JP2016193805A - Cement production method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cement production method capable of eliminating such a problem that an off-specification clinker generates accompanying the change-over of the type of clinker to be produced at a cement plant.SOLUTION: A cement production method includes: a clinker classification process of obtaining the coarse- and fine-grained fractions by setting a specific grain size as boundary to classify a cement clinker which is a material of specific type of cement; and a cement preparation process of preparing the cement corresponding to a specific type of cement using the obtained coarse-grained fraction, and of preparing the cement corresponding to one different from the specific type.SELECTED DRAWING: None

Description

  The present invention relates to a method for producing cement.

Conventionally, various Portland cements such as ordinary Portland cement (hereinafter also referred to as ordinary cement), early-strength Portland cement (hereinafter also referred to as early-strength cement), and moderately hot Portland cement have been manufactured as Portland cement.
Moreover, various clinker according to the kind of Portland cement is manufactured as a material of these various Portland cements.
In a cement factory, switching of the type of clinker to be manufactured is usually performed in a continuous manufacturing operation. For this reason, the clinker manufactured at the time of switching types includes those having intermediate physical properties between the clinker before switching and the clinker after switching. The clinker having such intermediate physical properties is treated by adding it to the clinker before switching or after the switching in such an amount that does not affect the physical properties (quality) of the clinker before and after the switching. . However, such treatment is a burden on the cement factory, requiring high quality control.

  On the other hand, in Japan, production of ordinary Portland cement clinker (hereinafter also referred to as ordinary clinker), which has the largest production volume, and early-strength Portland cement clinker (hereinafter also referred to as early-strong clinker), which has the second largest production volume. The quantity ratio is about 14: 1. Considering this ratio (14: 1), if continuous production of early strong clinker is performed for about one day, production of ordinary clinker and early strong clinker is switched about once every two weeks. Will be. That is, in this case, the clinker having intermediate physical properties as described above is generated at a frequency of about once every two weeks.

By the way, the technique which isolate | separates clinker into 2 or more types conventionally according to the magnitude | size of a particle size is known.
For example, Patent Citation 1 describes a cement clinker cooling device for separating a large cement clinker having a predetermined size or more and improving the cooling efficiency of the cement clinker by making the particle size of the cement clinker filled in the packed bed uniform. ing. In this cement clinker cooling device, the cement clinker filled in the packed bed is separated into coarse particles and fine particles, and the coarse particles and fine particles are cooled separately.

Japanese Patent Laid-Open No. Hei 6-211551

As described above, when switching the type of clinker to be manufactured in a cement factory, a clinker having intermediate properties between the clinker before switching and the clinker after switching is generated, and the treatment is a burden on the cement factory. There is a problem that.
The objective of this invention is providing the manufacturing method of the cement which can eliminate the problem of generation | occurrence | production of the nonstandard clinker accompanying the switching of the kind of clinker in a cement factory.

  As a result of intensive studies to solve the above problems, the inventor classifies cement clinker, which is a material of a specific type of cement, with a specific particle size as a boundary to obtain a coarse particle and a fine particle. Using the coarse particles obtained in the classification step and the clinker classification step, a cement corresponding to the above-mentioned specific type of cement is prepared, and using the fine particles obtained in the clinker classification step The present inventors have found that the object of the present invention can be achieved by a cement manufacturing method including a cement preparation step for preparing a cement corresponding to a different type of cement from the above-mentioned specific type, and completed the present invention.

That is, the present invention provides the following [1] to [5].
[1] A clinker classification process for classifying a cement clinker, which is a material of a specific type of cement, with a specific particle size as a boundary to obtain a coarse particle and a fine particle, and using the coarse particle, the specific And a cement preparation step of preparing a cement corresponding to a type of cement different from the specific type by using the fine-grained portion. Cement manufacturing method.
[2] The method for producing a cement according to [1], wherein the specific type of cement is ordinary Portland cement, and the type of cement different from the specific type is early-strength Portland cement.
[3] The cement corresponding to the specific type of cement has a mortar compressive strength of 3 days, 7 days, and 28 days of age, respectively. The cement corresponding to a cement of a type different from the above-mentioned specific type within a range of ± 5% of the mortar compressive strength at 28 days is 3 days, 7 days, And the mortar compressive strength of 28 days does not fall within a range of ± 5% of the mortar compressive strength of the specific type of cement at the age of 3 days, 7 days and 28 days, respectively. The method for producing a cement according to [1] or [2].
[4] The method for producing a cement according to any one of [1] to [3], wherein the specific particle size is a value selected between 0.5 and 10 mm.
[5] The method for producing cement according to any one of [1] to [4], wherein the classification is classification by sieving or dry classification.

