CN1636916A - Admixture for cement raw material and application - Google Patents
Admixture for cement raw material and application Download PDFInfo
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- CN1636916A CN1636916A CN 200410060317 CN200410060317A CN1636916A CN 1636916 A CN1636916 A CN 1636916A CN 200410060317 CN200410060317 CN 200410060317 CN 200410060317 A CN200410060317 A CN 200410060317A CN 1636916 A CN1636916 A CN 1636916A
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- raw material
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Abstract
The admixture for cement raw material consists of comburant 1.5-2.5 wt%, trace element additive 0.5-1.5 wt% and carrier 97.5-98.5 wt%. The admixture may be used in cement production in both vertical kiln and rotary kiln, and its use can result in lowered heat consumption, easily baked raw material, reduced waste gas exhaustion, easily grinding of cement, raised cement yield and lowered cement producing cost.
Description
Technical field
The invention belongs to the cement additive technical field, be applicable to the raw material admixture and the application of kiln types such as modern shaft kiln, rotary kiln.
Background technology
At present, shaft kiln is generally used gypsum, fluorescent mineralizer, contains fluorine, SO in the waste gas that calcining produces
2, polluted air, the heart is taken out on easy fast knot, extension limit in calcination process, and spray kiln accident easily takes place, and the burn-ability of raw material is not high, and raw material coal blending amount height wastes energy.
Summary of the invention
Purpose of the present invention provide a kind of minimizing pollute, in calcination process fast knot not, do not hang the limit, non-core pulling is stopped shaft kiln spray kiln accident and is taken place, and improves the burn-ability of raw material, reduces the coal blending amount of raw material, improves the admixture and the application of shaft kiln yield and quality, rotary kiln.
The present invention is made up of the material of following weight percent: ignition dope 2.4~3.0%, trace mineral supplement 1.7~2.3%, carrier 95.0~95.6%.
The weight percent that cement slurry per ton mixes this admixture is 0.8~1.5%.
Because the present invention adopts such scheme, wherein ignition dope belongs to the chemical industry series products, uses calcium chloride, mainly is to help burning, impels high-temperature fusion, reduces coal consumption, improves burnability of raw material, improves maturing rate, helps the formation of mineral and the generation of new mineral Alinty.Prevent to tie kiln and shaft kiln spray kiln accident.Burning the grog that has activation to blended material, can effectively improve the volume of blended material, reduces production costs, and increases economic efficiency.Trace mineral supplement belongs to the chemical industry series products, uses Sodium Tetraborate, can be supplemented with to help the incinerating trace element, increase activity, play the bleed fluxing action, raw material are easily burnt, thereby reduce the percentage composition of free calcium oxide and loss on ignition, quicken the generation and the conversion of mineralizer, effectively improve the quality of products.Carrier belongs to mineral substance, and it is to smelt the plumbous zinc powder of ore dressing depleted, and industrial utilization one is to turn waste into wealth, and the 2nd, be supplemented with and be beneficial to the incinerating trace element, mix the back raw material and easily burn, to calcine meltablely, grog easily grinds.
According to the design proportion scheme the accurate batching of various raw materials and fuels, put into after the homogenizing in the little mill of uniform tests of φ 500mm * 500mm and make qualified complete black meal, artificial then balling-up, moisture content is 14.5~15.5%, put into and try in the little kiln of simulation of a φ 280mm * 900mm who is for experiment to burn, drop into the little abrasive dust of uniform tests again to fineness behind the cooling kiln discharge, specific surface area meets the requirements, and carries out the check of analysis of components and physicals.
Test-results
Levigated raw material, grog are done multianalysis, and analytical results sees Table 1, and the physicals assay of doing the physicals check of grog simultaneously and mixing the complex cement of blended material sees Table 2.
