Olefin polymerization process

Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Polymerizing in tubular or loop reactor

Reexamination Certificate

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C526S068000, C526S901000

Reexamination Certificate

active

06359083

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a polymerization process for the production of polyolefins wherein at least 80% of the polyolefin is produced where the gas velocity is at least 3 times the minimum fluidization velocity and the solids are conveyed by a gas throughout the polymerization process. The process results in improved operability, flexibility and throughput.
BACKGROUND OF THE INVENTION
It is well known that olefins, such as ethylene or propylene, can be polymerized in gas-phase, fluid bed processes. Examples of such processes are given in U.S. Pat. Nos. 3,709,853; 4,302,566; 4,543,399; 4,882,400; 5,436,304; and 5,541,270 and Canadian Patent No. 991,798 and Belgian Patent No 839,380.
Gas-phase polymerization of olefins in stirred tank reactors is also practiced. Examples of such processes are given in U.S. Pat. Nos. 3,944,534 and 4,442,271.
U.S. Pat. Nos. 5,696,203 and 5,698,642 discuss a gas-phase polymerization process that utilizes two separate reaction zones to produce polyolefins and sticky polymers. Polymerization occurs under fast-fluidization conditions in the first reaction zone. Polymer particles from the first reaction zone are fed into the second reaction zone, where the particles flow in a densified form under the action of gravity.
Furthermore, it is also known that olefins, such as ethylene or propylene, can be polymerized in liquid slurry processes. An example of such a process is given in U.S. Pat. No. 3,248,179.
With respect to the previously known gas-phase processes for producing polyolefins several disadvantages have been noted. For example, it has been found that sheeting or agglomerates may be formed in the gas-phase processes and also that the throughput per unit volume may be low. With respect to the liquid slurry processes for producing polyolefins, it has been found that reactor fouling or pluggages can occur.
It would be advantageous to have a process for producing polyolefins that may reduce or possibly alleviate the difficulties associated with the previously known processes for producing polyolefins. More specifically, it would be advantageous to have a process for producing polyolefins that may achieve any or all of the following objectives:
1. Reduce or eliminate agglomerate and/or sheeting formation throughout the process,
2. Increase throughput per unit volume,
3. Produces polymers ranging from crystalline to amorphous, and/or
4. Carried out in horizontal, vertical or any other process layout.
The proposed new process is a gas-phase process that addresses many of the limitations of the known polymerization processes. Several advantages of the proposed new process are as follows:
1. Allows use of high-activity catalysts and/or polymerization conditions that increase catalyst activity,
2. Reduces or eliminates sheeting in the polymerization process,
3. May be carried out in horizontal, vertical, or any other orientation,
4. Has capability for producing polymers ranging from crystalline to amorphous,
5. Can increase throughput per unit volume,
6. Reduces the time required to transition the process from producing one product to another, and/or
7. Does not require the use of a start-up bed.
Other aspects, objectives, and advantages of the present invention will be apparent to those skilled in the art.
SUMMARY OF THE INVENTION
The Applicants have discovered a process for polymerizing at least one olefin comprising reacting the at least one olefin under polymerization conditions thereby forming a reaction mixture stream comprising at least one gas component and at least one solid component comprising the polyolefin produced, wherein at least 80% of the polyolefin is produced where the at least one gas component is maintained at a velocity of either at least 3 times the minimum fluidization velocity or at least the saltation velocity, and wherein the at least one solid component is conveyed by the at least one gas component throughout the polymerization process, and recovering the resultant polyolefin.
DETAILED DESCRIPTION OF THE INVENTION
The process of the present invention for polymerizing at least one olefin comprises reacting the at least one olefin under polymerization conditions thereby forming a reaction mixture stream comprising at least one gas component and at least one solid component comprising the polyolefin produced, wherein at least 80% of the polyolefin is produced where the at least one gas component is maintained at a velocity of either at least 3 times the minimum fluidization velocity or at least the saltation velocity, and wherein the at least one solid component is conveyed by the at least one gas component throughout the polymerization process, and recovering the resultant polyolefin.
The process of the present invention is suitable for the production of homopolymers of olefins, particularly ethylene, and/or interpolymers of olefins, particularly ethylene, and at least one or more other olefin(s). Preferably the olefins are alpha-olefins. The olefins, for example, may contain from 2 to 16 carbon atoms. Particularly preferred for preparation herein by the process of the present invention are polyethylenes. Such polyethylenes are preferably homopolymers of ethylene and interpolymers of ethylene and at least one alpha-olefin wherein the ethylene content is at least about 50% by weight of the total monomers involved. Exemplary olefins that may be utilized herein are ethylene, propylene, 1-butene, 1-pentene, 1-hexene, 1-heptene, 1-octene, 4-methylpent-1-ene, 1-decene, 1-dodecene, 1-hexadecene and the like. Also utilizable herein are polyenes such as 1,3-hexadiene, 1,4-hexadiene, cyclopentadiene, 4-vinylcyclohex-1-ene, 1,5-cyclooctadiene, 5-vinylidene-2-norbornene and 5-vinyl-2-norbornene.
In the present process any polymerization conditions may be employed for producing polyolefins. Any polymerization temperature wherein an olefin can be polymerized may be used. Preferably, the polymerization temperature may generally range from −50° C. to 250° C. In general, the reactor temperature is operated at the highest temperature that is feasible taking into account the sintering temperature of the polyolefin product within the reactor. The sintering temperature of the polyolefin is defined as the temperature at which the polyolefin particles begin to melt and stick together. The total pressure in the present polymerization process may be any pressure wherein an olefin can be polymerized. Preferably, the total pressure of the polymerization process may generally range from about 25 psig to 1000 psig, preferably from about 50 to about 600 psig. In the case of producing polyethylene, the preferred total pressure generally ranges from about 100 psig to 350 psig.
Also within the present process, the polymerization medium includes polymerization catalyst(s) and/or polymerization initiator(s). Any catalyst and/or initiator known to be useful for polymerizing olefins can be used. The catalyst can be introduced into the polymerization process in any manner and at any location. The catalyst can be introduced in any form, such as in the form of a neat liquid, a solution, a slurry, or a dry free-flowing powder. The catalyst can also be used in the form of a deactivated catalyst or in the form of a prepolymer obtained by contacting the catalyst with one or more olefins.
There may be introduced into the present polymerization process any conventional polymerization additives such as co-catalysts, catalyst modifiers, activity promoters, electron donors, anti-static agents, chain terminating agents, chain transfer agents, catalyst deactivating agents, catalyst kill agents, or mixtures thereof. These materials can be introduced into the polymerization process in any manner and at any location. These materials can be introduced in any form, such as in the form of a neat liquid, a gas or vapor, a solution, a slurry, or a dry free-flowing powder.
The heat of polymerization may be removed using any conventional means. For example, the heat of polymerization can be removed using external cooling jackets, using internal cooli

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