JP2013075845A - Method for obtaining aqueous acetonitrile with reduced water - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for obtaining an aqueous acetonitrile with reduced amount of water from an aqueous acetonitrile.SOLUTION: In the method, an aqueous acetonitrile with reduced water is obtained from an aqueous acetonitrile containing water and acetonitrile. The method includes: a step (1) of mixing the aqueous acetonitrile with a solid dehydrating agent; and a step (2) of collecting a liquid phase from a solid liquid mixture obtained in the step (1).

Description

  The present invention relates to a method for obtaining water-containing acetonitrile with reduced water content, and more particularly, to a method for obtaining water-containing acetonitrile with reduced water content by removing a part of water from the water-containing acetonitrile.

  A method of using a mixed solvent of acetonitrile / water as a solvent when producing propylene oxide from propylene using hydrogen peroxide in the presence of a catalyst is known. For example, Patent Document 1 below discloses a method for obtaining propylene oxide by reacting propylene and hydrogen peroxide in a mixed solvent containing acetonitrile and water in a ratio of 50:50 by weight.

  In this method, in addition to propylene oxide, water is generated as a by-product from hydrogen peroxide, so the amount of water in the mixed solvent increases. That is, when acetonitrile / water is used as a mixed solvent, the proportion of water in the mixed solvent increases due to the production of propylene oxide.

  Further, in Patent Document 2 below, in the method of obtaining propylene oxide by reacting propylene and hydrogen peroxide, the concentration of water in acetonitrile / water as a mixed solvent affects the production of propylene oxide, And when it contains excessively much water, it is disclosed that the production | generation rate of a propylene oxide becomes small. Therefore, if the excessively increased water is not removed, the proportion of water in the mixed solvent becomes too large to deviate from the desired range, which may adversely affect the reaction. It is necessary to remove some of the water from the water.

JP 2003-327581 A JP 2009-256301 A

As a method for obtaining water-containing acetonitrile with reduced water content from water-containing acetonitrile, there is a method in which water-containing acetonitrile is subjected to a distillation treatment to obtain water-containing acetonitrile with reduced water content. However, this method uses a distillation process in which the water to be removed is taken out from the bottom of the column and the remainder is distilled, so that it consumes a large amount of energy and is not necessarily a satisfactory method. Therefore, it is desired to propose a method for removing water from hydrous acetonitrile. As used herein, the term “hydrous acetonitrile” means a liquid mixture (ATN / H ₂ O) containing acetonitrile (ATN) and water (H ₂ O).

  As a result of studying the above problems, the present inventors have reached the present invention.

The present invention provides a method for obtaining water-containing acetonitrile with reduced water content from water-containing acetonitrile containing water and acetonitrile.
Step (1) of mixing water-containing acetonitrile containing water and acetonitrile and a solid dehydrating agent (also referred to as “mixing step (1)”), and a liquid phase from the solid-liquid mixture obtained in step (1) Step (2) for recovery (also referred to as “liquid phase recovery step (2)”)
including. In other words, the method of the present invention can also be referred to as a method of removing a part of the water contained in the water-containing acetonitrile from the water-containing acetonitrile, and the liquid phase recovered in the liquid phase recovery step (2) Corresponds to reduced water-containing acetonitrile.

  The solid-liquid mixture obtained in the mixing step (1) is composed of a solid phase and a liquid phase. The liquid phase contains water and acetonitrile, and contains water at a lower concentration in the water-containing acetonitrile to be dewatered (also referred to as “original water-containing acetonitrile”) in the mixing step (1). The solid phase contains a solid dehydrating agent and the water it takes in and may also contain acetonitrile entrained with water. Moreover, when hydrous acetonitrile contains another component, such a component is also partly accompanied by solid dehydration.

  The solid dehydrating agent used in the present invention is not particularly limited as long as it is a solid per se and has a property of preferentially taking water in comparison with acetonitrile. The incorporation mechanism is not particularly limited, and may be adsorption and / or absorption to a solid dehydrating agent. Adsorption may be chemical or physical, and in other embodiments both may function.

