A method for preparing recycled flame-retardant polyester by alcoholysis of waste polyester
A flame-retardant polyester and waste polyester technology, applied in the field of waste polyester recycling, can solve the problems of large fluctuations in the content of diethylene glycol by-products, poor hue of recycled polyester, and difficult control of melting point, etc., to achieve stable alcohol Improve product quality, reduce by-products, and achieve high-value recycling
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Embodiment 1
[0017] A kind of waste polyester alcoholysis method of the present embodiment prepares the method for regenerated flame-retardant polyester, such as figure 1 As shown, it includes the following steps: 1) pretreatment of waste polyester, directly smashing the clean waste polyester blocks into the feed bin, cutting the clean waste polyester fibers into the feed bin, and waste polyester bottle flakes Sorting, cleaning, impurity removal, crushing, cutting, and then feeding into the silo, and then mixing ingredients for the next process; 2) alcoholysis of waste polyester, the pretreated waste polyester, according to waste polyester (waste polyester) The molar percentage ratio of 1:2 is put into the alcoholysis kettle 1, and the alcoholysis kettle 1 contains ethylene terephthalate and oligomer (mother liquor) (adding in the first additive inlet 8), wherein the addition of ethylene terephthalate and oligomer (mother liquor) accounts for 40% of the total mass percentage of dropping in...
Embodiment 2
[0020]As described in Example 1, the difference is: the molar percentage of waste polyester and ethylene glycol is 1:4, and the alcoholysis still contains ethylene terephthalate and oligomers (mother liquor), wherein the The addition amount of ethylene glycol diformate and oligomer (mother liquor) accounted for 30% of the total mass percentage of input waste polyester, the reaction temperature was 200° C., and the reaction time was 4 hours. Add 0.2‰ (accounting for the mass percent of the product obtained) of phosphorous acid stabilizer; the esterification reaction temperature is 230 ° C, the reaction time is 1.5 hours, and the CEPPA-EG solution with a phosphorus content of 0.8% (accounting for the mass percent of the obtained product) is added at the same time, 0.3% (accounting for the mass percent of the obtained product) of DEG, so that the DEG content (accounting for the obtained product mass percent) of the esterified product is 2.9%. The temperature of polycondensation-I...
Embodiment 3
[0023] As described in Example 1, the difference is: the molar percentage of waste polyester and ethylene glycol is 1:6, and the alcoholysis still contains ethylene terephthalate and oligomers (mother liquor), wherein the The addition amount of ethylene glycol diformate and oligomer (mother liquor) accounted for 20% of the total mass percentage of input waste polyester, the reaction temperature was 190° C., and the reaction time was 2 hours. Add the trimethyl phosphate stabilizer of 0.2‰ (accounting for the mass percent of the product obtained); the esterification reaction temperature is 220°C, the reaction time is 1 hour, and the CEPPA-EG solution with a phosphorus content of 1.0% (accounting for the mass percent of the product obtained) is added simultaneously, 0.2% (accounting for the mass percent of the obtained product) of DEG, so that the DEG content in the esterified product (accounting for the obtained product mass percent) is 3.0%. The temperature of polycondensation-...
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