CN100522365C - Mesh proppant - Google Patents
Mesh proppant Download PDFInfo
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- CN100522365C CN100522365C CNB2004100467119A CN200410046711A CN100522365C CN 100522365 C CN100522365 C CN 100522365C CN B2004100467119 A CNB2004100467119 A CN B2004100467119A CN 200410046711 A CN200410046711 A CN 200410046711A CN 100522365 C CN100522365 C CN 100522365C
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- mesh proppant
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Abstract
The mesh proppant consists of powder material in 91-99 wt% and pore forming agent in 1-9 wt%. The powder material is compounded with kaolin, clay, flux, alumina powder in certain proportion and has alumina content of 20-90 wt%; and the pore forming agent is polystyrene or rosin. The powder material and the pore forming agent are crushed, sieved and mixed, and the mixture is rolled while adding water, kneaded into various shape and high temperature sintered to form the mesh proppant. The mesh proppant has the identical mechanical strength, acid and alkali resistance, chemical corrosion resistance, small specific weight, high porosity, low reactor load, long catalyst life and high production efficiency.
Description
Technical field
The present invention relates to the proppant of industry catalyst reactors such as a kind of chemical industry, oil, chemical fertilizer, especially a kind of lightweight mesh proppant.
Background technology
In industries such as chemical industry, oil, chemical fertilizer, generally use by after kaolin, clay, flux and the aluminium oxide powder mixed grind at present, burn a kind of high-gravity filler form through high-temperature baking and support, cover catalyst in the reactor.Though this proppant has mechanical strength and acidproof, alkaline-resisting and chemical resistance preferably, it is than great, and hole is few.When the feedstock oil grade reduces, during impure increasing, this proppant can not prevent that catalyst from sink the carbon coking, and adsorbs with to separate harmful substance ability such as sulfide little.Thereby, not only increasing the load of reactor column bed, and the catalyst action time is shortened, production efficiency reduces, and cost increases.
Technology contents
Great at the ratio that above-mentioned proppant exists, the problem that hole is few, the invention provides a kind of not only have same mechanical strength and acidproof, alkaline-resisting and chemical resistance, and proportion is little, and hole is many, and the table specific area is big, thereby can alleviate reactor load, strengthen absorption and separate the harmful substance ability, enhance productivity, prolong the mesh proppant of on-stream time.
Mesh proppant of the present invention is made up of powder, pore creating material, and its percentage by weight is: powder 91-99; Pore creating material 1-9.
Powder of the present invention is made up of kaolin, clay, flux, aluminium oxide powder, and its percentage by weight is: kaolin 10-50; Clay 5-25; Flux 10-25; Aluminium oxide powder 5-75, the content of alundum (Al in the described kaolin of root a tree name, clay and the flux adds the aluminium oxide powder of Different Weight percentage again, is mixed with the powder that alundum (Al content is 20%-90%; Described flux is potassic feldspar or talcum; Described kaolin and clay are that ferric oxide content is all smaller or equal to 0.8% high-quality china clay; Described pore creating material is polystyrene or rosin.
The manufacture method of mesh proppant of the present invention is:
1, kaolin, clay, flux are removed foreign material, bake to its moisture content smaller or equal to 3%, mix by said ratio, pulverize with pulverizer, sieve with 250-325 eye mesh screens.
2, the content of alundum (Al and powder require the content of alundum (Al to calculate in root a tree name kaolin, clay and the flux, the aluminium oxide powder that adds Different Weight percentage, be mixed with the powder that alundum (Al content is 20%-90%, the alundum (Al of every increase by 5% content is a grade in the powder, and promptly alundum (Al content is 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90% 15 grade.
3, this step manufacture method has dual mode: first kind (3-a) makes diameter with polystyrene is the proppant of 10-80 millimeter; Second kind (3-b) makes diameter with rosin is the proppant of 1-9 millimeter.
3-a: with specification is that 0.8-2 millimeter and specification are greater than 2 millimeters but through 120 minutes polystyrene spheres of 110 degree constant temperature, be 1-9 by weight percentage, join in the powder of different brackets, add an amount of water again, with mixer mixing 20-30 minute, it is defocused to go out slotted weight, covered old 5-7 days with film,, be cut into the cylindric moulded pottery not yet put in a kiln to bake of suitable length again with extruding slivering in the vacuum deairing machine, rub glomeration with hand rubbing, rubbing into diameter with hand rubbing repeatedly again in the sulphur die cavity is 10-80 millimeter spheroid, bake do after, be presented in the sintering furnace again, burnt 4-8 hour in-1550 degree bakings of 1280 degree, come out of the stove after the cooling.
3-b: with specification is the rosin of 0.1-0.4 millimeter; be 1-9 by weight percentage; join in the powder of different brackets, after 20-30 minute, progressively be added to again and ward off in the machine with the mixer mixing; add an amount of water; base substrate is grown up is the spherula of 1-9 millimeter, bake do after, be presented in the sintering furnace again; burnt 4-8 hour in the baking of 1280-1550 degree, come out of the stove after the cooling.
Mesh proppant proportion of the present invention is 0.65-1, and porosity is 25%-35%, with its support, cover on the catalyst, thereby reactor load is little, the objectionable impurities ability is strong in absorption and the separate reactor, and the catalyst action time is increased, and has improved production efficiency.Mesh proppant specification, wide in variety extensively is adapted to support in the industry reactors such as chemical industry, chemical fertilizer, oil covering catalyst and uses simultaneously.
