DE1467493C - Process for the preparation of a mixture of carbon blacks - Google Patents

Description

1 2

The invention relates to a specific method for driving, according to which the reaction temperature is regulated

Manufacture of by thermal decomposition of does not seem to be as serious a problem as with

Hydrocarbon oils after the furnace process the process, -after which certain substances for regulation

soot obtained. can be added.

The production of furnace soot by thermal 5 The decomposition of hydrocarbon oils is known by the process according to the invention. overcome the disadvantages listed above. In general, this manufacturing process comprises the present process for the preparation of a mixture, the decomposition of a hydrocarbon starting _VO n by thermal decomposition of hydrocarbon material by the heat that is a part of this hydrocarbon obtained by combustion material oils according to the furnace process or by io soot characterized in that a portion of almost complete combustion of a second, different from the hydrocarbon oil to be processed in a first different hydrocarbon material he furnace in the presence of a modulus lowering agent is witnessed. The composition of the hydrocarbon-containing an alkali and / or alkaline earth metal, material starting material, the type of injection of the decomposed, so a first soot-bearing gas flow he starting material, the feed rate of the than 15 testifies, whose soot used a lower modulus value fuel Hydrocarbon, which supplies and a higher abrasion loss than the soot ratio of oxygen to fuel and the conversion of a second soot-bearing gas stream, which from the settling time can, among other factors, the remaining part of the hydrocarbon oil in a second as well as the rubber properties of the the furnace produced in the absence of a modulus depressant soot. While all of the above-mentioned so-called kind are created that these guest factors flow together the rubber properties of the carbon black in this way influence a mixture to a certain extent, it appears as prepared in which the amount of the first carbon black used a small starting material Hydrocarbon is one or about equal to the amount of the second soot, and most important, if not the most important factor in this, that one regards being a soot after the gas streams have been merged. 35 mixture wins according to known separation processes.

For example, it has long been believed that die obtained by the process of the present invention to change the effect of the carbon black on the borrowed carbon black mixtures show during processing with Stress-strain properties of rubber, rubber, as expected, module and elongation especially on the rubber module, without applying values that linearly with increasing percentage of the any post-treatment of the carbon black such as the oxy-3 ° low modulus carbon black component dation there is a need to decrease the hydrocarbons. However, the abrasion resistance gives way to one to exchange raw material. The disadvantages of rubber that come with a rubber according to the invention such workings are readily apparent. The supplied carbon black mixture has been processed, the next but one the achievement of a predetermined modulus surprisingly has little or no effect on the abrasion such a method completely from trying 35 strength, with a low angular abrasion dependent. Then the ability to precisely deliver the carbon black component is achieved. How besides Preservation of a predetermined module, if established, this obvious synergy is this once obtained, it is necessary, as far as abrasion resistance is concerned, by one from a continuous supply source of the selected similar appearance in terms of tensile strength Depending on the starting material. Conversely, each requires 40 accompanied. If that is a lower module Desired change in modulus, which gives the carbon black component produced a lower level of breakdown carbon black is intended to effect an exchange of the carbon strength as the second soot component gives way hydrogen feedstock. Besides these factors, the tear strength of the rubber product is inherent however, the fact that there are half certain limits on the percentage of the any change in the modulus, which is caused by a 45 first soot component, which is the lower modulus Exchange of the raw material achieved, "at best it delivers, little or no tensile strength at all moved within the limits to be observed and usually caused by the second soot component, of an adverse effect on tensile strength. Referring to the drawings, FIG. 1, and the elongation properties of the available carbon black - that is the modulus value of a rubber product that Rubber products is accompanied. 5 ° contains two types of carbon black which meet the specified mo-

Recently, it has been proposed that rubber modulus values provide essentially a straight line modulus in the production of the soot in the manner of the function of the percentages of the two grain rules, that you are a hydrocarbon parent. As, however, in FIG. 2 illustrates material is thermally decomposed in the presence of a substance, the abrasion resistance remains as expected which is directly related to a group of different Modulrege- 55 in a similar way as the relation of the remedies heard. Of these additives, components of the mixture should change entirely various solid carbonaceous materials and, unexpectedly, essentially unchanged from one another various alkali and alkaline earth metal compounds the value that the - lower abrasion - to mention. Yet another method of producing standard carbon black, as long as the amount The modulus-determining effect of the soot depends on the soot compost which provides a lower modulus in the regulation of the reaction temperature. All nente not significantly greater than the amount of the second these procedures are more or less effective at or standard component. Outside a geder Production of carbon black with a predetermined know component ratio starts the abrasion effect on the rubber module, surprisingly, essentially without any loss of strength other tensile properties seriously affect 65 directly such as the ratio of the components to tolerated will. A major disadvantage of this change. The ratio at which this change The method, however, is that the abrasion resistance begins to some extent from the discomfort is greatly reduced, although this affects the obsolete material from which the two types of carbon black

3 4

be generated, but a significant decrease in Ab- reaction vessels of a system for generating a

Abrasion resistance is noticeable when the mixture uses a type of carbon black that has a pre-selected one

contains a larger proportion of the soot component which the module delivers.