  The solid dehydrating agent may be in any preferred form, for example, granular, powdery, or various shapes used as a packing for filling towers, tanks, etc. (forms such as pole rings, Raschig rings, etc.), etc. It may be. Such a solid dehydrating agent is preferably porous and is advantageous in that water can be preferentially taken therein. More specifically, as the solid dehydrating agent, those made of zeolite, silica gel, water-absorbing polymer (for example, sodium polyacrylate) can be used as the solid dehydrating agent.

  In the present invention, examples of the more preferable dehydrating agent include various forms made of, for example, sodium polyacrylate, which selectively absorbs water and also absorbs sodium polyacrylate after water absorption. It is advantageous in that it can be dehydrated by adding an electrolyte solution such as salt water.

  In the liquid phase recovery step (2), it is not always necessary to remove all the liquid phases from the solid-liquid mixture. Liquid phase recovery may be performed by any suitable solid-liquid separation operation, either by recovering the liquid phase directly from the solid-liquid mixture or by recovering the remaining liquid phase by removing the solid phase. To do.

  In the former case, for example, the mixing step (1) for obtaining a solid-liquid mixture by operating so that water-containing acetonitrile passes through the solid dehydrating agent is performed, and then the liquid phase that passes through the solid dehydrating agent is recovered. By doing so, a liquid phase collection | recovery process (2) can be implemented. More specifically, the method of the present invention can be carried out, for example, by passing hydrated acetonitrile through a solid dehydrating agent as a fixed bed and recovering the liquid phase exiting from the fixed bed.

  In the latter case, a mixing step (1) for obtaining a solid-liquid mixture by integrally mixing a solid dehydrating agent and water-containing acetonitrile is performed, and then the solid-liquid mixture is substantially composed of only a liquid phase; The liquid phase recovery step (2) can be carried out by dividing into a part made of a solid dehydrating agent containing a liquid phase and recovering a part made only of the liquid phase. More specifically, the solid dehydrating agent is forcibly dispersed in the water-containing acetonitrile substantially uniformly, and then the dispersion state is released and the solid dehydration substantially including only the liquid phase and the solid dehydration including the liquid phase are performed. The method for removing water of the present invention can be carried out by dividing the former into parts made of an agent and collecting the former part. In this case, the latter part may contain a certain amount of liquid phase accompanied by a solid dehydrating agent. Therefore, when removing the latter part, it is preferable to carry out a sufficient solid-liquid separation operation to reduce the amount of the liquid phase as much as possible and to increase the former part as much as possible.

  As described above, since the solid dehydrating agent takes in water preferentially, the concentration of water contained in the liquid phase obtained in the liquid phase recovery step (2) is contained in the original water-containing acetonitrile in the mixing step (1). Lower than water concentration. That is, water-containing acetonitrile obtained by removing a part of water from the original water-containing acetonitrile can be obtained in the liquid phase recovery step (2).

  The amount of the solid dehydrating agent to be mixed is not particularly limited as long as a liquid phase containing water at a lower concentration than in the original water-containing acetonitrile can be obtained. It can be selected appropriately according to the situation. In the latter case, the amount of the solid dehydrating agent is preferably 0.01 to 10.0 parts by weight with respect to 1 part by weight of water contained in the original water-containing acetonitrile, for example. In the former case, the amount of the solid dehydrating agent as the fixed bed can be selected in consideration of the amount of water to be removed from the water-containing acetonitrile during the period of carrying out the method of the present invention.

  The method of the present invention is a reaction product in producing an alkene oxide (eg, propylene oxide) by reacting an alkene (eg, propylene) and hydrogen peroxide in a mixed solvent comprising acetonitrile and water. It can be suitably used to remove a part of water from hydrous acetonitrile containing acetonitrile and water obtained through the step of removing alkene oxide from the reaction mixture. In such a case, the water-containing acetonitrile may also contain at least one of alkene, alkene oxide and polyhydric alcohol derived from alkene (for example, propanediol). That is, such “hydrated acetonitrile” is an additional component in addition to acetonitrile and water, other components related to the reaction to produce alkene oxide, that is, reaction raw materials and reaction products (including by-products). May be included.

