A method for preparing high-strength sulphoaluminate cement for co-production of sulfuric acid

A sulfoaluminate cement, high-strength technology, applied in chemical instruments and methods, sulfur compounds, inorganic chemistry, etc., can solve the problems of ineffective utilization of phosphogypsum, high initial strength, increased cost and difficulty of sulfuric acid preparation from sulfur dioxide, etc. question

Active Publication Date: 2019-02-19
KINGENTA NORSTERRA CHEM CO LTD +1
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Problems solved by technology

[0003] Chinese patent document CN100351197C discloses a manufacturing process of rapid-hardening sulfoaluminate cement. The raw material proportion of this process is 17-20% of dehydrated phosphogypsum, 45-52% of limestone, and 31-35% of bauxite. The successful use of waste phosphogypsum to replace the natural gypsum in the raw meal mix can partially reduce the cost of sulphoaluminate cement, but the amount of phosphogypsum used in this process only accounts for 17-20% of the raw meal mix, In the invention, 45-52% limestone is needed, which fails to achieve the purpose of effectively utilizing phosphogypsum. In addition, the decomposition of phosphogypsum in the process will release sulfur dioxide, which will cause environmental pollution if not handled properly
[0004] Chinese patent document CN103304170B discloses a method for producing sulphoaluminate cement. Limestone, phosphogypsum, low-grade bauxite and coke are prepared in a certain proportion to make cement raw meal, which is calcined at high temperature after grinding and mixing. In the process, by promoting the decomposition of phosphogypsum as much as possible, the calcium oxide generated by the decomposition replaces part of the limestone, and the sulfur dioxide gas can be collected to prepare sulfuric acid. The ratio of this process is 30-60 parts of limestone, 25-55 parts of phosphogypsum, and low-grade alumina 15-45 parts, this invention can also successfully use waste phosphogypsum to replace natural gypsum, which appropriately reduces the cost of cement, but phosphogypsum has not completely replaced limestone, and there are still as high as 30-60 parts of limestone in the raw material ratio, limestone The carbon dioxide produced by the decomposition will greatly dilute the concentration of sulfur dioxide, which increases the cost and difficulty of sulfuric acid production from sulfur dioxide
By partially converting the phosphogypsum that does not require pretreatment, the mixture that meets the ingredients required for the production of sulphoaluminate cement is obtained, and no additional limestone is required, which expands the application range of phosphogypsum, but this process requires the conversion of phosphogypsum first. Calcium carbonate is then mixed with raw materials and calcined. The required equipment and process are relatively complicated, and the production cost is high.
[0006] After searching, there is no report that completely utilizes phosphogypsum to prepare stable sulphoaluminate cement with fast hardening speed, high early strength and enhanced later strength.

Method used

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  • A method for preparing high-strength sulphoaluminate cement for co-production of sulfuric acid
  • A method for preparing high-strength sulphoaluminate cement for co-production of sulfuric acid

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preparation example Construction

[0010] a. Preparation of cement raw meal:

[0011] Dosing according to the following parts by mass: 65-80 parts of phosphogypsum, 18-28 parts of bauxite, 1-2 parts of steel slag, 1-3 parts of silica, 3-4 parts of anthracite; mix the components and grind , to obtain cement raw meal after homogenization;

[0012] b. Preparation of cement clinker:

[0013] Calcining the cement raw meal prepared in step a at 1250-1300° C. for 30-40 minutes to obtain cement clinker, collecting the sulfur dioxide tail gas generated during the calcination process and sending it to a sulfuric acid production system to prepare sulfuric acid;

[0014] c. Preparation of sulphoaluminate cement:

[0015] The cement clinker obtained in step b is ground again to obtain sulphoaluminate cement.

[0016] Preferred of the present invention:

[0017] The fineness of the material after grinding in step a is 120-180 mesh;

[0018] Al in the bauxite 2 o 3 The mass fraction is 60-75%, more preferably 66%;

[...

specific Embodiment approach

[0047] In order to better understand the essence of the present invention, the content of the present invention will be further described below in conjunction with the examples, but it cannot be regarded as a limitation of the present invention.

[0048] The phosphogypsum in each embodiment is all taken from the hemihydrate phosphogypsum by-produced by the new wet-process phosphoric acid of Jinzheng Da Nuo Taier Chemical Co., Ltd., its main components are shown in Table 1, and the main components of steel slag are shown in Table 2, Bauxite is produced in Shijiazhuang, Hebei, and its main components are shown in Table 3, and the main components of silica are shown in Table 4 below.

[0049] Table 1: Main components and contents of phosphogypsum

[0050] components

CaO

SO 3

Fe 2 o 3

Al 2 o 3

SiO 2

content%

36.96

52.63

0.15

0.57

1.97

[0051] Table 2: Main components and content of steel slag

[0052] ...

Embodiment 1

[0058] Dosing according to the following mass parts: 65 parts of phosphogypsum, 28 parts of bauxite, 1 part of steel slag, 3 parts of silica, 3 parts of anthracite; then grind and mix each component until the fineness is 120 meshes, and obtain raw cement raw material; place the prepared cement raw material in a rotary kiln and calcinate at 1250°C for 30 minutes to obtain cement clinker; 2 / Kg, the sulphoaluminate cement product can be obtained, and the mechanical properties of the obtained sulphoaluminate cement are shown in Table 5.

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Abstract

The invention relates to a method for preparing high-strength sulphoaluminate cement and co-producing sulfuric acid. The method comprises the following steps of adopting phosphogypsum for completely replacing limestone and natural gypsum, milling and homogenizing the phosphogypsum, bauxite, steel scoria, silica and pulverized anthracite, and then calcinating the milled and homogenized raw materials at a temperature of 1250-1300 DEG C. The method is capable of greatly improving the phosphogypsum utilization ratio, and high-concentration sulfur dioxide tail gas can be adsorbed to prepare sulfuric acid. The prepared sulphoaluminate cement clinker is high in hardening rate, high in early-stage strength, and stable in later-stage strength increase; performance tests indicate that the mechanical strength of the sulphoaluminate cement prepared by the method conforms to the rapid-hardening sulphoaluminate cement standard.

Description

technical field [0001] The invention relates to a method for preparing high-strength sulphoaluminate cement for co-production of sulfuric acid, belonging to the technical field of cement preparation. Background technique [0002] With the modernization of engineering technology, the technical requirements for special cement are getting higher and higher. These include the special requirements for the speed of rapid setting and hardening and the hardness of each stage during the construction of special projects, such as the connection construction of cement pipelines, and the construction of foundation sites for large-scale equipment. Although the application and sales market are constantly expanding, they are limited due to the high cost of products, making more users out of reach. On the other hand, as one of the world's three major phosphate fertilizer producers, it is difficult to realize mass utilization due to the restriction of phosphogypsum impurity indicators and ap...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B7/32C04B7/36C04B7/43C04B7/44C01B17/74
CPCC01B17/74C04B7/32C04B7/36C04B7/43C04B7/44
Inventor 姚华龙李兴平朱崇计胡兆平刘阳
Owner KINGENTA NORSTERRA CHEM CO LTD
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