  According to the cement manufacturing method of the present invention, it is possible to solve the problem of generation of non-standard clinker accompanying switching of clinker types in a cement factory.

The method for producing a cement according to the present invention includes a clinker classification step of classifying a cement clinker, which is a material of a specific type of cement, with a specific particle size as a boundary to obtain a coarse particle and a fine particle, and a coarse particle content. And a cement preparation step of preparing a cement corresponding to a specific type of cement and preparing a cement corresponding to a type of cement different from the specific type using the fine particles. Hereinafter, each step will be described in detail.

[Clinker classification process]
This step is a step of classifying a cement clinker, which is a material of a specific type of cement, with a specific particle size as a boundary to obtain coarse and fine particles.
The specific type of cement is not particularly limited, and includes various Portland cements such as ordinary Portland cement, early-strength Portland cement, moderately hot Portland cement, and low heat Portland cement.
Among them, from the viewpoint of producing the largest amount among all types of Portland cement, ordinary Portland cement is usually used in the present invention.

Cement clinker, which is a material of a specific type of cement, is classified with a specific particle size as a boundary.
The specific particle size is preferably a value selected between 0.5 to 10 mm, more preferably 1 to 5 mm, and even more preferably 1 to 3 mm. When the particle size is 0.5 mm or more, a sufficient amount of fine particles corresponding to a different type of cement (for example, early strength Portland cement) from a specific type of cement (for example, ordinary Portland cement) is obtained. Can do. When the particle size is 10 mm or less, physical properties of a different type of cement from a specific type of cement can be imparted when the fine particles obtained in the present invention are used.
By classification, a cement clinker (fine particle) having a particle size equal to or smaller than a specific particle size and a cement clinker (coarse particle) having a particle size exceeding a specific particle size can be obtained.
The terms “below a specific particle size” and “exceeding a specific particle size” are used for the purpose of distinguishing between a fine particle and a coarse particle for convenience. It can be replaced with “more than a specific granularity”.

Examples of the classification method include classification by sieving and dry classification.
In classification by sieving, the screen movement of the sieving machine that performs sieving may be either a vibrating screen or an in-plane screen. In addition, the above specific particle size is relatively small considering the average particle size of cement clinker. Therefore, prepare multiple types of sieves with different openings, and use a sieve with a large opening. It is preferable to classify while changing the type of the sieve step by step to a small sieve.
Dry classifiers are gravity classifiers (horizontal flow type, vertical type, inclined flow type), inertia classifiers, or centrifugal classifiers (free vortex type, semi-free vortex type, forced vortex type (using a rotating body)) Any of these may be used. Among them, in the present invention, the cement clinker, which is an object to be classified, has a large particle size distribution range, and since the amount to be classified is large, it is preferable to use a horizontal flow type gravity classifier.

  The classification is preferably performed before the cement clinker after firing is conveyed to the finishing mill or the finishing premill in the cement clinker manufacturing process. The classification may be performed on a high-temperature cement clinker immediately after firing, or may be performed on a cement clinker after cooling. The classified cement clinker (coarse and fine particles) may be conveyed directly to the finishing mill, or once stored in an intermediate storage facility such as a silo, and then conveyed to the finishing mill. .

[Cement preparation process]
This process uses all the coarse particles obtained in the previous process (clinker classification process), and consists of a specific type of cement (all of the clinker preparation raw materials prepared for the manufacture of a specific type of cement, What is obtained from cement clinker; hereinafter also referred to as “obtained using whole grains”) (for example, when a specific type of cement is ordinary Portland cement, ordinary Portland cement is also used.) To a different type of cement (for example, early-strength Portland cement) using a fine granule obtained in the previous step (clinker classification step). corresponding cements (e.g., as compared to those obtained using the whole grain, alite _{(C 3 S: 3CaO · SiO} 2) content is larger, belite ( ₂ S: 2CaO · SiO ₂₎ what content is small) is a step of preparing a.
In this step, the cement is prepared by mixing coarse or fine particles, gypsum, and optionally mixed components (specified in “JIS R 5210 (Portland cement)”). Done.

