CN85105148A - Reclaim the method for ethylene glycol in concentrated form - Google Patents

Abstract

A kind of method of separating ethylene glycol from glycolate water, glycolate water is to produce in the process of oxyethane with oxygen phase catalytic oxidation at ethene, obtains from oxyethane desorption tower bottom.This method comprises that direct feeding of glycolate water that will obtain from above-mentioned oxyethane desorption tower bottom has the knockout tower top that reaches 12 blocks of theoretical trays below the top, and indirect heating is enough to make glycolate to be divided into two bursts of logistics.First strand of gas stream comes down to steam, discharges from this knockout tower top, feeds in the above-mentioned oxyethane desorption tower, as getting logistics; Second strand of aqueous stream discharged from this knockout tower bottom, contains the ethylene glycol of 40% to 90% (weight) approximately.

Description

Reclaim the method for ethylene glycol in concentrated form

The invention relates to the method that reclaims ethylene glycol, and ethylene glycol is produced in the oxyethane process with oxygen phase catalytic oxidation by ethene and is generated.

At first, in order to isolate oxyethane in the gaseous mixture that from then on reaction produces, adopt two steps usually:

(1) absorption process is about to gaseous mixture and contacts with water, forms the dilute aqueous solution of the oxyethane that contains gas dissolved (mainly being carbonic acid gas); And

(2) desorption process, be about to aqueous solution of ethylene oxide same vapor action in tower of producing in the absorption process, emit current from tower bottom, particularly do not contain the current of ethylene glycol, with can be after it cooling with it as the used absorption liquid of first step in described two steps just now.

These current (after this be referred to as " glycolic acid fat water "-G1) since oxyethane under its residing condition, take place in desorption process especially that hydration is done and enrichment ethylene glycol little by little or constantly, if discharge section ethylene glycol therefrom not is so that the restriction glycol concentration reaches about 10%(weight) peaked words.

Consider from the economy of process for ethylene oxide production, comprise pollution problem, then require to reclaim contained ethylene glycol in the glycolate water of discharging.In fact, this is one of them, except ethylene glycol, also contain other alcohols in the glycolate water, as glycol ether or triglycol and reluctant impurity, as pointed those of No. the 3904656th, United States Patent (USP) and salt, mainly be yellow soda ash or salt of wormwood, and the sodium of carboxylic acid and sylvite.The existence of these salts is owing to added the compound (as oxyhydroxide) that contains sodium or potassium in glycolate water; In addition, glycolate water also produces corrosion, because it contains carbonic acid gas and its pH value of carboxylic acid is acid usually.

In order from glycolate water, to separate ethylene glycol, the treatment process of some complexity and high price is proposed once.

For example, No. the 3904656th, United States Patent (USP) is introduced, and the current that produce in directly process lead to before the process by the oxyethane preparing ethylene glycol, with the glycolate water of discharging by ion exchange resin and gac.

No. the 2246527th, French Patent proposes a kind ofly to handle the method for the glycolate water of discharge by reverse osmosis method, and the current of discharging contain ethylene glycol on the one hand, are about 60% of initial ethylene glycol content, and in fact do not contain salt; Current of Pai Chuing on the other hand, in fact contained is salt and remaining ethylene glycol fully.Before a kind of current import the ethylene glycol production equipment, and contained ethylene glycol no longer reclaims in second kind of current.

According to No. the 2295938th, French Patent, from the glycolate aqueous solution of discharging, separate ethylene glycol, be before straight run separates ethylene glycol, the glycolate aqueous solution is contacted with anion exchanger by cation exchanger.

Still do not have any manufacturer and realized directly from the glycolate water of discharging, separating dense ethylene glycol, and don't tell the wherein method of contained salt in advance.

The invention provides the method for from the glycolate current of discharging, separating ethylene glycol in concentrated form, and needn't separate wherein contained salt in advance.According to method of separating ethylene glycol from glycolate water provided by the invention, glycolate water is to produce in the oxyethane process with oxygen phase catalytic oxidation at ethene, obtains from the bottom of oxyethane desorption tower.This method comprises that direct feeding of glycolate water that will obtain from above-mentioned oxyethane desorption tower bottom has the knockout tower top that reaches 12 blocks of theoretical trays below cat head, and indirect heating is enough to make glycolate water to form two bursts of logistics: first strand of gas stream, what contain comes down to steam, it is discharged from this knockout tower top, sends in the above-mentioned oxyethane desorption tower as getting logistics; Second strand of aqueous stream, discharge from this knockout tower bottom contain 40% to 90%(weight approximately) ethylene glycol.

