CN106512450A - Miniaturized energy-saving evaporative regeneration device - Google Patents

Abstract

The invention relates to a miniaturized energy-saving evaporative regeneration device. The device comprises a stock solution box, a concentrated solution box, a distillation still, a heat pump unit, a first heat exchanger, a second heat exchanger, a cooling fan and a steam-liquid cooling box; the distillation still comprises a main distillation still body and an auxiliary distillation still body, a first heating chamber and a first stock solution inlet are formed in the main distillation still body, and a first steam outlet is formed in the top of the main distillation still body; an outlet of the heat pump unit is connected with an inlet of the first heating chamber, an inlet of the heat pump unit is connected with a cooling medium outlet of the steam-liquid cooling box, and a cooling medium inlet is connected with an outlet of the first heating chamber through the cooling fan; an inlet of a second heating chamber of the auxiliary distillation still body is connected with the first steam outlet, an outlet of the second heating chamber is connected with a second steam-liquid inlet, a second vacuum pump is connected with a steam-liquid outlet, a second steam outlet is connected with a first steam-liquid inlet, and a second stock solution inlet communicates with the stock solution box. The miniaturized energy-saving evaporative regeneration device is small in size, low in investment and energy consumption, wide in application range and suitable for the industries of chemical engineering, pharmacy, water treatment and the like.

Description

The energy-saving evaporation regenerating unit of miniaturization

Technical field

The present invention relates to a kind of liquid material processing meanss.Specifically, it is for trade effluent, containing the organic of impurity The liquid materials such as solvent carry out the evaporation regenerating unit for purifying, regenerating.Suitable for industries such as chemical industry, pharmacy, water process.

Background technology

At present, in industries such as chemical industry, pharmacy, water process, for liquid such as trade effluent, the organic solvents containing impurity The evaporation regenerating unit that material carries out purifying, regenerating mainly has multiple-effect evaporation, three kinds of sides of multistage flash evaporation and function of mechanical steam recompression Formula.Multiple-effect evaporation therein and multistage flash evaporation mode need a large amount of steam as thermal source, and device therefor is large sized complete sets of equipment, no Only energy consumption is more, invests larger.And function of mechanical steam recompression mode, heated using steam only in start, produced in device to be evaporated After steam, the indirect steam produced in compressor is to vaporizer is compressed, improve indirect steam energy and plus To utilize, so as to reclaim the potential of indirect steam, energy consumption is reduced.Although function of mechanical steam recompression mode can reduce energy Consumption, but still need to be equipped with the auxiliary steam energy, and due to direct compressed liquid material steam, equipment failure rate is high.It is mentioned above The traditional evaporation equipment for arriving is that mostly main equipment, the treating capacity of equipment and investment, all than larger, are not suitable for medium-sized and small enterprises, The scope of application is restricted.

The content of the invention

The problem to be solved in the present invention is to provide a kind of energy-saving evaporation regenerating unit of miniaturization.This evaporation regeneration dress Put, not only equipment volume is little, small investment, energy consumption are low and applied widely.

The invention solves the problems that the problems referred to above by technical scheme below realize：

The energy-saving evaporation regenerating unit of miniaturization of the present invention includes stock solution case, concentration liquid case and distillating still, is characterized in also wrapping Include source pump, First Heat Exchanger, the second heat exchanger, cooling blower and vapour-liquid cooler bin.

The distillating still contains main distillating still and secondary distillating still, has the first heating chamber, the first stock solution to enter in the middle part of main distillating still Mouthful, there is the first steam to go out at the top of main distillating still, the first stoste outflow is by the second heat exchanger and pipeline, valve, filter and original Liquid case is connected.

There are cooling medium inlet, cooling medium outlet, the first vapour-liquid import, the second vapour-liquid import, vapour on vapour-liquid cooler bin Liquid outlet, condensate outlet.

There is inlet and outlet in source pump, in the first heating chamber, have the first heating chamber inlet, the first heating chamber outlet, heat Pump assembly is exported and is connected with the first heating chamber inlet, and source pump entrance is connected with cooling medium outlet, and cooling medium enters Mouth is connected with the first heating chamber outlet by cooling blower.

