DE2528522C3 - Process for treating wastewater, in particular oil-containing, with an activated sludge - Google Patents

Description

0.0625m - 6 · 10 " ² · C · F> V > 0.0275»! - 6 ^{· 10 "2} CF

Sufficient, where V is the amount of mineral oil hydrocarbons added to the aeration tank (l / day), m is the concentration of the activated sludge in the aeration tank (ppm), C is the COD concentration in the wastewater flowing into the aeration tank (ppm) and F is the amount of to the

Aeration basin of inflowing wastewater (mVh) mean.

2. The method according to claim 1, characterized in that the hydrocarbon is a kerosene fraction or a naphtha fraction is used.

The invention relates to a method for treating waste water containing, in particular, oil with a activated sludge, in which carbonaceous nutrients are added.

An important problem in the conventional treatment of wastewater with activated sludge (after the activated Sch'amm method) is the load of the wastewater with a sludge with the correct range of biological oxygen demand (BOD). In the case of waste water from a petroleum purification plant, the BOD load of the waste water (i.e. the Raw water) in the usual state, however, extremely low. Therefore, if no suitable substrate source is provided the rate of oxidative decomposition of the activated lamb can be high Compared to its rate of proliferation and it is impossible to increase the concentration of activated Keeping mud within a certain range. In such a case there is also sedimentation of the activated sludge and it is difficult to obtain a beneficial treated water obtain.

For these reasons, dextrose, methanol, ethyl acetate and the like were previously added to the raw water. the load and the balance of substrate and metabolic nutrient source in the raw water to coordinate. These substances are relatively easily assimilated by microorganisms, however, they are unsatisfactory as a source of substrate, not only because they are expensive, but also this is because their structures or properties are different from those of the pollutant components of the Wastewater in the case of an oil-containing wastewater, such as. B. one from petroleum purification, very different are. That is, they can help maintain the concentration of microorganisms in the sludge, however, they lead to the disadvantage that the activity against the oil component is kept low depending on the change in the biological phase (cf. for example the following references: K. T a n a k a, K. K i m u r a, Japan J. Industrial Water Association, No. 17, 136 [1968]; Z. Inoue, Industrial Water and Waste Water, 14 [2], 142 [1972]; T. W. Lesperanee. Water Works and Wast Engineering, Volume 2 [No. 5] [1965]; E. R. M c K i η η e y, Microbiology for Sanitary Engineers, p. 224, published by McGraw Hill, N.Y. [1962]; J. Smit, Sewage Works Journal, Vol. 4, p. 960 [1932]).

In the magazine »water, air and operation«, 1967, Issue 2, pages 86 to 88, a process for the biological purification of oily wastewater with revitalized Described sludge with the addition of nutrients. If you work by this procedure, it is not possible the COD value and the oil component of the treated To reduce water sufficiently.

The present invention is therefore based on the object of creating a method with which the COD value of the water to be treated, the amount of oil in the water to be treated and the amount of suspended Solids can be reduced significantly.

Extensive studies have therefore been made to develop a method for treating waste water carried out with activated sludge, and it has been found that it is possible according to the invention is, a waste water, preferably without a heterogeneous substrate source is required, by adding a Hydrocarbon from a mineral oil (hereinafter referred to as mineral oil hydrocarbon) in a appropriate amount to treat the wastewater, in particular to treat an oil-containing wastewater.

The invention thus relates to a method for treating waste water, in particular oil-containing waste water with an activated sludge, in which carbonaceous nutrients are added, that thereby is characterized in that the wastewater is a mineral oil hydrocarbon with 7 to 20 carbon atoms adds in an amount equal to that of the equation

0.0625hi 6 10 ¹ C- V > 1 ■ 0.0275 in -6-10 ^: · Γ · F

Sufficient, in which Vdiedcm activated sludge tank added amount of mineral oil hydrocarbon (I / Tüg), in the concentration of the activated sludge in the activated sludge tank (ppm), C the COD concentration in the wastewater flowing into the activated sludge tank (ppm) and / · 'the amount of mean wastewater flowing into the aeration tank (ni '/ h).

In a preferred embodiment of the

process according to the invention is called a hydrocarbon a kerosene fraction or a naphtha fraction is used.

