RU1827369C - Raw mixture for portland cement clinker preparing - Google Patents

Abstract

The invention relates to a technology for the production of Portland cement clinker, in particular to the compositions of the raw mixes used to produce it, and can be used to produce cement in plants of the dry and wet production method. The purpose of the invention is to reduce the calcination temperature, improve granulation and improve the quality of cement. SUMMARY OF THE INVENTION: Raw mix contains, May. %: carbonate component 75-80; aluminosilicate component 16-21; iron-containing component 2.0-4.5. What is new is the use of wastewater treatment sludge as an iron-containing component - a waste from the production of aluminum-chromium catalyst with a content. wt.%: 15.01-23.85; Re20s 32.83-48.02; CrzOa 10.84-15.89; loss on ignition 25.68-31.72. 3 tab.

Description

The invention relates to a technology for the production of Portland cement clinker, in particular to the compositions of the raw mixes used to produce it.

The aim of the invention is to reduce the calcination temperature, improve granulation and improve the quality of cement.

The goal is achieved in that, as an iron-containing component, it contains wastewater sludge from an aluminum-chromium catalyst with a content (wt.%): - 15.01-23.85; ReaOz - 32.83-48.02; Cr 0z - 10.84-15.89; PPP - 25.68-31.72 in the following ratio of components, wt.%:

Carbonate component 75-80

Aluminosilicate component 16-21

Wastewater sludge from an aluminum-chromium catalyst2,0-4,5 The raw material mixture for preparing Portland cement is prepared wet or dry by dosing the components and grinding them together in a ball mill to a specific surface of 3000-3200 cm2 / g. The raw material mixture is fired at temperatures up to 1425 ° C. The presence of iron and aluminum hydroxides in the form of hydroxides in the wastewater treatment sludge causes their decomposition at relatively low temperatures and increased chemical activity, which is reflected at all stages of clinker formation.

The mineralogical composition of the final product; solid solution three-calst BGI o

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silicate with chromium and aluminum (C SieCrA); solid solution of dicalcium silicate with chromium, aluminum, sodium; a solid solution of calcium aluminoferrites with chromium, aluminum, potassium and sodium. Examples of tested compositions of raw mixes are presented in table 1, the properties of the resulting clinkers and cements in table 2.

The use of a slurry wastewater treatment plant as a part of a raw material mixture accelerates the absorption of calcium oxide due to the higher activity of iron oxides formed upon decomposition of A (OH) s and Fe (OH) s. Already at 1425 ° C, the process of assimilation of calcium oxide is completely completed even with an increased content of alite in the clinker. Evidence of accelerated sintering of the raw material mixture and improved granularity is an increase in clinker density. The increase in cement quality is due not only to a more complete sintering process, but also to the doping effect of chromium oxide present in the sewage sludge.

The cost of 1 ton of cement at the Pobeda Oct br plant is presented in Table 3.

With an annual productivity of the Pobeda cement plant of Oct br 258,000 tons, the annual economic effect only due to the cost of raw materials will be 18060 rubles.

The technical effect compared with the prototype is to increase the activity of cement. In addition, the proposed technical solution has an environmental effect as well. prevents the emission of sulfur dioxide present in the firing products of the prototype raw material mixture into the atmosphere.

Claims (1)

SUMMARY OF THE INVENTION A raw material mixture for the preparation of Portland cement clinker including calcareous, aluminosilicate and iron-containing components, characterized in that, in order to lower the firing temperature, improve granulation and improve the quality of cement, it contains wastewater sludge as an iron-containing component the production of aluminum-chromium catalyst, composition, wt.%: SPP - 25.68-31.72. - 15.01-23.85; ReaOz-32.83-48.02; СггОз 10.84-15.89, in the following ratio of components of the mixture, wt.%: Aluminosilicate component 16-21 Sludge for wastewater treatment from the production of aluminum-chromium catalyst2, 0-4.5 Known component The compositions of the investigated raw mixes  Mixtures of 3.4.5 were obtained on sludge with a content (May.%): A120s 23.13; Re20s 32.83; Cr20z-13.51; PPP-29.84; mixtures of 6.7.8 on sludge with a content of: A120z 15.01; Re20s 48.02; Cr20z-Yu, 84; PPP-25.68; mixtures 9.10 on sludge containing: A (, 85; Rv20z-41.97; Sp20z 15.89; PPP-31.72. Table 1 Properties of the investigated clinkers (firing range 1425 ° С)  The numbers of the compositions correspond to the table. 1 Become a cost Raw materials, Basic and auxiliary materials Fuel for technological purposes Energy for technological purposes Salary Costs of maintaining and operating the equipment Workshop costs Total costs per 1 ton of cement table 2 Table 3 Prototype Using sewage sludge 1-78 3-92 3-19 0-52 2-86 1-40 14-67