CN201949865U - Diazotization continuous pipe-type reactor - Google Patents

Abstract

A diazotization continuous pipe-type reactor includes the liquid storage tanks, a pipe-type reactor, a diazo salt separating storage tank and a circulation cooling system; the liquid storage tanks are respectively connected with the pipe-type reactor through a mixer which is able to fully mix all of the reaction materials and convey to the pipe-type reactor; a flow controller is respectively disposed between each liquid storage tank and the mixer; the mixer and the pipe-type reactor are in sealed connection; the circulation cooling system includes a quench cooler which connects an outlet of the pipe-type reactor and a liquid inlet pipe of the diazo salt separating storage tank; a medium storage tank storing the cooling medium and rapidly spraying the cooling medium to a jet nozzle of the quench cooler; and a recovering mechanism connected with the diazo salt separating storage tank for recovering the cooling medium and performing the temperature reduction treatment to the recovered cooling medium; the recovering mechanism is connected with the medium storage tank; the cooling medium is the low-temperature and high-pressure CO2; and an exhaust outlet is arranged on the top of the diazo salt separating storage tank. The utility model has advantages of high reaction recovery rate, low energy consumption and strong universality.

Description

The diazotising continuous tubular reactor

Technical field

The utility model relates to a kind of diazotising continuous tubular reactor.

Technical background

Diazo-reaction is aromatic amino compound generates diazotising salt with the nitrous acid effect under sour environment a process, diazotising salt has extremely strong chemism, can replace, reactions such as reduction, coupling, hydrolysis generate various types of compounds, and are extensive in sector applications such as dyestuff, photosensitive material, medicine and agricultural chemicals.

Diazo-reaction is the harsh reaction of a requirement, and consumption that must control reaction temperature, natrium nitrosum and inorganic acid will guarantee the material good mixing, and reaction medium has severe corrosive, so diazo-reaction is very high to the requirement of reactor.At present, industrial diazo-reaction great majority adopt stirred tank Batch Process technology, and reaction is carried out at low temperatures, and the reaction time is long, and efficient is low.The patent that has occurred partial continuous diazo-reaction device abroad, but mostly also based on the stirred tank mode, little to the productive rate lifting of reaction, energy resource consumption increases on the contrary; Diazo-reaction device patent based on the tubular reactor technology also has report, but this reactor specific aim is very strong, does not have versatility.

The utility model content

For overcoming the shortcoming of prior art, the utility model provides a kind of reaction yield height, and energy resource consumption is low, the diazotising continuous tubular reactor of highly versatile.

The diazotising continuous tubular reactor, comprise a plurality of reservoirs of storage reaction material respectively, carry out the tubular reactor of diazo reaction, the diazotising salt that obtains and store the diazotising salting liquid separates the circulating cooling system of basin and the cooling diazotising salting liquid that reaction generates in tubular reactor;

The blender that all reservoirs are sent in the tubular reactor after all by an energy all reaction masses fully being mixed is connected with described tubular reactor, be equipped with flow controller between each reservoir and the blender, described blender and described tubular reactor are tightly connected;

It is characterized in that: described circulating cooling system comprises that the outlet that connects described tubular reactor separates the quencher of the feed tube of basin with diazotising salt, the medium basin of storage cooling medium, cooling medium is sprayed into quencher nozzle in the quencher fast, with with diazotising salt separate basin be connected, to reclaim cooling medium and the cooling medium that reclaims done the recovering mechanism that cooling is handled, described recovering mechanism is connected with described medium basin; Described cooling medium is cryogenic high pressure CO ₂, the top that described diazotising salt separates basin is provided with permission CO ₂The exhaust outlet that overflows.

Further, the upstream that is connected with described blender of described tubular reactor is an increaser, and the downstream that described tubular reactor is connected with described quencher is a reducing pipe, is a column tube zone between the described upstream and downstream.

Further, described recovering mechanism comprises that the exhaust outlet that separates basin with described diazotising salt is connected, the CO remove to reclaim ₂In the moisture trap of the moisture that carries, with dried CO ₂Do the compressor and the cooler of cooling processing, described cooler is connected with described medium basin.

Further, be provided with choke valve between described medium basin and the described quencher nozzle.

Further, the inlet of described feed tube is positioned at tank top, and the outlet of feed tube is near tank bottom, and described diazotising salt separates basin and is provided with the drain pipe that diazotising salt is exported.

Further, described reservoir has 3.

