CN209740712U - Hydroxylamine hydrochloride apparatus for producing - Google Patents

Abstract

The utility model provides a hydroxylamine hydrochloride apparatus for producing, is including preparing cauldron, acidolysis reaction first tower and acidolysis reaction second tower, it is connected with the feed inlet to prepare the cauldron top, the feed inlet is connected with hydrochloric acid inlet pipe, diacetylmonoxime inlet pipe, aftertreatment mother liquor inlet pipe respectively, the body of acidolysis reaction first tower and acidolysis reaction second tower is equipped with the inlet pipe respectively, and the tower bottom of acidolysis reaction first tower and acidolysis reaction second tower is equipped with the discharging pipe respectively, the inlet pipe and the discharging pipe of acidolysis reaction first tower are connected with the discharge gate and the feed inlet of first reboiler respectively, the inlet pipe and the discharging pipe of acidolysis reaction second tower are connected with the second reboiler respectively, it is connected with the feed inlet of first reboiler to prepare the cauldron. The utility model discloses a system's equipment is few, area is little, the investment is little, the management is convenient, the utility model discloses product purity, yield, production speed all are better than the hydroxylamine hydrochloride product on the current market, adopt the moisture in the pervaporation separation solvent, and the energy consumption is low, and is efficient.

Description

Hydroxylamine hydrochloride apparatus for producing

Technical Field

The utility model belongs to the technical field of the chemical production technique and specifically relates to a hydroxylamine hydrochloride apparatus for producing.

Background

Hydroxylamine hydrochloride is an important chemical raw material and an organic synthesis intermediate, and has wide application. Hydroxylamine hydrochloride is commonly used for the preparation of oximes, in particular cyclohexanone oxime for the synthesis of caprolactam. Hydroxylamine hydrochloride can also be used for synthesizing various medicines, pesticides and dyes, such as anticancer drugs hydroxyurea, sulfamethoxazole, pesticide methomyl and dye isatin; can also be used for synthesizing high-value intermediates with more complex structures, such as hydroxylamine-O-sulfonic acid, p-hydroxybenzonitrile, carboxymethyl hydroxylamine hemihydrochloride and N-hydroxysuccinimide; it can also be used as a depolarizer in electroanalysis, a constant viscosity agent in the synthetic rubber industry, a reducing agent for analyzing bioactive substances, etc.

The existing device and system for producing hydroxylamine hydrochloride finished products have the advantages of high cost, complex structure, difficult operation, low obtained yield, low efficiency and difficult satisfaction of market demands, and the finished products have the advantages of high cost, low profit, maintenance and high maintenance cost and are difficult to realize continuous production and development.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydroxylamine hydrochloride apparatus for producing to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a hydroxylamine hydrochloride production device comprises a preparation kettle, a first acidolysis reaction tower and a second acidolysis reaction tower, wherein the top of the preparation kettle is connected with a feed inlet, the feed inlet is respectively connected with a hydrochloric acid feed pipe, a butanone oxime feed pipe and a post-treatment mother liquor feed pipe, the bodies of the first acidolysis reaction tower and the second acidolysis reaction tower are respectively provided with a feed pipe, the bottoms of the first acidolysis reaction tower and the second acidolysis reaction tower are respectively provided with a discharge pipe, the feed pipe and the discharge pipe of the first acidolysis reaction tower are respectively connected with a discharge port and a feed inlet of a first reboiler, the feed pipe and the discharge pipe of the second acidolysis reaction tower are respectively connected with a second reboiler, the preparation kettle is connected with the feed inlet of the first reboiler, the tops of the first acidolysis reaction tower and the second acidolysis reaction tower are communicated through pipelines, and the discharge pipes of the first acidolysis reaction tower and the second acidolysis reaction tower are connected at intervals through, the discharging pipe of the second acidolysis reaction tower is connected with the feeding pipe of the crystallization kettle through a feeding pump of the second acidolysis reaction tower, and the discharging pipe of the crystallization kettle is connected with a horizontal pushing centrifugal machine.

preferably, a liquid outlet pipe of the horizontal pushing centrifuge is connected with a mother liquor tank, and a liquid outlet pipe of the mother liquor tank is connected with a feeding hole of the solvent mixing tank through a mother liquor tank feeding pump.

Preferably, the top of the first acidolysis reaction tower is connected with a condenser, the top of the condenser is connected with a vacuum system A, a condenser discharge pipe at the bottom of the condenser is connected with a reflux port at the top of the first acidolysis reaction tower, and the side part of the condenser is also connected with a butanone oxime removing device B.

