RU2142923C1 - METHOD OF SIMULTANEOUS PRODUCTION OF SUPERFINE PORTLAND CEMENT AT SPECIFIC SURFACE MORE THAN 1000 sq m AND COMMERCIAL PORTLAND CEMENT - Google Patents

Abstract

FIELD: production of cements and mortars, strengthening of soils; construction engineering; mining and other industries. SUBSTANCE: proposed method consists in joint milling clinker and gypsum to specific surface of 250 to 500 sq. m/kg in mills provided with filters. Then ground material - finished commercial portland cement - if fed from mills to cement silos for blending and storage; at least two mills work for common cement silo; up to 40% of total amount of gypsum is fed to one of them and remaining gypsum is fed to other mill; dust which is superfine portland cement is taken from filters of cement mill to which 40% of gypsum is fed and dust entrapped by filters of other mills is fed to cement silos of commercial portland cement. Mineral additive is introduced during joint milling of clinker and gypsum. EFFECT: production of superfine portland cement with no additional consumption of power and with no change in technology. 2 cl, 1 tbl

Description

The invention relates to a technology for the simultaneous production of two cements differing in dispersion - superfine with a specific surface area of more than 1000 m ² / kg and ordinary with a specific surface area (250-500) m ² / kg, and can find application in the building materials industry.

 Concrete and mortar on ordinary cement can be used in housing and civil engineering. Superfine cement can be used to strengthen soils and during repair work to repair cracks in massive concrete and reinforced concrete structures where ordinary cement is not suitable. A known method of producing ordinary Portland cement, including joint grinding of clinker and gypsum in mills with filters, followed by feeding the grinding product from the mills to cement silos for averaging and storage, and the dust collected in the filters of cement mills, enters the same cement silos (see , for example, the book of A.V. Volzhensky “Mineral binders.” M.: Stroyizdat, 1986, p. 197-199).

 In the known method, cement dust from cement mill filters, although it has a high specific surface, cannot be used as a super-fine Portland cement, since it contains too much gypsum, since gypsum is crushed much easier than clinker.

 The objective of the invention is to obtain super-fine Portland cement of high quality without additional energy costs for grinding cement and without changing the existing technology for the production of ordinary Portland cement.

The problem is solved due to the fact that for the simultaneous production of super-fine Portland cement with a specific surface area of more than 1000 m ² / kg and ordinary Portland cement, clinker and gypsum are jointly ground to a specific surface of 250-500 m ² / kg in mills with filters, followed by feeding grinding product - ready-made ordinary Portland cement from mills to cement silos for averaging, and at least two mills operate on a common cement silo and up to 40% of the total amount of gypsum is fed to the grinding for one of them, and the other is the remaining gypsum, while dust from the cement mill filters, which feed up to 40% of the gypsum, is selected to be superfine Portland cement, and the dust caught by the filters of the remaining mills is fed into cement silos for ordinary Portland cement, and when the clinker and gypsum can also be administered with a mineral supplement.

An example implementation of the invention: to obtain super-fine Portland cement with a specific surface area of 1200 m ² / kg and ordinary Portland cement, clinker and gypsum and, if necessary, mineral additives, for example, granulated blast furnace slag, are jointly ground to a specific surface of 360 m ² / kg in mills with filters . The grinding product is ready-made ordinary Portland cement is fed into cement silos for averaging and storage. At the same time, two mills operate on a common silo and 30% of the total amount of gypsum is supplied to one of them and 70% of the total gypsum to the other, and dust, which is super-fine Portland cement, is taken from the filters of the cement mill, which is fed 30% of gypsum, and the dust , caught by the filters of another mill, is fed into a cement silo, in which the grinding of ordinary Portland cement is carried out.

 For grinding, any open or closed cycle ball mills can be used. Ready ordinary cement is transported to silos using pneumatic screw or chamber pumps or mechanical vehicles. Cement is stored in silos with a capacity of up to 4 thousand tons of cement. In silos, devices can be installed for the homogenization and unloading of cement.

 Fine dust from the mill filters, into which a smaller part of the gypsum is fed, is collected separately and transported to another silo or hopper or other container.

 The economical method according to the invention allows to obtain at the same time ordinary Portland cement and superfine high-quality Portland cement without additional energy consumption for grinding and without changing the existing technology at the plant. The results of the experimental implementation of the method are presented in the table.

It can be seen that in the known method (Example 2 - equal supply of gypsum to cement mills) the dust collected by the filters is not suitable for use as superfine cement, because contains about 26% gypsum (12.4% SO ₃ ).

 The method according to the invention is simple to implement and highly effective.

Claims (2)

1. A method for the simultaneous production of ultrafine Portland cement with a specific surface area of more than 1000 m ² / kg and ordinary Portland cement, characterized in that they jointly grind clinker and gypsum to a specific surface of 250-500 m ² / kg in mills with filters, followed by product supply grinding - ready-made ordinary Portland cement from mills to cement silos for averaging and storage, characterized in that at least two mills operate on a common cement silo and up to 40% of the total quantity is fed to one of them for grinding and gypsum, and the other - the remaining gypsum, the filter of the cement mill in which serves up to 40% gypsum dust collected representing a supersmall Portland cement, and the dust trapped by the filters other mills are fed in ordinary Portland cement silos.  2. The method according to claim 1, characterized in that during the joint grinding of clinker and gypsum, a mineral additive is also introduced.

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