known intermittent readjustment The values measured by the pH meter 12 and the conductivity or nutrient composition of a liquid fertilizer 14 are to be avoided on a recording medium and a continuous recorder 26 is recorded.

drive to keep the nutrient composition constant. B. corresponding to a conductivity value of the fertilizer medium corresponds to the optimal element equilibrium between 200 and 600 ^ S / cm and a pH value in the green plants to be fertilized, of 5.0. If the nutrients are gradually absorbed by the plants, such as in the German Auslegeschrift 1 542 805 50, the pH-proposed change. Value and the conductivity in the fertilizer medium, so the continuous method according to the invention that the valves 9 and 11 are opened when the pH value measured to keep the nutrient composition constant in the fertilizer medium is less than a liquid fertilizer medium with a content of 4.5, and they are closed when the pH value nitrogen, phosphorus, potassium, calcium, magnesium 55 is greater than 5.5. Correspondingly, the valves 10 and sulfur in the form of easily assimilable compounds and 11 are opened when the conductivity value in the fertilizer, the content of these elements in the culture medium being equal to or less than 200 μβ / αη, and the fertilizer medium equal to the optimal element they are closed , if the conductivity value corresponds to weight in the green plants to be fertilized, is equal to or greater than όΟΟμβ / αη.
with the aid of a conductivity and pH value measurement 60 In the method described above, the fertilizer medium is characterized in that, for example, the following three nutrient solutions are used: that separately present acidic, alkaline or new nutrient solution 1
central nutrient solutions to the fertilization medium by means of _{(in the} storage container 1)
depending on a continuous guidance

Capability and pH measurement controlled valves in 6 ₅ SS ⁴ «,!? ■ ""! 'ί

such quantities are supplied that the conductivity £ ςη,! ', ^g

ability of the fertilizer between 20 and 2000 μ8 / «η, K ₂ ^ U ₄ 24.5 g

preferably between 100 and 1000 μ8 / αη, and the 200.9 g

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Potassium dihydrogen phosphate: and · Potassium magnesium nitrate and calcium nitrate. To the sulfate in about 500 ml of distilled water salt solution is added nitric acid and the traces dissolved, and the ammonia is then added, elements are added and the solution is diluted at room temperature, after which the solution with the help of distilled water temperature with distilled water to 1000 ml.
is diluted to 100 ml. 5 The trace element mixture contains the following (nutrient solution 2 components:

On the reservoir 2) Fe (NO ₃ ), _{-9 H 2} O 155.30 g.

NH ₄ NO ₃ 92.8 g MnSO ₄ -H ₂ 0 38.42 g

KH ₂ PO ₄ 28.6 g ίο ZnSO ₄ · 7H ₂ O 5.12 g

K ₂ SO ₄ 24.5 g H ₃ BO ₃ 38.22 g

145.9 g CuCl ₂ -2H ₂ O 2.56 g

NaMoO ₄ · 2H ₂ O 0.52 g

The ammonium nitrate is dissolved in about 500 ml

breast-fed. Dissolved water, which ^{heated to -60 to 65 0} C 15 240.14 g
and then the potassium dihydrogen phosphate and potassium sulfate are added. The solution is prepared in such a way that the boron is diluted to 1000 ml with distilled water acid in about 500 ml of distilled water at room temperature. heat and then add the rest of the salts. The xT-u m- ι ²⁰ solution is cooled to room temperature and diluted to 1000 ml with nutrient solution 3 of distilled water. 16 ml of the trace element mixture obtained in this way (in the storage container 3) correspond to the

KNO ₃ 34.40 g of the trace elements specified in nutrient solution 3

HNO ₃ (65.487 ₀ ig) 2.45 g amount.

NH ₄ NO ₃ 14.40 g 25 The ranges to be set beforehand for the conductivity

Mg (NO ₃ ) ₂ · 6H ₂ O; ... .... 44.90 gness values and pH values can be specific for each

Ca (NO ₃ ) ₂ · 4H ₂ O 20.60 g breeding plant species can easily be determined. the

Trace elements 3.84 g nutrient distribution can be compared to the above

120 59 2 game can of course be modified, and so on

'' 30, for example, the above-described nutrient

The ammonium nitrate is also dissolved in about 500 ml of solution 3 on the other two ^{nutrient-distilled water, which is heated to 60 to 65 0} C or on additional nutrient solutions, and then the potassium nitrate is added, which is divided.

Claims (1)

Claim: Continuous process for keeping constant characterized that separately present the nutrient composition of a liquid acidic, alkaline or neutral nutrient solution fertilizer medium with a content of nitrogen, the fertilizer medium means depending on phosphorus, potassium, calcium, magnesium and 40 a continuous conductivity and pH sulfur in the form of easily assimilable connection-value measurement controlled valves in such fertilizers, the content of these elements being supplied in such quantities that the conductivity of the fertilizer medium equals the optimal element of the fertilizer medium between 20 and 2000 \ LSIcm, weighted in the green plants to be fertilized. preferably between 100 and 1000 μ8 / αη, and speaks, with the help of a conductivity and pH 45, the pH value of the fertilizer between 3 and 8, value measurement in the fertilizer, thereby preferably between 4.5 and 5.5 . 1 sheet of drawings