CN1830865A

CN1830865A - Method of producing ecological cementing material using electrolytic manganese slag

Info

Publication number: CN1830865A
Application number: CNA2006100509604A
Authority: CN
Inventors: 瞿家凤; 王平; 黄从运
Original assignee: JISHOU PALI BUILDING MATERIAL CO Ltd
Current assignee: JISHOU PALI BUILDING MATERIAL CO Ltd
Priority date: 2006-03-07
Filing date: 2006-03-07
Publication date: 2006-09-13
Anticipated expiration: 2026-03-07
Also published as: CN100545116C

Abstract

An ecological cementing material used as the additive of cement or the coating material of wall is prepared from the dregs of electrolytic Mn, lime stone, anthractive and fluorite through mixing, grinding, homogenizing, stirring, adding water, stirring, sphericizing and calcining.

Description

Utilize electrolytic manganese residues to produce the method for ecological cementing material

Technical field: the present invention relates to produce the method for ecological cementing material, particularly a kind of method of utilizing electrolytic manganese residues to produce ecological cementing material.

Background technology: present electrolytic manganese residues is used for a kind of acid industrial pollution waste residue with manganese, a large amount of dischargings causes the permanent pollution in arable land and brings serious water pollution to rivers, does not up to the present also utilize electrolytic manganese residues to produce the method for ecological cementing material.

Summary of the invention: the object of the present invention is to provide a kind of method of utilizing electrolytic manganese residues to produce ecological cementing material, the ecological cementing material that utilizes this method to produce, not only can make cement mixture uses, also can produce high trickle powder, be used for body of wall and whitewash, and can reduce the pollution of electrolytic manganese residues environment.

Formation of the present invention: it is made up of following components in weight percentage: Wingdale 382～50.1%, electrolytic manganese residues 43.1～55%, hard coal 4～5%, fluorite 0.9～1.8%.

To carry out grinding after the above-mentioned raw materials mixing, the warehouse-in homogenizing is transported to biaxial rneader, and add water and stir, balling-up, kiln is sintered into the gelling material grog.

Carry out grinding after will above-mentioned raw materials mixing, fineness control 0.08 tails over 10% ± 1, enter the pre-homogenizing of silos after, be transported to biaxial rneader by the bottom of the reservior and add water in advance, amount of water is 11% ± 1, and wet feed stirs the back to the pan-pelletizer balling-up, the balling-up particle diameter should be controlled at 6～8mm, accounts for 80%, and pellet is transported to the kiln calcining by belt, firing temperature should be controlled at 800 ℃ ± 50 ℃, clinker strength 3 days, anti-folding 2.8mPa, resistance to compression 12.8mPa, 28 days, anti-folding 4.9mPa, resistance to compression 26.8mPa.

Compared with the prior art, electrolytic manganese residues of the present invention is a kind of industrial residue, through us research and test, it can produce ecological cementing material, after this material produce, it can be used as cement mixture and uses, and also can produce a kind of high trickle powder, mix cement, also available micro mist whitewashes as body of wall.

Advantage: 1, the electrolytic manganese residues consumption is big; 2, starting material are through grinding, and fineness is thin; 3, balling-up plasticity is good; 4, furnace output height because firing temperature is low, contains 2% manganese and 8% vitriol in the electrolytic manganese residues; 5, electrolytic manganese residues is through high-temperature calcination, contains 2% manganese and 10% ammonia in the electrolytic manganese residues and all is decomposed; 6, make micro mist, be used for body of wall, market outlook are good.

In a word: to the electrolytic manganese residues development and application, it not only solves environmental pollution, and it can produce ecological gelling material, and market is good, for electrolytic manganese factory has solved pollution problem for many years, also makes waste residue become precious, meets national economic development.

Description of drawings: accompanying drawing is a process flow sheet of the present invention.

Embodiment: Wingdale 53.5%, electrolytic manganese residues 40%, hard coal 5%, fluorite 1.5%, carry out grinding after the mixing, fineness control 0.08 tails over 10% ± 1, after entering the pre-homogenizing of silos, be transported to biaxial rneader by the bottom of the reservior and add water in advance, amount of water is 11% ± 1, wet feed stirs the back to the pan-pelletizer balling-up, and the balling-up particle diameter should be controlled at 6～8mm, accounts for 80%, pellet is transported to the kiln calcining by belt, firing temperature should be controlled at 800 ℃ ± 50 ℃, 3 days anti-folding 2.8mPa of clinker strength, resistance to compression 12.8mPa, 28 days anti-folding 4.9mPa, resistance to compression 26.8mPa.

Claims

1. one kind is utilized electrolytic manganese residues to produce ecological cementing material, it is characterized in that it is made up of following components in weight percentage: Wingdale 38.2～50.1%, electrolytic manganese residues 43.1～55%, hard coal 4～5%, fluorite 0.9～1.8%.

2. the method for utilizing electrolytic manganese residues to produce ecological cementing material according to claim 1 is characterized in that: carry out grinding after above-mentioned raw materials is mixed, the warehouse-in homogenizing is transported to biaxial rneader, and add water and stir, balling-up, kiln is sintered into the gelling material grog.

3. the method for utilizing electrolytic manganese residues to produce ecological cementing material according to claim 1 and 2, it is characterized in that: carry out grinding after above-mentioned raw materials is mixed, fineness control 0.08 tails over 10% ± 1, after entering the pre-homogenizing of silos, be transported to biaxial rneader by the bottom of the reservior and add water in advance, amount of water is 11% ± 1, and wet feed stirs the back to the pan-pelletizer balling-up, the balling-up particle diameter should be controlled at 6～8mm, account for 80%, pellet is transported to the kiln calcining by belt, and firing temperature should be controlled at 800 ℃ ± 50 ℃, clinker strength 3 days, anti-folding 2.8mPa, resistance to compression 12.8mPa, 28 days, anti-folding 4.9mPa, resistance to compression 26.8mPa.