Pending glycolate aqueous distillate, the temperature and pressure condition when being preferably in it and leaving desorption tower, or under the condition similarly, it is fed the ethylene glycol knockout tower.

Usually, the existence of salt in the glycolate water does not hinder the method for the present invention of implementing.

In the knockout tower of implementing the inventive method, its average absolute pressure is preferentially selected the pressure that equals at least in the oxyethane desorption tower for use, is usually less than 6 crust.

Temperature in the tower depend on this pressure and the desired glycol concentration of logistics of discharging from tower bottom, and ethylene glycol is to separate from pending glycolate water.

The heating of knockout tower can be adopted steam or heating fluid medium commonly used.

From the logistics that contains ethylene glycol that tower bottom is emitted, can handle with any method commonly used, to separate or ethylene glycol in concentrated form, for example,, distill out ethylene glycol with the book film evaporator then by dehydration.For same purpose, before separating, it can be closed And with the ethylene glycol stream that makes from oxyethane.

Further explain the present invention with the following example.

Embodiment 1

Produce the oxyethane system with regard to common ethene with oxygen phase catalytic oxidation, comprise an oxyethane separation system, form by the absorption tower of water contained oxyethane of absorption from the gaseous mixture that catalyzed reaction produces with the desorption tower of the oxyethane that water vapor desorption absorbed.Generate 387.1 kilograms of/hour aqueous streams, wherein moisture 94.4%(weight at this), oxyethane 2.54%(weight) and ethylene glycol 3%(weight).Under 108 ℃, it is in 5 the desorption tower that this logistics is fed theoretical plate number.At this top of tower, controlled temperature is 97 ℃ and absolute pressure 1.2 crust, obtain 23.9 kilograms/hour gaseous mixture, wherein moisture 58%(weight) and contain oxyethane 40.5%(weight), in addition, also having other gas, mainly is to be present in carbonic acid gas in the oxyethane dilute aqueous soln of initial feeding desorption tower with dissolved state.

109 ℃ glycolate water flows out from the desorption tower bottom with 376.2 kilograms/hour flow velocity, wherein contains 3.1%(weight) ethylene glycol and be lower than 0.01%(weight) oxyethane.Separated into two parts then: first part is 362.5 kilograms/hour, after cooling with it as absorption liquid stream that absorbs oxyethane in the absorption tower; Second section is 13.74 kilograms/hour, and on 109 ℃ of tops that feed glycolate water treatment tower down, this treating column has 2 blocks of theoretical trays.

At 109.5 ℃ of temperature, absolute pressure 1.4 crust, and flow velocity is under 13.07 kilograms/hour the condition, to emit gas stream from this top of tower, and be steam main the composition, in the desorption tower with it feedings generation glycolate water, as oxyethane desorb fluid.

Discharge aqueous stream from glycolate water treatment tower bottom, 120.5 ℃ of 0.67 kilogram of/hour temperature of flow contain ethylene glycol 60%(weight).

Such glycol concentration, and the oxyethane efficient recovery is together, need to the oxyethane desorption tower provide 1.5 thermies/hour heat, to glycolate water treatment tower supply with 7 thermies/hour heat.

When not adopting method of the present invention, identical oxyethane desorption efficiency, the heat energy of equivalent can only make the ethylene glycol content of the aqueous solution reach 3.1%(weight).

Embodiment 2

Carry out the desorb operation of oxyethane by embodiment 1, but tower top temperature is 137.5 ℃, absolute pressure is 5 crust, and it is 18.9 kilograms/hour that cat head is discharged the gas logistics flux, contains oxyethane 51%(weight in this gas stream), water 47%(weight).In column bottom temperature is 153 ℃, discharges 383.9 kilograms/hour glycolate water, wherein contains 3.3%(weight) ethylene glycol and be lower than 0.01%(weight) oxyethane.Under same temperature, 16.41 kilograms of/hour glycolate water are fed as in the identical tower of embodiment 1.Under the condition of 154 ℃ and absolute pressure 5.2 crust, discharge 15.74 kilograms/hour gas stream from this top of tower, mainly consist of steam.