Here, a cement corresponding to a specific type of cement (obtained using coarse particles) has physical properties (quality) equivalent to that of a specific type of cement (obtained using all grains). Is.
More specifically, cement corresponding to a specific type of cement (obtained using coarse particles) has a specific mortar compressive strength of 3 days, 7 days and 28 days of age. The mortar compressive strength at 3 days, 7 days, and 28 days of the type of cement (obtained using whole grains) is preferably within ± 5%, more preferably It is within the range of ± 4%, particularly preferably within the range of ± 3%.
In addition, since a cement corresponding to a specific type of cement (obtained using a coarse particle) does not contain a fine particle having excellent strength development, it is obtained using a specific type of cement (whole grain). The mortar compressive strength at the age of 3 days, 7 days and 28 days is smaller than
Here, when the mortar compressive strength at each age mentioned above of a specific type of cement (obtained by using the whole grain) does not fall within the above-mentioned preferred range, The mortar compressive strength can be adjusted so as to be within the above-described preferred range by using a normal quality control method in the cement final grinding step such as adjustment of the amount of gypsum added.
Moreover, in this specification, the numerical value of the compressive strength of the mortar is a numerical value measured according to “JIS R 5201 (physical test method for cement)”.

A cement corresponding to a type of cement different from a specific type (obtained by using fine particles) is different from a specific type (for example, ordinary Portland cement) (for example, early-strength Portland cement). ) Have the same physical properties (quality).
More specifically, a cement corresponding to a type of cement different from a specific type has a mortar compressive strength of 3 days, 7 days, and 28 days of age. Of the mortar compressive strength at 3 days, 7 days and 28 days of the material), preferably not within ± 5%, more preferably within ± 6% In other words, it is more preferable that the width does not fall within ± 6.5%. In addition, cement corresponding to a different type of cement from a specific type has a mortar compressive strength of 3 days and 7 days of age, each of a specific type of cement (obtained using whole grains). The mortar compressive strength at 3 days and 7 days of age, particularly preferably within the range of ± 10%.
In addition, a cement corresponding to a different type of cement from a specific type has a mortar compressive strength of 3 days, 7 days, and 28 days of age. Of the mortar compressive strength at 3 days, 7 days, and 28 days of the material obtained), preferably within a range of ± 40%, more preferably within a range of ± 35% Particularly preferably, it is within the range of ± 30%.
In addition, a different type of cement (for example, early-strength Portland cement) is also used for normal cement quality control in the final grinding process of cement, such as adjusting the fineness of cement and adjusting the amount of gypsum added. The mortar compressive strength can be adjusted.

  As an example of a preferred embodiment of the present invention, the specific type of cement is ordinary Portland cement, and the type of cement different from the specific type is early-strength Portland cement, which corresponds to the specific type of cement. The mortar compressive strength of a specific type of cement (obtained using whole grains) is 3 days, 7 days, and 28 days of mortar compressive strength (obtained using coarse grains). Mortar compressive strength of 3 days, 7 days, and 28 days of a different kind of cement (obtained by using fine particles), which is within ± 5% on the basis of However, it is possible to cite more than + 5% (preferably + 6% or more) based on the mortar compressive strength of a specific type of cement (obtained using all grains).

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not limited to these examples.
[Example 1]
Ordinary Portland cement clinker (manufactured by Taiheiyo Cement Co., Ltd .; HM: 2. After grinding with a jaw crusher and then grinding with a disk mill until the Blaine specific surface area is about 3,500 cm ² / g 18; SM 2.47; IM 1.72) 50 kg of a sieve having a mesh opening of 2 mm ("JIS Z 8801-1 (test sieve-Part 1: metal mesh sieve)") The fine particles having a particle size of 2 mm or less and the coarse particles having a particle size exceeding 2 mm were obtained.
The chemical composition of pulverized ordinary Portland cement clinker (shown as “whole grain” in Tables 1 to 3), fine particles, and coarse particles is referred to as “JIS R 5204 (method of fluorescent X-ray analysis of cement)”. Measured in conformity.
Further, the mineral composition of pulverized ordinary Portland cement clinker or the like was measured by Rietveld analysis using an X-ray diffractometer (manufactured by Bruker AEX, “D8 ADVANCE”). For the Rietveld analysis, analysis software (“DIFFRAC ^plus TOPAS (Ver. 3)” manufactured by Bruker A.X.) was used. The results are shown in Table 1.