There are the second heating chamber, the second stoste outflow in the middle part of the secondary distillating still, at the top of secondary distillating still, have the second steam (vapor) outlet, There are the second heating chamber inlet, the second heating chamber outlet, the second heating chamber inlet and first steam (vapor) outlet in second heating chamber It is connected, the second heating chamber outlet is connected with the second vapour-liquid import by the second heat exchanger, the second vacuum pump, the second vacuum pump It is connected with vapour-liquid outlet, the second steam (vapor) outlet passes through First Heat Exchanger, the first vacuum pump and the first vapour-liquid import phase Even, the second stoste outflow is connected with stock solution case by First Heat Exchanger and pipeline, valve, filter.

Wherein, the intracavity bottom of main distillating still and secondary distillating still is connected with the concentration liquid case by valve and pipeline.

Further improvement of the present invention scheme is that the First Heat Exchanger is formed in parallel by two elements exchange devices.

Second heat exchanger is formed in parallel by two elements exchange devices.

Further improvement of the present invention scheme is that have air valve at the top of main distillating still.

Further improvement of the present invention scheme is that have air valve at the top of secondary distillating still.

Further improvement of the present invention scheme be have on stock solution upper box part both sides box wall respectively oil slick outlet and valve and Medicament adds mouth and valve.

Further improvement of the present invention scheme is that have the 3rd stoste outflow and valve on the side wall in stock solution bottom portion.

Further improvement of the present invention scheme is that have precipitate outlet and valve in the bottom of stock solution case.

The further improvement project of the present invention is that concentrated solution bottom portion has floss hole and valve.

As can be seen from the above scheme, the evaporation thermal source comes from source pump and indirect steam, using heat pump techniques It is the evaporation after high product heat for material to absorb low product thermal transition, compared with traditional multiple-effect evaporation thermal source, it is possible to decrease energy expenditure.

Source pump of the present invention using external compression type, steam preheating when need not start shooting are pressed again with traditional mechanical steam Contracting carrys out direct compressed material steam phase ratio, reduces operation difficulty.Meanwhile, the circulatory mediator in compression heat pump system is reduced The fault rate of equipment.Using indirect heat exchange method, the complete equipment flames of anger, it is particularly suited for the inflammable and explosive solvent of low boiling again Raw, concentration.

Preheating, evaporation and condensation of the present invention to material to be processed, make full use of the latent heat of material itself and the energy of system Amount input, it is compared with traditional evaporation technique, more energy-saving.The present invention adopts high efficient heat exchanging technology, is inhaled using heat pump techniques It is the evaporation after high product heat for material to receive low product thermal transition, provides evaporation thermal source for vapo(u)rization system, while the heat pump after lowering the temperature Circulatory mediator is used for the condensation of clean steam after material evaporation, improves the utilization rate of energy by way of this heat exchange.Utilize Material after evaporation carries out heat exchange with stock solution, fully reclaims the energy of material after evaporation.

The present invention reaches the evaporation equipment treating capacity that tradition 30 is imitated through the vapo(u)rization system of 2-5 effects, using high efficient heat exchanging skill Art, improves evaporation efficiency, reduces energy consumption.Vapo(u)rization system is integrated by the present invention, reduces occupation area of equipment, because This, it is adaptable to the field such as water process and solvent recovery of medium-sized and small enterprises, it is not only energy-saving, can also accomplish environmental emission reduction, drop The operating cost of low enterprise.

Description of the drawings

Fig. 1 is the energy-saving evaporation regenerating unit structural representation of miniaturization of the present invention.

Specific embodiment

As shown in figure 1, the energy-saving evaporation regenerating unit of the miniaturization of the present invention contains stock solution case 21, concentration liquid case 24, steams Evaporate kettle, source pump 11, First Heat Exchanger 10, the second heat exchanger 23, cooling blower 12 and vapour-liquid cooler bin 17.

The distillating still contains main distillating still 5 and secondary distillating still 8, be provided with the middle part of main distillating still 5 first heating chamber, first Stoste outflow 26, is provided with the first steam (vapor) outlet 4 at the top of main distillating still 5, the first stoste outflow 26 by the second heat exchanger 23 and Pipeline, valve, filter are connected with stock solution case 21.