supplies the lower module. Usually, an advantage of the method of the invention begins with this Appearance to occur when the proportion of 5 is that the types of carbon black that belong to the designated Carbon black, which provides a lower modulus, can be mixed at roughly blends, according to any Ar-40 up to 60% as shown in FIG. 2 can be produced as an example, as they normally are is. This figure shows that the decrease in the repellant applied to the production of furnace soot was resistance to abrasion for the composition of the following. While all types of furnace black in the In the example given at a ratio of 1: 1, it is usually already started by cracking a hydrocarbon has and becomes very pronounced when it is begotten using the heat that Content of the lower modulus provided by burning part of the hydrocarbon component gets bigger. Substance or by burning a second coal

The curve of FIG. 3 illustrates the progression of hydrogen is formed, there are several verder tensile strengths in rubber products, to 15 different working methods, according to which this result can be produced and obtained according to the invention for their production. These various working mixed carbon black components in various amounts differ primarily in the type and proportions that have been used; Here, a case in which the substances to be converted into the reaction vessel is taken into account, in which the tensile strength is introduced, and the person skilled in the art is certainly familiar with the component 20 providing the lower modulus. Such working methods, as well as other known ones, are higher than the tensile strength of the standard composite methods, according to which similar results are obtained, which gives the lower abrasion. Specifically, in the method according to the invention, FIG. 3 the course of the tensile strength for the production of the carbon black components for the designated application of carbon black mixtures, which are used according to the following mixtures,
following example have been produced. Under as I Similarly, _n may be the hydrocarbon oil, such conditions are, as the figure makes clear the inventive process for generating the values of the tensile strength of all the cooperation of Rußkomponenten to be thermally decomposed, ratios, which contain the two components in a wide Extent can be varied. Any coal higher than that obtained with the standard component hydrogen oil derived from or obtained from a petroleum source. 3 ° can be of other origin can be used. However, if with the component that lowers it. Such hydrocarbon oils can be supplied with greater rigidity, lower tensile strength fluctuations caused by different contents of aliphatic than with the standard component, remains or aromatic constituents. Examples of the tensile strength of compositions made from such hydrocarbon oils are gas oils which contain both components, essentially kerosene, boiling hydrocarbons the same as the tensile strength which the standard carbon black, which provides a range of gasoline, heavy and light naphtha with lower abrasion, gives, and products, residual and circulating oils which, although reforming and the like are not substantially greater than the amount of the other component, while the amount of the carbon black component providing a lower large number of different distillation, cracking, modulus-providing soot components is not substantially greater than the amount of the other component, who have become 4 °. Under a hydrocarbon oil, as it results in the lower abrasion. As with the abrasion - according to the invention, strength begins as a starting material, however, in this case the tear - is therefore any material to be understood, the strength surprisingly falls essentially under the above information. The change as burning directly if the mixture contains a larger substance-serving hydrocarbons, which for production contains proportion of the soot component, which supplies the module, which is lowered by heat to crack the starting material. The point at which these are turned can be the same as the appearance, depends on the starting materials or different from them. Usually from which the types of soot are made; However, natural gas is used for this purpose, but if it does, this phenomenon is available as with abrasion. The gas which, with the above designation strength, is very evident when the proportion of soot, 5 ° th operations to maintain the deterioration, provides the lower modulus, is applied to about 40 to 60% combustion, can be different; comes up. but oxygen is usually used for this

According to the process according to the invention, gas containing such as air is mixed with oxygen

two streams of soot-bearing gases in suitable enriched air, oxygen or the like in sufficient

Mixed quantity ratio, with each stream having a "55 quantities, in order to ensure the combustion of the fuel used as the

Contains soot type that provides a selected module. Nenden hydrocarbons in a known manner

In this way a mixture is obtained that can be carried out completely beforehand.

selected module. Accordingly, as stated above, in the case of the invention Such mixing of gas streams in a process is part of the coal order to be processed of reaction vessels that only a portion of the 60 hydrogen oil is in the presence of a modulus lowering total the reaction vessels to the generation means, which is an alkali and / or alkaline earth metal of the soot, which provides a lower modulus, is thermally decomposed. From these means you can while the other reaction vessels are mentioned: the alkali and alkaline earth metals before generation of the standard carbon black, preferably in the form of one of their inorganic compounds results in less abrasion. Mixing 65 fertilizers such as halides, carbonates, fluorosilicates, soot-bearing gas streams also has the further influence of borates, hydroxides and the like. Advantage that a less careful control was found, amounts as small as 0.001 obtained, as it is needed in the case when all the weight percent of the agent added, based on

the starting material, the effect of the resulting soot on the module. A greater modulus-lowering effectiveness is obtained by increasing the Addition of the agent to 3.0% and more, although usually no significant further modulus-lowering effect is achieved when amounts are greater than about 2.0% can be applied.

