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Rotary feeder of polyolefin solid catalysts

The technology of a polyolefin catalyst and a rotary feeder, which is applied in the field of olefin polymerization, can solve the problems of unstable feeding, residues, and increased production costs, and achieves the effects of easy maintenance, simple structure, and production cost savings.

Active Publication Date: 2018-06-26
PETROCHINA CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This invention can realize small dose of powder feeding, but the material is easy to deposit on the inner wall of the material channel, resulting in measurement error
[0005] Chinese patent CN101811011A discloses a catalyst automatic feeding method. The fluidization conveying air pipeline is set to continuously feed the fluidizing conveying air into the feeder. A fluidizing conveying air regulating valve and a flow meter are arranged on the fluidizing conveying air pipeline. Feeding regulating valve, a connecting pipe is set between the top of the feeder and the pipe section of the discharge pipe near the outlet of the discharge valve. , the catalyst circulates in the connected circulation loop at the top of the feeder, which reduces the deposition and clogging during the catalyst delivery process, and the problem of unstable feeding, but the circulation device of this equipment is set on the top of the feeder, and strong fluidization is required during the circulation process Conveying air, the device generally uses compressed air as the fluidized conveying air, so the equipment cost is relatively high, and the invention also requires the fluidized conveying air to ensure that the internal pressure of the feeder is constantly lower than or equal to the catalyst tank charging pressure and higher than the regeneration pressure. The pressure of the device is higher, which requires higher equipment and increases the production cost
This invention can continuously add solid catalyst into the reaction system under normal pressure, but due to the lack of catalyst metering device, the amount of catalyst added cannot be controlled
Moreover, this feeding system uses a catalyst tank and an intermediate tank. The catalyst feeding process is long, and the catalyst is easy to accumulate and remain in the intermediate tank, resulting in waste of catalyst.
[0007] At present, there is a lack of a catalyst feeder that is simple in equipment structure, easy to repair and maintain, and capable of continuously, smoothly and accurately adding solid polyolefin catalyst particles into the polymerization reactor

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] The angle α between the direction of the groove 3 on the surface of the cylinder 2 and the axis is determined to be 15°C, and the different rotation speeds of the cylinder 2 are accurately measured and calibrated with the exhausted Ti-based catalyst. The specific process is that the cylinder 2 Rotation speed is set to 2 rpm, 4 rpm, 6 rpm, 7 rpm, 8 rpm, 9 rpm, 10 rpm, 12 rpm, 14 rpm , 16 rpm, 20 rpm, 30 rpm, measure the amount of catalyst feed in 5 minutes, 10 minutes, 15 minutes, 30 minutes, and 1 hour, and take the average value, and then draw the catalyst The relationship curve between the feeding amount and the rotation speed of the cylinder 2, and determine its relationship formula. Obtain the relational curve or relational expression of this kind of catalyst feeding amount and cylinder 2 rotation speeds, determine that can by adjusting the rotation speed of cylinder 2, carry out accurate metering and control to catalyst feeding amount, the rotation of cylinder 2 is...

Embodiment 2

[0038] The included angle α between the direction of a circle of grooves 3 on the surface of the cylinder 2 and the axis is determined to be 20°C, and the different rotation speeds of the cylinder 2 are accurately measured and calibrated by using an invalid Cr-based catalyst. Rotation speed is set to 2 rpm, 4 rpm, 6 rpm, 7 rpm, 8 rpm, 9 rpm, 10 rpm, 12 rpm, 14 rpm , 16 rpm, 20 rpm, 30 rpm, measure the amount of catalyst feed in 5 minutes, 10 minutes, 15 minutes, 30 minutes, and 1 hour, and take the average value, and then draw the catalyst The relationship curve between the feeding amount and the rotation speed of the cylinder 2, and determine its relationship formula. Obtain the relational curve or relational expression of this kind of catalyst feeding amount and cylinder 2 rotation speeds, confirm that can now by adjusting the rotation speed of cylinder 2, carry out accurate metering and control to catalyst feeding amount, the rotation of cylinder 2 is controlled by an elec...

Embodiment 3

[0040]The angle α between the direction of the groove 3 on the surface of the cylinder 2 and the axis is determined to be 30°C, and the different rotation speeds of the cylinder 2 are accurately measured and calibrated with the spent metallocene catalyst. Rotation speed is set to 2 rpm, 4 rpm, 6 rpm, 7 rpm, 8 rpm, 9 rpm, 10 rpm, 12 rpm, 14 rpm , 16 rpm, 20 rpm, 30 rpm, measure the amount of catalyst feed in 5 minutes, 10 minutes, 15 minutes, 30 minutes, and 1 hour, and take the average value, and then draw the catalyst The relationship curve between the feeding amount and the rotation speed of the cylinder 2, and determine its relationship formula. Obtain the relational curve or relational expression of this kind of catalyst feeding amount and cylinder 2 rotation speeds, confirm that can now by adjusting the rotation speed of cylinder 2, carry out accurate metering and control to catalyst feeding amount, the rotation of cylinder 2 is controlled by an electric motor.

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Abstract

The invention discloses a rotary feeder of polyolefin solid catalysts. The rotary feeder comprises a housing, a cylindrical body, and a connecting shaft; a cavity is formed in the housing; the cylindrical body is arranged in a transverse manner; the surface of the cylindrical body is provided with a circular groove; the cylindrical body is arranged in the cavity, is pressed against the cavity firmly, and is capable of rolling in the cavity along the transverse direction axis; the connecting shaft is arranged on the transverse direction axis of the cylindrical body; the housing is provided witha hole corresponding to the connecting shaft; and the connecting shaft is designed to penetrate the hole. The rotary feeder is simple in structure, and convenient and rapid in maintenance, and is capable of realizing introduction of solid polyolefin catalyst particles into a polymerization reactor continuously, smoothly, and accurately.

Description

technical field [0001] The invention relates to the field of olefin polymerization, in particular to a feeder for granular solid polyolefin catalysts. Background technique [0002] At present, most of the catalysts used in olefin polymerization in industry are solid particle type, and the feeding of this solid particle type catalyst is usually added by a specially designed catalyst feeding device, such as the solid catalyst feeding device adopted on the Unipol polyethylene device; there is also a After a complex preparation process, the catalyst is prepared into a certain concentration of slurry or paste, and then sent into the reactor with a metering system. In the above two methods, the equipment investment of the former is very high, the adding process is easy to block, and there is no accurate and effective method to know the catalyst content in the catalyst feeder. The preparation process of the latter is extremely complicated, and the preparation of a single catalyst ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J8/00C08F2/01
CPCB01J8/002B01J2208/00752C08F2/01
Inventor 西晓丽李瑞国海峰王熺王登飞郭峰柳建伟赵兴龙高宇新宋磊杨国兴付义王斯晗姜进宪吕红丽王立明闫磊磊
Owner PETROCHINA CO LTD
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