Technical conceive of the present utility model is: the various raw materials that store diazo-reaction with a plurality of reservoirs respectively, reaction raw materials enters blender by pipeline and flow controller, each material enters tubular reactor and fully reacts after the abundant mixing of blender, the diazotising salting liquid that reaction the produces high temperature cryogenic high pressure CO in quencher nozzle and the circulating cooling system that flows through ₂Gas spray to mix, the diazotising salting liquid that diazo-reaction produces high temperature in quencher by CO ₂Gas cooled is to normal temperature, diazotising salting liquid and CO ₂Mixture enters diazotising salt and separates basin, and diazotising salt separates basin with CO ₂Separate with the diazotising salting liquid, the diazotising salting liquid is stayed in the basin, CO ₂Exhaust outlet by tank top enters moisture trap, and moisture trap is with CO ₂In moisture separate out, again by CO ₂Compressor is with CO ₂The gas compression, CO ₂Cooler will compress CO ₂Gas temperature reduces, and is transported in the medium basin CO of cryogenic high pressure by pipeline ₂Gas is delivered to the quencher nozzle via choke valve, so forms the circulation of a cooling medium.

During test, the flow controller of feeding system is opened the flow of regulating each reaction raw materials, in the required ratio feed of technology, open the choke valve of circulating cooling system, reaction mass enters tubular reactor continually and carries out diazo-reaction, reaction generates the diazotising salting liquid and enters the collection of diazotising salt separation basin through cooling, and the diazotising salting liquid regularly or is automatically discharged by drain pipe and carried out subsequent analysis and utilization, cooling medium CO ₂By the circulating cooling system recycling, whole diazo-reaction process is carried out continuously, and cooling medium is insoluble to reaction mass, has reduced the separation and the discharging of waste liquid, has realized the effect of energy-saving and emission-reduction.

The beneficial effects of the utility model are mainly reflected in: (1) adopts the tubular reactor of band increaser, accelerate mass transfer and reaction speed between reaction mass, raise the efficiency, improved reaction yield, and the temperature that has improved diazo-reaction, simplified reaction unit; (2) adopt quencher to cool off the high temperature diazotising salting liquid of the generation of diazo-reaction fast, avoid the decomposition at high temperature of diazotising salt; (3) adopt blender high-speed mixing reaction raw materials and employing quencher nozzle high-speed mixing diazotising salting liquid and cooling medium CO ₂, improved the speed of service and efficient, shorten diazotising salt at high-temperature residence time, reduce to decompose; (4) utilize the CO that is insoluble to the diazotising salting liquid ₂As cooling medium, the interpolation that reduces traditional cooling agent with separate, realize the effect of energy-saving and emission-reduction; (5) adopt circulating cooling system and, realized the continued operation function, reduce labour intensity and operating cost, improved efficient automatically for, discharge system.

Description of drawings

Fig. 1 is a schematic diagram of the present utility model.

The specific embodiment

With reference to accompanying drawing, further specify the utility model:

The diazotising continuous tubular reactor, comprise a plurality of reservoirs 1,2,3 of storage reaction material respectively, carry out the tubular reactor 8 of diazo reaction, the diazotising salt that obtains and store the diazotising salting liquid separates the circulating cooling system of basin 10 and the cooling diazotising salting liquid that reaction generates in tubular reactor 8;

The blender 7 that all reservoirs 1,2,3 are sent in the tubular reactor 8 after all by an energy all reaction masses fully being mixed is connected with described tubular reactor 8, be equipped with flow controller 4,5,6 between each reservoir 1,2,3 and the blender 7, described blender 7 is tightly connected with described tubular reactor 8;

Described circulating cooling system comprises that the outlet that connects described tubular reactor 8 separates the quencher 9 of the feed tube 17 of basin 10 with diazotising salt, the medium basin 14 of storage cooling medium, cooling medium is sprayed into quencher nozzle 16 in the quencher 9 fast, with with diazotising salt separate basin 10 be connected, to reclaim cooling medium and the cooling medium that reclaims done the recovering mechanism that cooling is handled, described recovering mechanism is connected with described medium basin 14; Described cooling medium is cryogenic high pressure CO ₂, the top that described diazotising salt separates basin 10 is provided with permission CO ₂The exhaust outlet 18 that overflows.

The upstream that is connected with described blender 7 of described tubular reactor 8 is an increaser, and the downstream that described tubular reactor 8 is connected with described quencher 9 is a reducing pipe, is a column tube zone between the described upstream and downstream.

The exhaust outlet 18 that described recovering mechanism comprises with described diazotising salt separates basin 10 is connected, to remove the CO that reclaims ₂In the moisture trap 11 of the moisture that carries, with dried CO ₂Do the compressor 12 and the cooler 13 of cooling processing, described cooler 13 is connected with described medium basin 14.

Be provided with choke valve 15 between described medium basin 14 and the described quencher nozzle 16.