Raw material, grog analysis are burnt in table 1 examination
Title | SSL | ?SiO 2 | ?Al 2O 3 | ?Fe 2O 3 | ?CaO | ?MgO | ?FCaO | ?KH | ?SM | ?IM |
Raw material | 40.84 | ?11.50 | ?3.49 | ?1.51 | ?37.12 | ?1.75 | ?- | ?0.96 | ?2.30 | ?2.31 |
Grog | 0.40 | ?20.14 | ?5.54 | ?3.39 | ?64.01 | ?3.04 | ?1.13 | ?0.95 | ?2.06 | ?1.63 |
Table 2 grog and the check of complex cement physicals
Title | Proportioning | Stability | Time of coagulation | Specific surface area | Fineness | Anti-folding/resistance to compression (MPa) | ||||
Grog | Gypsum | Blended material | Initial set | Final set | ?3d | ?28d | ||||
The examination overburnt material | 95.0 | ?5.0 | -- | Qualified | 2:15 | ?5:20 | ?356 | ?2.8 | ?5.7/27.8 | ?8.2/54.2 |
Complex cement | 56.5 | ?3.5 | 35 | Qualified | 4:10 | ?6:25 | ?360 | ?2.6 | ?3.5/15.6 | ?6.9/35.8 |
Summary test-results application admixture is produced raw material per ton at shaft kiln and can be economized on coal 20%, and the blended material of cement per ton can bring up to 35%.The blending amount of mixture material of ton cement can improve more than 40%.
1, the proportioning of raw material and effect
Closed circuit grinding machine with a φ 1.83m * 7m is an example, the relevant data tabulation 3 of batching grinding effect before and after this admixture admixture
Contrast before and after table 3 admixture of the present invention
Title | Raw-meal ingredient | |||||||||
Wingdale | Clay | Hard coal | Iron powder | The gas making slag | Fluorite | Gypsum | Admixture | Fineness | Unit-hour output | |
Original formulation | ??75.3 | ??3.5 | ??12.8 | ??2.4 | ??4.5 | ??1.0 | ??0.5 | ??- | ??7.0 | ??14.5 |
The present invention | ??78.5 | ??5.0 | ??10.3 | ??- | ??4.7 | ??- | ??- | ??1.5 | ??7.0 | ??16.0 |
Replace fluorite, gypsum mineralizer can significantly reduce coal blending amount in kind and do not have the irony correction material and mix with the present invention as can be seen from Table 3 at raw meal proportioning, must not reduce the batching cost of raw materials and fuel, play certain grinding aid effect simultaneously, improve the unit-hour output of grinding machine.
2, shaft kiln calcination effect
The raw material that grinding is qualified are sent into by pre-watering granulation in the machine shaft kiln of φ 2.5m * 10m and are calcined, sum up according to actual calcination operation, the burnability of raw material that application the present invention joins is good, and fusion is fast, does not hang the limit, fast knot not, non-core pulling, discharging is steady, burns till fast, the output height has reduced labor intensity of operating staff.It is low to burn the grog free calcium oxide that, and loss on ignition is low, once checks the stability qualification rate to account for more than 90%, and the relevant data of using the present invention front and back shaft kiln calcination is relatively tabulated 4
Table 4 calcination of chamotte quality and relevant data contrast
Title | ??FCaO ??(%) | ??SSL ??(%) | Stability (%) | Anti-folding/resistance to compression (MPa) | Ton grog consumption mark coal (Kg) | Unit-hour output (t) | |
????3d | ??28d | ||||||
Before the application | ??2.8 | ??0.8 | ??40 | ????4.0/24.6 | ??7.2/48.6 | ??151.8 | ??7.5 |
After the application | ??1.8 | ??0.5 | ??90 | ????6.2/30.6 | ??7.8/53.0 | ??122.1 | ??9.0 |
The cement grinding effect
The grog batching of producing before and after cement system mixed with energy-efficient dose drops into the closed circuit grinding machine grinding of 1.83m * 7m and sums up contrast, and the relevant data of cement grinding is tabulated 5
Table 5 blending amount of mixture material and grinding effect contrast
Title | Proportioning | Stability | Time of coagulation | Specific surface area | Unit-hour output (t) | ||||
Grog | Gypsum | Blended material | Initial set | Final set | ??3d | ??28d | |||
Before the application | 79.0 | ??3.0 | ??18.0 | Qualified | 2:45 | ?4:15 | ??3.6/14.0 | ??7.0/33.6 | ??15.5 |
After the application | 66.0 | ??3.0 | ??31.0 | Qualified | 3:40 | ?6:25 | ??3.6/15.4 | ??7.1/35.9 | ??17.0 |
Use behind the admixture the average volume of blended material of cement as can be seen from Table 5 and bring up to 31%, than original 13 percentage points that improved.Compared with prior art, 1, being used for shaft kiln production can save the coal blending amount more than 18%; The blended material of cement is brought up to more than 30%; That raw material easily burn, burn till is meltable, cement easily grinds, and reduces production costs and increases economic efficiency.2, be used for the easy burning of rotary kiln raw material and can improve output more than 20%; But reducing firing temperature makes mineral form energy efficient more than 25% at low temperature.3, alternative mineralizer and relevant crystal seed have been got rid of and have generally been adopted gypsum and fluorescent mineralizer discharging waste gas to contain SO2 and fluorochemical in the shaft kiln production, are beneficial to environmental protection.4, easy to use, easily join easy burning and easily grind, fast knot can not stopped shaft kiln spray kiln accident, and burning is complete, and it is few to produce waste gas, helps environmental protection.5, the positive effect of Ying Yonging is that hear rate reduces, and raw material easily burn, and reduce exhaust emission, improve the incorporation of blended material, and cement easily grinds, and reduces staff labor intensity.The main frame unit-hour output improves, and reduces production costs, and increases economic efficiency.