The specific embodiment
Embodiment 1
Mesh proppant of the present invention is by weight percentage successively: the powder 91 of trioxygen-containingization two aluminium 20%, polystyrene 9.Be made by above-mentioned manufacture method step 1,2,3-a, its proportion is 0.65, and porosity is 35%.
Embodiment 2
Mesh proppant of the present invention is by weight percentage successively: the powder 95 of trioxygen-containingization two aluminium 50%, polystyrene 5.Be made by above-mentioned manufacture method step 1,2,3-a, its proportion is 0.8, and porosity is 30%.
Embodiment 3
Mesh proppant of the present invention is by weight percentage successively: the powder 99 of trioxygen-containingization two aluminium 90%, polystyrene 1.Be made by above-mentioned manufacture method step 1,2,3-a, its proportion is 1, and porosity is 25%.
Embodiment 4
Mesh proppant of the present invention is by weight percentage successively: the powder 96 of trioxygen-containingization two aluminium 20%, rosin 4.Be made by above-mentioned manufacture method step 1,2,3-b, its proportion is 0.8, and porosity is 25%.
Embodiment 5
Mesh proppant of the present invention is by weight percentage successively: the powder 93.5 of trioxygen-containingization two aluminium 55%, rosin 6.5.Be made by above-mentioned manufacture method step 1,2,3-b, its proportion is 0.75, and porosity is 33%.
Embodiment 6
Mesh proppant of the present invention is by weight percentage successively: the powder 91 of trioxygen-containingization two aluminium 90%, rosin 9.Be made by above-mentioned manufacture method step 1,2,3-b, its proportion is 0.65, and porosity is 35%.
Claims (1)
1, a kind of mesh proppant, it is characterized in that: the manufacture method of described mesh proppant is:
(1) kaolin, clay, flux are removed impurity, bake to its moisture content smaller or equal to after 3%, mix, pulverize with pulverizer, sieve with the 250-325 eye mesh screen, wherein the percentage by weight of each material is: kaolin 10-50, clay 5-25, flux 10-25,
(2) content and the powder according to alundum (Al in kaolin, clay and the flux requires the content of alundum (Al to calculate, and adds the aluminium oxide powder of Different Weight percentage, is mixed with the powder that alundum (Al content is 20%-90%,
Be that 0.8-2 millimeter and specification are greater than 2 millimeters but through 120 minutes polystyrene spheres of 110 degree constant temperature with specification (3a), be 1-9 by weight percentage, join in the powder, add an amount of water again, with mixer mixing 20-30 minute, it was defocused to go out slotted weight, covered old 5-7 days with film, in vacuum deairing machine, push slivering, be cut into the cylindric moulded pottery not yet put in a kiln to bake of suitable length again, rub glomeration with hand rubbing, rubbing into diameter with hand rubbing repeatedly again in the sulphur die cavity is 10-80 millimeter spheroid, bake do after, be presented to again in the sintering furnace, burnt 4-8 hour, come out of the stove after the cooling in-1550 degree bakings of 1280 degree, promptly become the mesh proppant
Or (3b) be the rosin of 0.1-0.4 millimeter with specification, be 1-9 by weight percentage, join in the powder; with mixer mixing 20-30 minute; progressively be added to again and ward off in the machine, add an amount of water, base substrate is grown up be the spherula of 1-9 millimeter; bake do after; be presented to again in the sintering furnace, burnt 4-8 hour, come out of the stove after the cooling in-1550 degree bakings of 1280 degree; promptly become the mesh proppant
The proportion of described mesh proppant is 0.65-1, and porosity is 25%-35%, and described flux is potassic feldspar or talcum.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB2004100467119A CN100522365C (en) | 2004-08-31 | 2004-08-31 | Mesh proppant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB2004100467119A CN100522365C (en) | 2004-08-31 | 2004-08-31 | Mesh proppant |
Publications (2)
Publication Number | Publication Date |
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CN1608732A CN1608732A (en) | 2005-04-27 |
CN100522365C true CN100522365C (en) | 2009-08-05 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CNB2004100467119A Expired - Fee Related CN100522365C (en) | 2004-08-31 | 2004-08-31 | Mesh proppant |
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Families Citing this family (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7491444B2 (en) | 2005-02-04 | 2009-02-17 | Oxane Materials, Inc. | Composition and method for making a proppant |
US7867613B2 (en) * | 2005-02-04 | 2011-01-11 | Oxane Materials, Inc. | Composition and method for making a proppant |
DE102006003295B4 (en) * | 2006-01-23 | 2012-07-19 | Ibu-Tec Advanced Materials Ag | Use of a core for supporting granules |
CA2824761C (en) | 2011-01-25 | 2018-03-13 | Oxane Materials, Inc. | Extrusion process for proppant production |
CN102924063B (en) * | 2012-11-14 | 2013-10-09 | 段文辉 | Microporous support protecting agent and manufacturing method thereof |
CN110898860B (en) * | 2018-09-14 | 2023-06-06 | 萍乡市华填化工填料有限公司 | Improved mesh propping agent and preparation method thereof |
CN109534793B (en) * | 2018-12-29 | 2021-07-13 | 陕西科技大学 | Low-density petroleum fracturing propping agent containing sapphirine crystals and preparation method thereof |
CN111875345A (en) * | 2020-08-10 | 2020-11-03 | 贵州宝鑫实业有限公司 | Rare earth ceramsite and preparation method thereof |
CN111875346A (en) * | 2020-08-12 | 2020-11-03 | 贵州宝鑫实业有限公司 | Biological ceramsite and preparation method thereof |
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2004
- 2004-08-31 CN CNB2004100467119A patent/CN100522365C/en not_active Expired - Fee Related
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