The inlet of described feed tube 17 is positioned at tank top, and the outlet of feed tube 17 is near tank bottom, and described diazotising salt separates basin 10 and is provided with the drain pipe that diazotising salt is exported.

Described reservoir has 3.

Technical conceive of the present utility model is: the various raw materials that store diazo-reaction with a plurality of reservoirs respectively, reaction raw materials enters blender 7 by pipeline and flow controller, each material enters tubular reactor 8 and fully reacts after the abundant mixing of blender 7, the diazotising salting liquid that reaction the produces high temperature cryogenic high pressure CO in quencher nozzle 16 and the circulating cooling system that flows through ₂Gas spray to mix, the diazotising salting liquid that diazo-reaction produces high temperature in quencher 9 by CO ₂Gas cooled is to normal temperature, diazotising salting liquid and CO ₂Mixture enters diazotising salt and separates basin 10, and diazotising salt separates basin 10 with CO ₂Separate with the diazotising salting liquid, the diazotising salting liquid is stayed in the basin 10, CO ₂Exhaust outlet 18 by tank top enters moisture trap 11, and moisture trap 11 is with CO ₂In moisture separate out, again by CO ₂Compressor 12 is with CO ₂The gas compression, CO ₂Cooler 13 will compress CO ₂Gas temperature reduces, and is transported in the medium basin 14 CO of cryogenic high pressure by pipeline ₂Gas is delivered to quencher nozzle 16 via choke valve 15, so forms the circulation of a cooling medium.

During test, the flow controller of feeding system is opened the flow of regulating each reaction raw materials, in the required ratio feed of technology, open the choke valve of circulating cooling system, reaction mass enters tubular reactor continually and carries out diazo-reaction, reaction generates the diazotising salting liquid and enters the collection of diazotising salt separation basin through cooling, and the diazotising salting liquid regularly or is automatically discharged by drain pipe and carried out subsequent analysis and utilization, cooling medium CO ₂By the circulating cooling system recycling, whole diazo-reaction process is carried out continuously, and cooling medium is insoluble to reaction mass, has reduced the separation and the discharging of waste liquid, has realized the effect of energy-saving and emission-reduction.

The described content of this specification embodiment only is enumerating the way of realization of utility model design; protection domain of the present utility model should not be regarded as only limiting to the concrete form that embodiment states, protection domain of the present utility model also reach in those skilled in the art according to the utility model design the equivalent technologies means that can expect.

Claims (6)

1. diazotising continuous tubular reactor, comprise a plurality of reservoirs of storage reaction material respectively, carry out the tubular reactor of diazo reaction, the diazotising salt that obtains and store the diazotising salting liquid separates the circulating cooling system of basin and the cooling diazotising salting liquid that reaction generates in tubular reactor;

The blender that all reservoirs are sent in the tubular reactor after all by an energy all reaction masses fully being mixed is connected with described tubular reactor, be equipped with flow controller between each reservoir and the blender, described blender and described tubular reactor are tightly connected;

It is characterized in that: described circulating cooling system comprises that the outlet that connects described tubular reactor separates the quencher of the feed tube of basin with diazotising salt, the medium basin of storage cooling medium, cooling medium is sprayed into quencher nozzle in the quencher fast, with with diazotising salt separate basin be connected, to reclaim cooling medium and the cooling medium that reclaims done the recovering mechanism that cooling is handled, described recovering mechanism is connected with described medium basin; Described cooling medium is cryogenic high pressure CO ₂, the top that described diazotising salt separates basin is provided with permission CO ₂The exhaust outlet that overflows.

2. diazotising continuous tubular reactor as claimed in claim 1, it is characterized in that: the upstream that is connected with described blender of described tubular reactor is an increaser, the downstream that described tubular reactor is connected with described quencher is a reducing pipe, is a column tube zone between the described upstream and downstream.

3. diazotising continuous tubular reactor as claimed in claim 1 or 2 is characterized in that: described recovering mechanism comprises that the exhaust outlet that separates basin with described diazotising salt is connected, the CO remove to reclaim ₂In the moisture trap of the moisture that carries, with dried CO ₂Do the compressor and the cooler of cooling processing, described cooler is connected with described medium basin.

4. diazotising continuous tubular reactor as claimed in claim 3 is characterized in that: be provided with choke valve between described medium basin and the described quencher nozzle.

5. diazotising continuous tubular reactor as claimed in claim 4 is characterized in that: the inlet of described feed tube is positioned at tank top, and the outlet of feed tube is near tank bottom, and described diazotising salt separates basin and is provided with the drain pipe that diazotising salt is exported.

6. diazotising continuous tubular reactor as claimed in claim 5 is characterized in that: described reservoir has 3.

Images