Embodiment
Embodiment 1, the present invention are made up of the material of following weight percent: ignition dope 1.8%, trace mineral supplement 3.0%, carrier 95.2%.
The weight percent that cement slurry per ton mixes this admixture is 0.8%.
Embodiment 2, the present invention are made up of the material of following weight percent: ignition dope 2.8%, trace mineral supplement 2.2%, carrier 95.0%.
The weight percent that cement slurry per ton mixes this admixture is 1.3%.
Embodiment 3, the present invention are made up of the material of following weight percent: ignition dope 2.4%, trace mineral supplement 2.1%, carrier 95.5%.
The weight percent that cement slurry per ton mixes this admixture is 1.4%.
Precaution:
1, want strict prescription, accurately metering, the few DeGrain of volume, volume is excessive, can influence clinker strength.
2, the main industrial chemicals of this admixture is formed, and belongs to trace and mixes the homogenizing that will note raw material.
3, adopt the low iron scheme effect of high alumina better, can adopt no iron powder proportion scheme if raw materials and fuel adapts to.
4, this admixture is harmless, and cement is had no side effect.
Claims (3)
1, cement system is used the raw material admixture, it is characterized in that being made up of the material of following weight percent: ignition dope 2.4~3.0%, trace mineral supplement 1.7~2.3%, carrier 95.0~95.6%.
2, cement system according to claim 1 is used the raw material admixture, it is characterized in that described ignition dope is a calcium chloride, and described trace mineral supplement is a Sodium Tetraborate, and described carrier is plumbous zinc powder.
3, cement according to claim 1 system is used with the raw material admixture, it is characterized in that the weight percent that cement slurry per ton mixes described admixture is 0.8~1.5%.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2004100603170A CN1295176C (en) | 2004-12-09 | 2004-12-09 | Admixture for cement raw material and application |
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CNB2004100603170A CN1295176C (en) | 2004-12-09 | 2004-12-09 | Admixture for cement raw material and application |
Publications (2)
Publication Number | Publication Date |
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CN1636916A true CN1636916A (en) | 2005-07-13 |
CN1295176C CN1295176C (en) | 2007-01-17 |
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CNB2004100603170A Expired - Fee Related CN1295176C (en) | 2004-12-09 | 2004-12-09 | Admixture for cement raw material and application |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101691514B (en) * | 2009-10-22 | 2013-01-30 | 洛阳大泽节能环保科技有限公司 | Coal dust combustion improver for cement kiln |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS57136954A (en) * | 1981-02-19 | 1982-08-24 | Asahi Denka Kogyo Kk | Crushing agent |
ZA854812B (en) * | 1984-10-04 | 1986-06-25 | Mars Inc | Tokens and token handling devices |
NL1016892C2 (en) * | 2000-12-15 | 2002-06-19 | Mega Tech Holding Bv | Composition intended as an additive for cement. |
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2004
- 2004-12-09 CN CNB2004100603170A patent/CN1295176C/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101691514B (en) * | 2009-10-22 | 2013-01-30 | 洛阳大泽节能环保科技有限公司 | Coal dust combustion improver for cement kiln |
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CN1295176C (en) | 2007-01-17 |
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