The system has the advantages of less equipment, small occupied area, small investment and convenient management, the purity, the yield and the production speed of the product of the utility model are all better than those of the hydroxylamine hydrochloride product on the existing market, and the water in the solvent is separated by pervaporation, so that the energy consumption is low and the efficiency is high; the acidolysis reaction tower I and the acidolysis reaction tower II adopt a structural form that two tower bottoms share one tower top, so that the temperature can be controlled in a segmented manner conveniently, and the reaction is carried out more thoroughly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, in an embodiment of the present invention, a hydroxylamine hydrochloride production apparatus includes a preparation kettle 1, a first acidolysis reaction tower 2 and a second acidolysis reaction tower 3, a feed inlet is connected to the top of the preparation kettle 1, the feed inlets are respectively connected to a hydrochloric acid feed pipe 11, a butanone oxime feed pipe 12 and a mother liquor feed pipe 13, the bodies of the first acidolysis reaction tower 2 and the second acidolysis reaction tower 3 are respectively provided with a feed pipe, discharge pipes are respectively arranged at the bottoms of the first acidolysis reaction tower 2 and the second acidolysis reaction tower 3, the feed pipe and the discharge pipe of the first acidolysis reaction tower 2 are respectively connected to a discharge port and a feed inlet of a first reboiler 21, the feed pipe and the discharge pipe of the second acidolysis reaction tower 3 are respectively connected to a second reboiler 21, the preparation kettle 1 is connected to the feed inlet of the first reboiler 21, the tops of the first acidolysis reaction tower 2 and the second acidolysis reaction tower 3 are communicated through a pipeline, the discharging pipes of the first acidolysis reaction tower 2 and the second acidolysis reaction tower 3 are connected at intervals through control valves, the discharging pipe of the second acidolysis reaction tower 3 is connected with the feeding pipe of the crystallization kettle 7 through a second acidolysis reaction tower feeding pump 32, and the discharging pipe of the crystallization kettle 7 is connected with a horizontal pushing centrifuge 8.

The drain pipe of the horizontal pushing centrifuge 8 is connected with the mother liquor tank 9, and the discharge pipe of the mother liquor tank 9 is connected with the feed inlet of the solvent mixing tank 4 through the mother liquor tank feed pump 91, so that the operation can be circulated, and the yield of finished products can be improved.

2 tops in acidolysis reaction tower are connected with condenser 22, condenser 22 top is connected with vacuum system A, condenser 22 bottom condenser discharging pipe is connected with acidolysis reaction tower top backward flow mouth, condenser 22 lateral part still is connected with remove butanone oxime device B.

The continuous production process of the hydroxylamine hydrochloride by adopting the continuous production system of the hydroxylamine hydrochloride comprises the following steps:

A. The hydrochloric acid and the butanone oxime or the byproduct butanone oxime hydrochloride for producing the methyl-tributyrinoxime silane are respectively continuously metered by a mass flow meter and then flow into the preparation tank 1, the hydrochloric acid and the butanone oxime are mixed and react to generate the butanone oxime hydrochloride,

B. The butanone oxime hydrochloride is sent into the first acidolysis reaction tower 2 through a first reboiler for acidolysis and is converted into two materials of butanone and hydroxylamine hydrochloride, a control valve is opened, the materials are subjected to enhanced acidolysis through the second acidolysis reaction tower 3 to obtain more butanone and hydroxylamine hydrochloride materials, water-containing butanone in the first acidolysis reaction tower 2 and the second acidolysis reaction tower 3 is pumped out, and the recovered water-containing butanone is removed from the butanone oxime device to be used as a raw material for producing the butanone oxime;

C. The hydroxylamine hydrochloride material at the bottom of the acidolysis reaction tower 3 is pumped into a crystallization kettle 7 by a pump for cooling crystallization, slurry containing the crystals flows into a horizontal centrifugal machine 8, hydroxylamine hydrochloride crystals and mother liquor are separated, and the hydroxylamine hydrochloride crystals are subjected to post-treatment refining and drying to obtain a hydroxylamine hydrochloride product; the mother liquor after post-treatment can enter the preparation tank 1 for cyclic utilization; the mother liquor after hydroxylamine hydrochloride crystallization, which contains hydroxylamine hydrochloride and hydrochloric acid, is also metered and flows into the preparation tank 1. The mother liquor is buffered in a mother liquor tank 9 and then returns to the solvent mixing tank 4 for recycling.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. A hydroxylamine hydrochloride production device comprises a preparation kettle, a first acidolysis reaction tower and a second acidolysis reaction tower, and is characterized in that the top of the preparation kettle is connected with a feed inlet, the feed inlet is respectively connected with a hydrochloric acid feed pipe, a butanone oxime feed pipe and a post-treatment mother liquid feed pipe, the bodies of the first acidolysis reaction tower and the second acidolysis reaction tower are respectively provided with a feed pipe, the bottoms of the first acidolysis reaction tower and the second acidolysis reaction tower are respectively provided with a discharge pipe, the feed pipe and the discharge pipe of the first acidolysis reaction tower are respectively connected with a discharge port and a feed inlet of a first reboiler, the feed pipe and the discharge pipe of the second acidolysis reaction tower are respectively connected with a second reboiler, the preparation kettle is connected with the feed inlet of the first reboiler, the tops of the first acidolysis reaction tower and the second acidolysis reaction tower are communicated through pipelines, and the discharge pipes of the first acidolysis reaction tower and the second acidolysis reaction tower are connected at, the discharging pipe of the second acidolysis reaction tower is connected with the feeding pipe of the crystallization kettle through a feeding pump of the second acidolysis reaction tower, and the discharging pipe of the crystallization kettle is connected with a horizontal pushing centrifugal machine.

2. the hydroxylamine hydrochloride production apparatus according to claim 1, wherein a liquid outlet pipe of the horizontal pushing centrifuge is connected to a mother liquor tank, and a liquid outlet pipe of the mother liquor tank is connected to a feed inlet of the solvent mixing tank through a mother liquor tank feed pump.

3. The apparatus for producing hydroxylamine hydrochloride according to claim 1, wherein a top of the acid hydrolysis reaction tower is connected to a condenser, and a top of the condenser is connected to a vacuum system A.

4. The hydroxylamine hydrochloride production apparatus as claimed in claim 3, wherein the condenser outlet pipe at the bottom of the condenser is connected to the top reflux port of the acidolysis reaction tower, and the side of the condenser is further connected to the butanone oxime removal device B.