At this tower bottom, under 166 ℃, collect and obtain 0.67 kilogram/hour the little solution of ethylene glycol, ethylene glycol content 60%(weight).

Obtain such result, with identical oxyethane desorb degree but can only to reclaim ethylene glycol content be 3.3%(weight) system of the aqueous solution compares, and do not need more heat.

Embodiment 3

The aqueous stream of embodiment 1, the wherein necessary desorb of oxyethane with identical flow velocity, feeds under identical temperature in the tower similarly to Example 1.

In absolute pressure is under 3 crust and 124 ℃ the condition, discharges 23.2 kilograms/hour gas stream from top of tower, wherein contains 42%(weight) oxyethane and 56.5%(weight) water.

Under 135 ℃, discharge 395.4 kilograms/hour glycolate water, wherein contain 3.2%(weight from tower bottom) ethylene glycol.

With 31.9 kilograms/hour glycolate water, under the temperature identical, feed identical treating column with embodiment 1.

31.46 kilograms/hour the gas stream that produces from cat head under 136 ℃ of conditions is actually by vapor composition, under this temperature it is fed the oxyethane desorption tower.

Reclaim ethylene glycol and water at 180 ℃ of glycolate water treatment tower bottoms, obtaining flow is 0.455 kilogram/hour, contains 90%(weight) logistics of ethylene glycol.

The heat that needs input with do not adopt treatment process of the present invention, oxyethane desorb degree is identical, but the ethylene glycol content of the aqueous solution only be 3.2%(weight) treatment system equal.

Embodiment 4

According to the manipulation of embodiment 1, but, aqueous stream is fed in the oxyethane desorption tower with 403.7 kilograms of/hour flow velocitys at 108 ℃.Aqueous stream contains 90.5%(weight) water, 2.44%(weight) oxyethane and 7%(weight) and ethylene glycol; 120 ℃ and absolute pressure is under the conditions of 3 crust, emits 17.9 kilograms of/hour gas streams from top of tower, wherein contains 54%(weight) oxyethane and 44%(weight) water.

At 135.5 ℃, discharge 393.4 kilograms of/hour glycolate water from tower bottom, wherein contain 7.3%(weight) ethylene glycol.

In glycolate water treatment tower similarly to Example 1, handle 8.1 kilograms/hour glycolate water. under 137 ℃ and 3.2 bar pressures, gas stream from 7.65 kilograms/hour of top of tower discharges, in fact mainly be that composition is a steam, it is fed the oxyethane desorption tower.

At glycolate water treatment tower bottom, 180 ℃ and collect with 0.455 kilogram/hour flow contain 90%(weight) aqueous glycol solution.

Obtain the required heat of such result and do not adopt method of the present invention, the oxyethane rate of recovery is identical, but the aqueous glycol solution that obtains only contains ethylene glycol 7.3%(weight) method equate.

Claims (6)

1, separate the method for ethylene glycol from glycolate water, glycolate water is to produce in the process of oxyethane with oxygen phase catalytic oxidation at ethene, obtains from the bottom of oxyethane desorption tower.The method is characterized in that, directly above-mentioned glycolate water is sent in the knockout tower below this tower inlet 12 blocks of theoretical trays are arranged, the heat that indirect supply is enough makes glycolate moisture become two bursts of logistics.First strand of gas stream that is actually vapor composition discharged from the knockout tower top; Second strand for containing the aqueous stream of 40% to 90% (weight) ethylene glycol, from the bottom discharge of knockout tower.

2, method according to claim 1 is characterized in that containing in the glycolate water sodium or sylvite.

3, method according to claim 1 and 2 is characterized in that the average absolute pressure in the knockout tower equals the interior pressure of oxyethane desorption tower at least.

4, method according to claim 3 is characterized in that the average absolute pressure in the knockout tower is lower than 6 crust.

5, according to the described method of aforementioned arbitrary claim, it is characterized in that, under the temperature of the glycolate water that the oxyethane desorption tower is discharged, it is fed knockout tower.

6,, it is characterized in that first strand of gas stream fed the oxyethane desorption tower according to the described method of aforementioned arbitrary claim.