  In the method of the present invention, by mixing the original water-containing acetonitrile and the solid dehydrating agent, and then recovering the liquid phase, it is possible to obtain water-containing acetonitrile having a reduced water content compared to the original water-containing acetonitrile. It is advantageous in that a part of water can be removed from the original water-containing acetonitrile by a simple operation.

FIG. 1 is a flow sheet schematically illustrating the method of one embodiment of the present invention. FIG. 2 is a flow sheet schematically showing the method of another embodiment of the present invention.

  In the method of the present invention, the mixing step (1) and the liquid phase recovery step (2) may be performed by any appropriate method. The operation of mixing the water-containing acetonitrile and the solid dehydrating agent and then recovering the liquid phase essentially corresponds to the solid-liquid mixing operation and the solid-liquid separation operation. When the solid dehydrating agent takes in excess water contained in the original water-containing acetonitrile, water-containing acetonitrile having a lower water concentration than that in the original water-containing acetonitrile is obtained as a liquid phase.

  For example, the mixing step (1) is performed by supplying water-containing acetonitrile and a powder or granular solid dehydrating agent to a mixing tank having a stirring device, and mixing them together by a stirring device, Stop the stirrer and let it stand, or move the mixture to another container, let it stand, let the solid dehydrating agent settle, and generate a liquid phase in the upper part. 2) is performed. At this time, the solid dehydrating agent is generated as a solid phase, but it may be in a state where water is preferentially taken in and acetonitrile accompanying it is also taken in. In this case, the method of the present invention is carried out batchwise.

  In the method of the present invention, an acetonitrile-rich phase with a reduced water concentration is obtained as a liquid phase compared to the original water-containing acetonitrile. Since the solid dehydrating agent mixed with hydrous acetonitrile is larger than the density of hydrous acetonitrile, it settles as a solid phase below the liquid phase. Needless to say, when the solid dehydrating agent is usually granular or finely granular (that is, powdery), a liquid phase exists between these particles.

  In this embodiment, it is preferable to recover the solid dehydrating agent by removing the solid phase as it is and removing water and acetonitrile contained in the solid dehydrating agent from the solid dehydrating agent and reusing them. In another embodiment, the liquid phase recovery step (2) may be performed by recovering the liquid phase as a filtrate by filtration operation of the solid-liquid mixture obtained from the mixing step (1). In this embodiment, a solid dehydrating agent and accompanying liquid phase are obtained as filter cake. Depending on the nature of the solid dehydrating agent used, the removal of water and acetonitrile from the solid dehydrating agent may be carried out, for example, by evaporation (or desorption) by heating. In another embodiment, the drying may be performed by flowing air or an inert gas (for example, nitrogen) through the solid dehydrating agent. In yet another aspect, depending on the nature of the solid dehydrating agent used, water and acetonitrile can be removed by adding an electrolyte, such as a salt.

  In another embodiment, a device capable of continuously performing a solid-liquid extraction operation, for example, a mixer-settler device, is used to continuously supply hydrous acetonitrile and solid dehydrating agent to the mixer where they are mixed and removed from the mixer. These solid-liquid mixtures are continuously or intermittently taken out and continuously supplied to the settler, the solid dehydrating agent is allowed to settle, and the liquid phase is continuously recovered from above the settler. In this case, the solid phase and the liquid phase accompanying it can be taken out from below the settler continuously or intermittently. In still another embodiment, for example, when the amount of the solid dehydrating agent used is small, the solid phase may be stored in the settler without being taken out during the operation period. The settler is a sedimentation device using gravity, but in another embodiment, a solid-liquid separation device using centrifugal force may be used. In yet another embodiment, the liquid phase can be mechanically recovered using a filtration operation for solid-liquid separation.

  In yet another aspect, an adsorption device filled with a solid dehydrating agent in the form of a filler, for example, supplying water-containing acetonitrile to an adsorption tower, and the solid dehydrating agent preferentially takes in water while passing through the adsorption tower and adsorbs it. From the apparatus, water-containing acetonitrile having a reduced water concentration is discharged as a liquid phase. In this case, when the amount of water adsorbed by the solid dehydrating agent increases and approaches a saturated state, an adsorption operation for removing water from the solid dehydrating agent is required. Therefore, when a plurality of adsorption devices are provided in parallel, the method of the present invention can be carried out by another adsorption device during such an adsorption operation.