The particular manner in which the modulus lowering agent is introduced into the reaction vessel can be found in within wide boundaries. So the agent z. B. in the form of particles or as aqueous Solution, depending on its solubility, can be introduced, and in each of these states that can Agents are introduced separately from the reaction participants or combined with a starting material. When the modulus lowering agent is used in solid form, its particle size should be sufficiently uniform to permit easy introduction into the reaction vessel by conventional introducing means and to allow smooth flow to be ensured by conventional flow meters. These requirements can, as has been found, be met especially when about 100% of the particles have a smaller size than that Mesh size of a 200-mesh sieve of the US sieve series corresponds.

The method according to the invention and its effectiveness are illustrated by the following example Lautert, in which all parts are parts by weight, unless otherwise stated. In the example, the conversion device comprises a combustion chamber which is axially connected to a reaction chamber of smaller diameter and greater length is connected. Natural gas as fuel and air as oxygen-containing gas that keeps combustion going are introduced into the combustion chamber with the charge being sized so that a ratio of

ίο Air to natural gas as provided at 15: 1. The fuel is in the before entering the reaction chamber essential completely consumed. The feedstock is axially through the combustion chamber into the Sprayed reaction chamber, where it decomposes to soot will. Implementation is done by using quenching Water terminated, and the soot-bearing gases are subjected to a customary treatment to the To win soot.

ao example

A set of converting devices is set up to generate a plurality of soot-bearing gas streams, each of which contains a soot having a preselected effect on the module. The plant includes a reaction device A and a reaction device B. The hydrocarbon oil used as the starting material in this example shows the following test results:

Table I. Investigation on

Result

Weight according to APJ at 15.6 ° C 5.0 Viscosity, SU, sec / "C 43.7 / 98.9 Ash, weight percent 0.019 Conradson carbon,% 7.12

Sulfur,% 1.09

Aromatics,% 73.09

Asphaltenes,% 1.71 Carbon,% 90.05 Hydrogen. % 8.60 Distillation:

JMP, ⁰ C, 760 mm 208.3

5% 300

10% 320.6

20% 30% 40% 50% 60%

347.8

367.8

383.9

400

420

70%: 447.2

80% i 478.9

90% 520.6

The specified in Table I, the starting material in the reaction vessel is A as described above reacted at a decomposition temperature of about 1450 ^c C, and thus generates a rußtragender gas stream which is loaded with a Standardruß A. Similarly, the starting material from Table I is ^{reacted at a decomposition temperature of about 1450 °} C. as described above in reaction vessel B , into which a 15% strength aqueous sodium chloride solution is injected with the proviso that 1.5% by weight of sodium chloride, based on the starting material , are provided. A soot-bearing gas stream is obtained from reaction vessel B , in which a soot is entrained, which provides a low modulus. These different streams are brought together so that soot-bearing gas streams result in which the soot grades A and B are in the ratios of 3: 1, 1: 1 and 1: 3. Mixtures which contain the types of carbon black A and B in these proportions are collected from the gas streams carrying soot. For comparison purposes, samples of soot A and B are also collected from the relevant soot-laden gas streams. The RuL'e.-1 and B and the mixtures become processed into masses according to the following instructions, which vulcanize at 145'C and then tested for stress-strain properties and abrasion resistance will. The extensibility values are mean values that after vulcanization times of 25, 40, 60, 90 and 120 minutes were obtained. The angle wear was after a vulcanization time of 90 minutes definitely. The angular abrasion values and the mean values of the modulus and tear strength became an production of the curves of FIG. 1 to 3 used. the Results are given in Table II.

Component parts SBR-1500 (butadiene-styrene mixed poly-

meres) 100

Soot 50

Softener 5

Zinc oxide 5

Sulfur 2

Stearic acid 1.5 Mercaptobenzothiazole 0.8 Diphenylguanidine 0.25 Table II properties

Module at 300 ° / ₀ (kg / cm »)

Tensile strength (kg / cm ¹ ) .....

Elongation at break (%) ...

Angular abrasion (g loss / hour)

75 'U

25 · / .Β50 · /, Β75 · / ₀ Β

133.6 206.7 405 11.3

soot

50 · /. A.

109.7 213.0 450 11.6

25%

98.4 214.4 475

12.4

73.8 222.1 545

14.8

64.0 220.0 565

16.9

ίο

»5

The table shows that when using a mixture of 50% carbon black A and 50% carbon black B, the abrasion ao of the rubber product is not significantly increased compared with the use of carbon black Λ alone.

Claims (1)

Claim: Process for the preparation of a mixture of hydrocarbon oils by thermal decomposition Carbon blacks obtained by the furnace process, characterized in that one part of the hydrocarbon oil to be processed in a furnace in the presence of a Modulus lowering agent, which contains an alkali and / or alkaline earth metal, decomposes, so one The first soot-bearing gas flow is generated, the soot of which has a lower modulus value and a higher one Attrition loss supplies as the soot of a second soot-bearing gas stream that from the remaining part of the hydrocarbon oil in a second furnace in the absence of a modulus depressant mentioned type is generated that these gas streams are brought together, in this way a mixture in which the amount of the first soot is less than or approximately equal to the amount of the second Is soot, and that after the gas streams have been brought together, a soot mixture is obtained by known separation processes. 1 sheet of drawings 009 629M5