SU1700055A1 - Method of treatment of feed water for diffusion plants - Google Patents

Abstract

The invention relates to the sugar industry, in particular to the preparation of feed water for a diffusion plant. The invention improves the quality of feed water. The method involves sulfitating fresh water to a pH of 2.0-2.5, preliminarily introducing milk of lime into de-ammoniated condensate, and mixing sulphated water with alkalized condensate to bring the pH of the feed water to 6.0-6.5. The pH of the feedwater is adjusted during dismounting by adjusting the amount of injected condensate. 1 il. 1 tab.

Description

The invention relates to the technology of sugar beet production, in particular to the preparation of feed water for a diffusion plant.

A known method of preparing feed water for diffusion plants involves replacing part of barometric water with excess ammonia condensate, followed by sulphation of the mixture of these waters to an optimum pH value of 6.0-6.5 units. However, the presence of ammonia in the feed water intensifies the inversion of sucrose, contributes to the swelling and destruction of pectic substances and their transfer to the diffusion juice, which leads to a decrease in the purity of the diffusion juice, deterioration of the filtration capacity of the juice at the stage of saturation degradation.

The closest in technical essence and the achieved positive effect to the proposed method is the method of preparation of feed water, which involves mixing fresh water and condensate to produce feed water, introducing lime milk pH 11-11.5, sulfitating and bringing the pH of feed water with phosphoric acid to pH 6 , 0-6S5. This water treatment stabilizes the pH of the medium and removes ammonia by 50%. In this case, soluble calcium salts are formed in the water, strengthening the beet chips during the extraction process. However, this method has a number of significant disadvantages: when introducing orthophosphoric acid into the feed water, ammonia is not removed from it, since ammonium salts of this acid are well dissolved by U1

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Riii in water and does not precipitate. Fresh water contained in the extractant contains a large amount of microorganisms, which requires the use of formalin to prevent infection of the juice mixture.

Entering orthophosphoric acid into sulfuric acid-treated pita1700055l

Calcium hydrosulphite salts (CaCHSOj). Treatment of fresh water with sulfuric anhydride to pH 2.0-2.5 is necessary for its deeper sterilization and the formation of water soluble calcium hydrosulphite, due to which the added amount of 30 liters in soluble form is that practically

solid water does not provide stable all microorganisms in the feed water

one

port important in the extraction process pH of the medium, because Mainly in an insoluble form, calcium sulfite slowly reacts with a slight excess of weaker orthophosphoric acid, reducing the amount of hydrogen in solution in the course of time, which leads to an increase in the RP of water.

Phosphoric acid is 2 expensive and the amount of its production does not satisfy the needs of sugar factories.

The purpose of the present invention is to improve the quality of feed water 2 for a diffusion plant by deeper sterilization and an increase in the content of calcium ions in the diet, which makes it possible to improve the technological indices of diffusion juice. uh

The goal is achieved by the fact that in the method of preparing feedwater for a diffusion plant, which involves mixing fresh water and condensate to produce feedwater, introducing lime milk, sulfating, bringing the feedwater to a pH of 6.0-6.5, fresh Water before mixing subjected to sulfitation to a pH of 2.0-2.5E and in the introduction. milk of lime is carried out in a de-ammoniated condensate also before mixing with sweat: ketch water, while bringing the pH of the feed water is carried out in the process of mixing fresh. sulfitated water with deammonized condensate by adjusting the amount of condensate injected. The method is carried out as follows .5

The feedwater for the diffusion plant is obtained by mixing fresh water and deammonated condensate; fresh water is subjected to suction before mixing it with the condensate. The result is water with deep sterilization and a stable pH value that contains up to 0% well soluble

3

five

five

0

five "

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five

five

die from the effects of sulfur, the sterilizing effect of the bystor continues in the diffusion plant during the extraction of sugar from beet chips.

It has been experimentally established that acidification of feed water to a pH below 2.0 is impractical because of an increase in the chemical corrosivity of the environment and a decrease in the utilization of sulfur dioxide, expressed in a slight increase in the amount of calcium ions and a slight decrease in the microorganism content in the feed water, and increases the duration of the process of sulfitation. Acidification of fresh water to a pH of more than 2.5 is insufficient for its sterilization, and the calcium ionicity is significantly reduced.

The introduction of milk of lime is also carried out before mixing it with fresh water.