  The method of the present invention may be performed under any suitable operating conditions. For example, it is generally carried out at a relatively high operating temperature so that solid-liquid separation proceeds quickly. It is preferred to carry out at 0 ° C to 100 ° C, for example 20 ° C to 80 ° C.

  In the method of the present invention, when an alkene oxide (for example, propylene oxide) is produced by reacting an alkene (for example, propylene) with hydrogen peroxide in a mixed solvent containing acetonitrile and water, the alkene as a reaction product is produced. It can be used to remove a portion of water from hydrous acetonitrile containing acetonitrile and water obtained through the step of removing the oxide from the reaction mixture. Specifically, in the process for producing propylene oxide, after removing propylene oxide from the reaction mixture containing propylene oxide, the obtained hydrous acetonitrile is taken out as the original hydrous acetonitrile. The propylene oxide production process is continued by maintaining the water concentration in the mixed solvent in a predetermined concentration range generally in the range of 20 to 60% by weight, for example, about 30% by weight, depending on the production conditions of propylene oxide. . Since the water concentration in the mixed solvent increases as propylene oxide is formed, a part of the water is removed from the aqueous acetonitrile using the method of the present invention.

  More specifically, in the propylene oxide production process, at least a portion of the water-containing acetonitrile produced by removing propylene oxide from the reaction product is mixed with the solid dehydrating agent, and the liquid phase is recovered by solid-liquid separation. Since the solid dehydrating agent takes in water preferentially, the liquid phase is an acetonitrile-rich phase with a reduced water concentration, which is returned to the propylene production process and used as a mixed solvent for the reaction.

  Next, the method of the present invention will be described more specifically with reference to FIG. 1 and FIG. These drawings are schematic views of a process for obtaining water-containing acetonitrile having a reduced water content by removing a part of water from, for example, water-containing acetonitrile obtained after taking out propylene oxide from a propylene oxide production process. A flow sheet is shown.

One embodiment of the method of the present invention will be described with reference to FIG. In this embodiment, in the propylene oxide production process, the original water-containing acetonitrile (ATN / H ₂ O) 10 obtained after taking out propylene oxide and, for example, zeolite 12 as a solid dehydrating agent are supplied to the tank 14 as shown in the figure. Then, these are mixed by the stirring device 16 to obtain a solid-liquid mixture, and then the stirring is stopped and the solid dehydrating agent is allowed to settle. In another aspect, the solid-liquid mixture obtained by mixing is transferred to the solid-liquid separation tank 18 to produce the liquid phase 20 and the solid dehydrating agent layer 22 that settles therebelow as shown in the figure. The produced liquid phase 20 is collected to obtain hydrous acetonitrile 24 with reduced water content.

  The water concentration of the obtained water-containing acetonitrile 24 with reduced water content is lower than the water concentration of the original water-containing acetonitrile. In the production process of propylene oxide as described above, for example, the concentration of water (for example, 33% by weight) contained in the original water-containing acetonitrile 10 decreases in the liquid phase 20 according to the operating conditions of the method shown in FIG. This liquid phase 24 can be reused as a mixed solvent in the process for producing propylene oxide.

  The solid dehydrating agent layer 22 that settles in the solid-liquid separation tank 18 includes a solid dehydrating agent and a liquid phase (having the same composition as the liquid phase 18) that exists between the particles that form the solid dehydrating agent. The solid dehydrating agent layer 22 is taken out from the solid-liquid separation tank 18 to obtain a solid dehydrating agent 26, which is subjected to an appropriate treatment, for example, drying under heating (or under reduced pressure), and water taken into the solid dehydrating agent. And acetonitrile is removed (ie, desorbed) to recover the solid dehydrating agent. The recovered solid dehydrating agent can be reused and mixed with the original water-containing acetonitrile to carry out the method of the present invention. Note that the solid-liquid mixture obtained in the tank 14 may be subjected to a filtration operation to be divided into only a liquid phase portion and a portion containing the remaining solid dehydrating agent.