The fine particles of the clinker and drained dihydrate gypsum (manufactured by Sumitomo Metals) were placed in a ball mill so that the brane specific surface area of the cement and the SO ₃ content in the cement would be the target values shown in Table 2. A cement made up of fine particles was prepared by charging and grinding. In the pulverization, diethylene glycol was added as a pulverization aid so that the blending amount was 0.02 parts by mass with respect to 100 parts by mass of the total amount of clinker and gypsum.
In addition, instead of using the clinker coarse particles instead of the clinker fine particles, the cement using the coarse particles was prepared in the same manner as the above-described method for preparing a cement using the clinker fine particles. Prepared.
Furthermore, in the same manner as the above-described cement preparation method using the clinker fine particles except that the whole clinker particles (fine and coarse particles) were used instead of the clinker fine particles, A cement using the grains was prepared.
The actual measurement values of the brane specific surface area and SO ₃ content in each cement obtained were measured using the following measuring method. The results are shown in Table 2.
(1) Brain specific surface area: The brain specific surface area was measured according to “JIS R 5201 (cement physical test method)”.
(2) SO ₃ content in cement: The SO ₃ content was measured in accordance with “JIS R 5204 (Method for X-ray fluorescence analysis of cement)”.
The results are shown in Table 2.

The compressive strength of the mortar of each cement obtained was measured using the following method.
(3) Mortar compressive strength: The mortar compressive strength was measured according to “JIS R 5201 (physical test method for cement)”.
Moreover, as a reference example, an example of a commercial product of ordinary Portland cement (manufactured by Taiheiyo Cement Co., Ltd .; Blaine specific surface area; 3,230 cm ² / g; SO ₃ content in cement; 2.2% by mass), and early strength Mortar compressive strength (in Table 3, each in Table 3) for an example of a commercial product of Portland cement (manufactured by Taiheiyo Cement Co., Ltd .; brain specific surface area; 4,460 cm ² / g; SO ₃ content in cement; 3.2% by mass) , “Ordinary cement clinker” and “early strong cement clinker”).
The results are shown in Table 3.
Table 4 shows the mortar compressive strength (%) at each age of each cement when the mortar compressive strength of the cement using the whole grain is 100%.

From Table 3, it can be seen that the mortar compressive strength of the cement prepared using the fine particles of cement clinker has the same mortar compressive strength as the commercial product of early-strength Portland cement.
Moreover, it turns out that the mortar compressive strength of the cement prepared using the coarse grain part of cement clinker has the mortar compressive strength equivalent to the commercial item of normal Portland cement.
From this, after classifying ordinary Portland cement clinker, by using the obtained coarse particles, it is possible to prepare a cement corresponding to ordinary Portland cement, and to use the obtained fine particles Thus, it can be seen that a cement corresponding to early strong Portland cement can be prepared.

Claims (5)

A clinker classification process for classifying a cement clinker, which is a material of a specific type of cement, with a specific particle size as a boundary to obtain coarse and fine particles,
Cement that prepares a cement corresponding to the specific type of cement using the coarse fraction, and prepares a cement corresponding to a type of cement different from the specific type using the fine fraction Preparation process,
A method for producing cement, comprising:   The method for producing a cement according to claim 1, wherein the specific type of cement is ordinary Portland cement, and the type of cement different from the specific type is early-strength Portland cement.   The cement corresponding to the specific type of cement has a mortar compressive strength of 3 days, 7 days, and 28 days of age, respectively. Cement that falls within a range of ± 5% of the mortar compressive strength in the day and corresponds to a cement of a type different from the above-mentioned specific type is 3 days, 7 days, and 28 days. The mortar compressive strength of each of the above-mentioned specific types of cement does not fall within the range of ± 5% of the mortar compressive strength at the age of 3 days, 7 days, and 28 days. 2. The method for producing cement according to 2.   The method for producing a cement according to any one of claims 1 to 3, wherein the specific particle size is a value selected between 0.5 and 10 mm.   The method for producing cement according to any one of claims 1 to 4, wherein the classification is classification by sieving or dry classification.