After the initial water is treated with sulfur dioxide to a pH of 2.0-2.5 and mixing with it a diamonized condensate with a pH of 11.5 containing lime, the acid salt of Ca (HSO) 2 is formed. The pH of the feed water is adjusted during the mixing process by adjusting the amount of condensate injected. This ensures the progress of the reaction of hydrosulphite calcification: ° Ca (OH) 2 + 250g-Ca (H503) 2.

The rate of this reaction depends on both the initial amounts of the reactants and the solubility of lime.

When changing the sequence of actions in the prototype, the following reactions take place.

The water is first treated with lime milk, then sulphitized. As a result of this reaction, the pH of the medium varies from 11.5 to 7.0 and an average CaSO salt is formed with a solubility of 2 times the scent than lime.

Solubility table of calcium compound: Ca (OH) -1.6-10 (

Ca (S034) -1P-E.

The equation for this reaction is as follows:

Ca (OH) 2 + S02-CaS03 + H20.

When orthophosphoric acid is added to this water to a pH of 6.0-6.5, calcium hydrophosphate begins to form in order to increase the amount of calcium ions. The rate of this reaction is much slower than the reaction rate of the proposed method, since at pH 6.0-6.5 the amount of acid is 3 orders of magnitude less than at pH - .jO-2.5. In addition} the solubility of CaS03 is 2 orders of magnitude lower than that of J5 som 9 per diffusion plant.

lime, you need to add that the acid is weaker than. Their dissociation constants are respectively H3ROf 0, H2S03 1.4x MO-2-.

The reaction equation is as follows:

Ca30.3 + 2H3P (g ± Ca (H2P04) 2 + H280z.

Here, the reverse reaction, which also slows down the rate of the direct reaction and thereby reduces the amount of calcium ions in the feed water,

Treatment with sulfur dioxide with pre-alkalized lime with water leads to the formation of a poorly soluble salt C aS03, as a result of which there is practically no disinfectant effect of sulfur dioxide, since the sulfur dioxide is in insoluble form.

In the proposed method, during deep sulfitation and when mixed to a pH of 6-6.5, the total sulfur in water is in a dissolved state, its amount due to the formation of CaOlSOj) is three to four orders of magnitude larger than in the prototype, which gives an enhanced disinfectant Effect.

Alkaline water to pH 11.5

The method of preparation of the feed water according to the prototype - 2, i fresh asses with a temperature of 37 ° C containing 3.2 tsr -EKB / L of calcium salts and 5 mg / l of ammonia mixed with 2 liters of ammonia condensate containing 188 ig / l of ammonia with 11th round. Water with a temperature of 73 C ebr; bat, wate up successively with lime to pH | 11.5, sulfurous rasoNf to ra 7.0-7.2, and orophosphoric acid is introduced to pH 6.2,

in the prototype also contributes to steri-45. pH control is carried out in flow

feed water, but the degree of sterilization is significant, which is confirmed by examples of specific performance.

The method is explained by the preparation of the feed water preparation shown in the drawing. The initial water is supplied by pump 1 to the sulfitator 2, where in the cyclic mode it is acidified with a sulfuric acid to a pH of 2.0-2.5. From the collection of sulfite water 3 through overflow, it enters the collection mixer 4. Here, the pump 5 from collection 6 feeds the delimited condensate

sat. In order to implement the proposed order of mixing in the agitator, a pH control system of 7 is installed, through which the required amount of condensate is controlled to obtain feed water with a pH of 6.0-6.5. The pH control is carried out with the help of an industrial pH meter in combination with an extreme regulator. The nutrient water5 prepared in this way containing calcium hydrosulfite is sent to collection 8 through overflow, and from it

-

0

about

five

Example 1.2 l of fresh water with a temperature of 37 ° С, containing 3.2 mg-ssq / l calcium salts is treated with sulfur

with clean gas to pH 2.0 and mixed with a deammonized condensate with a residual ammonia content of 48 mg / l containing lime and having pK i 1 e 5 ' The amount of condensate injected is adjusted by adjusting the nutritional value of pi to 6.2. Pb monitoring was carried out in a flow-through board with reference set pH-Petr.

According to this, feed water was taken from a jerk of 70 g, containing 26.5 mg / l of ammonia and 93 mEq / l of saline calcium. Nagval, O7 for extraction of sagara from beetroot chips.