The activated sludge concentration, which is referred to as "ppm", is determined in accordance with the JIS-K-0102 method determines and indicates the concentration of dried, activated sludge in the aeration tank.

If you work according to the process according to the application, i.e. a mineral oil hydrocarbon is added to the wastewater having 7 to 20 carbon atoms in the amount satisfying the above equation is obtained surprisingly, after the treatment according to the application, a treated wastewater in which the COD value, the amount of oil components and the Amount of suspended solids are significantly lower than in the known processes.

Wastewater containing oil can preferably be wastewater in the process according to the invention Be treated that is an oil, like crude oil, an essential oil. Naphtha, kerosene, light oil, heavy oil and the like

The mineral oil hydrocarbon used in the present invention has 7 to 20 carbon atoms, and a kerosene or naphtha fraction is particularly preferred. As a naphtha light naphtha (boiling point 30 to '10 ° C) can be used (boiling point 30 to 190 ⁰ C), Schwemaphtha (boiling point 110-190 ° C) and Vollbereichsnaphtha, wherein the Vollbereichsnaphtha 4 has up to 11 carbon atoms, and its specific activity 0, 70 to 0.75. Kerosene has 8 to 16 carbon atoms and its boiling point is 150 to 270 ° C and its specific activity is 0.78 to 0.80.

The mineral oil hydrocarbon can either go directly to the aeration tank or to the sewage before the Introduction to be added to the aeration tank. This addition can be either continuous or intermittent (e.g. every 8 to 12 hours). The amount of mineral oil hydrocarbon added should be within a range that satisfies the following equation, depending on of the chemical oxygen demand (COD) in the wastewater with continuous operation:

0.0625 (H - 6 • ΙΟ "- • C • F>V> 0.0275m - 6 - W ' ¹ CF

where mean:

V = amount of added mineral oil hydrocarbons (l / day) _{I (1} m = concentration of activated sludge (ppm) C = COD concentration in the wastewater (ppm) F - flow velocity of the wastewater (mVh.)

The above formula is an r. empirical formula that has been drawn up to find the appropriate one Determine the COD exposure range with activated sludge and the COD conversion constant to calculate. In the case of a discontinuous procedure, the amount added per day is preferably w which is calculated from the above formula by dividing at intervals of the specified time.

The figure of the drawing shows, on the basis of the formula given above, the relationship between various concentrations of the activated sludge, -r, the COD per unit time (C · F) and the minimum and maximum value of the amount of mineral oil hydrocarbon that can be added . The activated sludge can be converted into a preferred state by adding mineral oil-hydrocarbons, n material within the specified range. If the amount of the mineral oil hydrocarbon added is less than the minimum required amount calculated from the above formula, it is difficult to maintain the concentration of the activated sludge, and thereby self-oxidation and the like occur. If the amount added exceeds the limit of the amount that can be added, the hydrocarbon is excessively adsorbed on the activated sludge, and there occurs an undesirable result that, for example, it acts as a solvent on the lipoid of the activated sludge,

When carrying out the method according to the invention the sewage stream velocity in the aeration tank should be 50 to 140 m '/ hour at tr> an average wastewater usage time in the aeration tank of 7 to 20 hours and one Concentration of the activated sludge in the aeration tank from 1000 to 8000, preferably from 2000 to 6000 ppm.

When the mineral oil hydrocarbon is added according to the method of the present invention, there is a rapid decrease in the rate of the respiratory activity of the activated sludge after the addition of the hydrocarbon, and the assimilation stability is better than when using glucose. Ethyl acetate and the like which are commonly used as a substrate. In the treatment of waste water containing oil, it preferably acts as a substrate source for the activated sludge and is suitable for the proliferation of the sludge. In ^h: Naus it is characterized in that the activated sludge repeatedly receives acclimated this substrate, and also it improves the activity compared to the oil content in the wastewater by an advantageous change in the biological stage. On the other hand, since the mineral oil hydrocarbon acts as a solvent for an oil or a sludge-containing oil having a honed fluidization point (such as heavy oil or wax), it improves the contact situation with activated sludge and greatly contributes to the improvement of oil adsorption on the activated sludge at.

In addition, by adding an appropriate amount of the hydrocarbon, foaming in the Aeration tank prevents, although this is completely unexpected itt, and the sedimentation of the sludge in a sedimentation tank is facilitated.