Another embodiment of the method of the present invention will be described with reference to FIG. In this embodiment, in the propylene oxide production process, the original water-containing acetonitrile (ATN / H ₂ O) 30 obtained after taking out propylene oxide is used as an adsorption tower packed with, for example, zeolite 32 in the form of a packing as a solid dehydrating agent. To the dehydrating apparatus 34 in the form of While the water-containing acetonitrile passes through the adsorption tower, the packed solid dehydrating agent and the water-containing acetonitrile are mixed, that is, the water-containing acetonitrile and the solid dehydrating agent are mixed to form a solid-liquid mixture, The solid dehydrating agent preferentially adsorbs the water contained in it. As a result, the liquid phase 36 discharged and recovered from the adsorption tower has a lower water concentration than the original water-containing acetonitrile. The state in which the water-containing acetonitrile passes through the solid dehydrating agent as the fixed bed is in a solid-liquid mixture state as if they are in contact with each other and mixed. In the present specification, the term “mixing step (2)” also includes an operation for achieving such a state.

  In the illustrated embodiment, two dehydrating devices are provided in parallel, and when the water adsorption state of the solid dehydrating agent 32 of one dehydrating device 34 approaches a saturated state, the other dehydrating device 34 ′ filled with the solid dehydrating agent 32 ′. In the meantime, the solid dehydrating agent 32 'can be regenerated by, for example, flowing nitrogen in the desorption operation of the former dehydrating apparatus 34, or by heating instead of or in addition thereto.

  Dehydration experiments from water-acetonitrile (ATN) were performed using various solid dehydrating agents. Specifically, each component is weighed in the amounts shown in Tables 1 to 3 and charged into a beaker, and stirred for 15 minutes with a stirrer to obtain a solid-liquid mixture. Was allowed to settle and a liquid phase was formed thereon. The liquid phase was collected and analyzed for its composition. The results are also shown in Tables 1-3.

The solid dehydrating agent used was as follows:
Silica gel (manufactured by Kanto Chemical Co., Ltd., product number 37039-02, form: granular (particle size 1.68 to 4,000 mm is 80% or more))
Water-absorbing polymer (polyacrylic acid sodium polymer, manufactured by Wako Pure Chemical Industries, product number 197-12451, form: powder (particle size 0.15 to 1.4 mm)

測定温度：20℃；固体脱水剤：吸水性ポリマー

Measurement temperature: 20 ° C; solid dehydrating agent: water-absorbing polymer

測定温度：20℃；固体脱水剤：シリカゲル

Measurement temperature: 20 ° C; solid dehydrating agent: silica gel

測定温度：20℃；固体脱水剤：シリカゲル：

Measurement temperature: 20 ° C; solid dehydrating agent: silica gel:

10 ... original aqueous acetonitrile _{(ATN / H 2 O),} 12 ... solid dehydrating agent,
14 ... Mixing tank, 16 ... Stirring device, 18 ... Solid-liquid separation tank, 20 ... Liquid phase,
22 ... solid dehydrating agent layer, 24 ... acetonitrile with reduced water, 26 ... solid dehydrating agent,
30 ... hydrous acetonitrile, 32 ... packed zeolite, 34 ... dehydrator, 36 ... liquid phase.

Claims (3)

It is a method for obtaining water-containing acetonitrile with reduced water content from water-containing acetonitrile containing water and acetonitrile,
Step (1) of mixing water-containing acetonitrile containing water and acetonitrile with a solid dehydrating agent, and step (2) of recovering a liquid phase from the solid-liquid mixture obtained in step (1)
Including methods.   2. The method according to claim 1, wherein the solid dehydrating agent is made of at least one material selected from zeolite, silica gel and a water-absorbing polymer.   The water-containing acetonitrile containing water and acetonitrile is a water-containing product obtained through a step of taking out propylene oxide from a reaction mixture obtained by reacting propylene and hydrogen peroxide in a mixed solvent containing acetonitrile and water. The method according to claim 1 or 2, wherein the method is acetonitrile.

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