The method of preparation of the feed water according to the prototype - 2, i fresh asses with a temperature of 37 ° C containing 3.2 tsr -EKB / L of calcium salts and 5 mg / l of ammonia mixed with 2 liters of ammonia condensate containing 188 ig / l of ammonia with 11th round. Water with a temperature of 73 C ebr; bat, wate up successively with lime to pH | 11.5, sulfurous rasoNf to ra 7.0-7.2, and orophosphoric acid is introduced to pH 6.2,

5 The pH control is carried out in a flow

g cls.

cuvette from 1omo: d: o laboratory pH meter, Todgotool tu-: nutrient zo / - do with temlaraturo-i 70 ° С, containing 108 mg / l ciak and 41 mg echv / l ions

nalAEL T1 nor tkstrakts e sag oa iiT beetroot pulpit into the laboratory dff .-: {o Krasplshnkova.

EXAMPLE 2 The method is carried out similarly to preamer 1, while USING fresh of the same quality. However, fresh water sulphations are brought to pH 2. before it is mixed with condensate. With an ostortemno 2 l deammonated condensate is adjusted with lime milk to a pH of 11.5. Sulfated water and deammonated condensate are mixed in such a proportion to obtain the pH of the nutrient booster 6s2o. The amount of injected condensate is controlled by the pH value during the mixing process. The prepared water is sent to a laboratory diffusion an-para

CSPP (proposed feedwater preparation method) 2 liters of the original feed are treated with sulfur dioxide at p 1,292 and mixed about 2 liters of condensed condensate with a pH of 11.5 to a water value of 652 The pH control is carried out, as in the first example, sakhchra extraction from beetroot and t i,

Example A The process is carried out in analogy to Example 1, but the sulfitation of fresh Bofai is carried out to a pH of

In examples 5-10, the process of preparing and feeding the feeds is carried out as in Example 19 by using fresh water of fresh water and ethical pH. P e u t i t p t e d s, s. Ü g. dreams are in tb b. e. Analysis of the RsJulg JBS listed in the table so far: al 3 this sulphidation of the Source water and. above the pH 2.0 (applied: 7.8) insignificantly reduces the content of microorganisms and slightly increases the amount of calcium ionosis, and the pH of the nutrient water has an inclination from the required technological value required for normal operation of the diffusion plant.

In examples 1-6, sulfation of the nutritional zodka in the pH range, 5 slightly affects the content of calcium ions, decreasing their quantity in the direction of increasing the pH, However, at the boundary value of RP 2.5, their content in the feed water is 82 mg-ect. / п5 t ° 2 times more than the prototype. The content of microorganisms remains almost constant, the pK of feed water does not go beyond the limits of the required technology.

In the examples 95 iO ntm sulphmtash of ishocny water above pH values of 2.5

the content of calcium ions in the feed water decreases sharply, the number of microorganisms increases, and there are deviations in pH from the diffusion plant required for normal operation (see table).

The results shown in the table show that the water prepared by the proposed method contains ion-calcium more than twofold5 and in terms of the content of microorganisms and ammonia is approaching the constant condensates.

From examples 798 hours 9E10 in vitro, that acidification of water below pH 2 is impractical due to a sharp decrease in utilization of sulfur dioxide, and pH 2, 5 is insufficient for obtaining water with a high content of calcium and for achieving pH of water within 6 - 6.5 units,

The use of the method makes it possible to refuse the use of orthophosphoric acid and formalin, and at one and the current consumption of sulfur and lime in the feedwater in the feed water is more than 5 times more than 2 oasum the content of calcium ions. This gives an opportunity to increase the quality of the diffusion juice by 1.4% and to increase the yield of the pulp to the mass of beets.

5.7%

Claims (1)

Invention Formula The method of preparing. Water for diffusion installations 9 involves mixing fresh water and de-ammoniation condensate to produce feed water, introducing known milk, sulphating and bringing the pH of the feed water to 6.0-6. and with this, with the improvement of the quality of the feed water, sulphitations are subjected to fresh water up to pK 2.0–2.5 by mixing it with condensate in the front, and pickled milk of lime makes the deammonated condensate also before mixing it with fresh water.The behavior of the pH of the feedwater is carried out in the process smeshivz and by controlling the amount of injected condensate. 91700055Ш Indicators of feedwater prepared in various ways i “H I , 0 one r I