As indicated above, the activated sludge in the method of the invention can normally can be handled although the oil component in the waste water is considerably higher, and in this way the wastewater can be treated continuously in a stable state.

With the present invention, it is possible to improve or improve the BOD or COD removal effect the flocculation rate of the activated sludge in a sedimentation tank by adding of, for example, sea water to accelerate, so that the total salt concentration in the wastewater

after the addition of the sea water O.J up to 0.5% by weight. Also, if in the sewage It contains hydrogen sulfide or sulfide. sulphide treatment can be carried out at the same time. by adding an oxidizing agent such as chlorine dioxide and a iron catalyst in suitable amounts.

The invention is illustrated in more detail by the following examples, without, however, being restricted thereto.

Example i

Water containing oil with different COD concentrations. which a predetermined amount Kerosene had been added. was placed in an aeration tank at a predetermined flow rate with a capacity of 0.91 t (I ton) and with an activated sludge in Brought into contact from different biological

Table I.

SI γι ι mn η e * uc - ch ν. ι η - K <ι η / ο η I r; i 11 ο η ι! l ^ / u ν. ■: uch ο η ο

ihukcit .ikti \ iertcn Schlammes KcrosiniiKTipc

Phases existed and had previously been adjusted to a predetermined sludge concentration.

The analysis results are given in Table I below nits of a leak from a diminution tank Wastewater specified. They were determined after about 1 day.

COl) (lev COD (lev be ("component Sewage acted of the treated Water Water

5685 IO 26.4 P.4 0.9 5900 15th 25.1 ".4 0.9 5520 10 36.4 P.8 1.5 5520 30th 23.3 5.8 0.6 5520 15th ■ 1.8 :, 2 0.9 5490 15th P / ⁷ .8 0.7 5285 21.0 6.9 0.4 5640 0 28.5 12.4 2.3 ^ RO (I. " ¹ S> ! 3.6 2.1

Example 2

The procedure of Example 1 was repeated. The analysis results of the treated water *, situ this time being indicated as a mineral oil hydrocarbon instead of in Table II below. full-grade naphtha was used for kerosene.

Table II

■: r, / Sii!

Comparative example 1

The Verianrer. the example 1 was repeated. was turned. The Analvsenergebnisse of behandeltet except that instead of the Mineraiöl hydrocarbons-water are given in the following table 111th The substance consumes a predetermined amount of ethyl acetate

Table III

Flow rate concentration of the activated sludge added amount of ethyl acetate

. ■ Schwin- concentration des / jEcaebcne full COI) des C OD des («Component German activated sludge rich naphtha crowd Abw avsers treated treated Water Water ι ppmi ι I / day ι (ppm ι (ppm ι (ppm ι 56 (XJ 40 30.6 6.5 0.7 5890 40 38.2 6.8 0.8 "RO 10 7 2 -

COD des COD des Oil component Sewage treated of the treated Water Water

(mVStd)

(ppm)

(l / day) (ppm)

(ppm)

(ppm)

5750 50 33.5 10.0 0.9 6250 50 59.7 10.1 0.9 6690 50 29.0 8.6 2.1 5890 30th kg glucose / day 30.5 9.2 1.8

Comparative example 2

With the same effect in the treatment of the same wastewater, the method according to the invention is w More economical (cheaper) than the known process Die, see, ms the following Table IV.

table IY

/us.it/ Admitted Ko η

Quantity 0. (HlX DM / I)

(l / l, ·. ;;, Aen / Il

Kerosene 10-20 M)

Full range naphtru 20 M) SO

Ethyl acetate KKI-150 150

(iluLiise ^ l R (I ¹ HKi

The drawing shows the relationship between the - ·· ■ the Mitieri !! ö! -Ki: h! Enwas'.ers! Offmer! Ge, die / .ugeget

Concentration of the activated sludge that can become COD per unit of time and the minimum and maximum value

Here / u 1 watt / dchmmuen

Claims (1)

Claims; 1, method of treating oil in particular containing wastewater with an activated sludge in which carbonaceous nutrients are added, characterized in that that the wastewater is a mineral oil hydrocarbon with 7 ^ -20 carbon atoms adds in an amount equal to that of the equation