It is processed on the vapour-liquid cooler bin 17 to have cooling medium inlet 14, cooling medium to export the 171, first vapour-liquid import 15th, the second vapour-liquid import 16, vapour-liquid outlet 172, condensate outlet 173.

Inlet and outlet is machined with source pump 11, is machined with the first heating chamber inlet 1, first and adds in the first heating chamber Hot cell outlet 2, the outlet of source pump 11 are connected with the first heating chamber inlet 1, and the entrance of source pump 11 is situated between with the cooling Matter outlet 171 is connected, and cooling medium inlet 14 is connected with the first heating chamber outlet 2 by cooling blower 12.Wherein, source pump In medium by first heating chamber inlet 1 enter main distillating still 5 in, for main distillating still 5 evaporation heat.From the first heating The medium that room outlet 2 is discharged is used for the condensation and cooling of vapour-liquid in vapour-liquid cooler bin 17.

The second heating chamber, the second stoste outflow 9 is provided with the middle part of the secondary distillating still 8, it is processed at the top of secondary distillating still 8 to have Second steam (vapor) outlet 7, processing second in the second heating chamber heat chamber inlet 6, the second heating chamber outlet 25, the second heating chamber inlet 6 are connected with first steam (vapor) outlet 4, make the steam that main distillating still 5 is produced be used for the evaporation heating of secondary distillating still 8.

Second heating chamber outlet 25 passes through the second heat exchanger 23, the second vacuum pump 22 and second vapour-liquid import, 16 phase Even, the second vacuum pump 22 is connected with vapour-liquid outlet 172, is provided power by the second vacuum pump 22, is made from the second heating chamber to go out The steam that mouth 25 is discharged carry out, after heat exchange, entering back into vapour-liquid cold by the second heat exchanger 23 and the stock solution into main distillating still 5 But case 17 is condensed and is cooled down.Meanwhile, the second vacuum pump 22 makes to produce negative pressure in main distillating still 5.

Second steam (vapor) outlet 7 is connected with second vapour-liquid import 16 by First Heat Exchanger 10, the first vacuum pump 13, the Two stoste outflows 9 are connected with stock solution case 21 by First Heat Exchanger 10 and pipeline, valve, filter.Carried by the first vacuum pump 13 For power, the steam discharged is made from the second steam (vapor) outlet 7 to carry out heat by First Heat Exchanger 10 with the stock solution for entering secondary distillating still 8 After exchange, enter back into vapour-liquid cooler bin 17 and condensed and cooled down.Meanwhile, the first vacuum pump 13 makes to produce in secondary distillating still 8 and bears Pressure.

Concentration liquid case 24 is connected with the intracavity bottom of main distillating still 5 and secondary distillating still 8 by valve and pipeline.

Wherein, the First Heat Exchanger 10 and the second heat exchanger 23 are formed in parallel by two elements exchange devices.

For convenience of the negative pressure state in control distillating still, sky is provided with brokenly at the top of main distillating still 5 and secondary distillating still 8 Valve 3.

For removing oil slick or other impurities in stock solution, oil slick outlet is machined with 21 top of stock solution case, one side box wall 19, valve is installed in the oil slick outlet.

For ease of adding medicament, medicament addition mouth 18, the medicament is machined with another side box wall on 21 top of stock solution case Valve is installed on addition mouth.

For ease of to 21 internal-filling liquid of stock solution case, being machined with the 3rd stoste outflow 20 on the side wall of 21 bottom of stock solution case, should Valve is installed in stoste outflow.

For ease of discharging the precipitate in stock solution case 21, precipitate outlet and valve is machined with the bottom of stock solution case 21 Door.

For ease of discharging concentrated solution, floss hole is machined with 24 bottom of concentration liquid case, valve is installed at floss hole.

When the energy-saving evaporation regenerating unit of miniaturization of the present invention runs, the stock solution in stock solution case 21 is all the way through second The steam that second heating chamber outlet 25 is discharged in the middle part of heat exchanger 23 and secondary distillating still 8 carries out heat exchange, and the stock solution after intensification passes through First stoste outflow 26 is evaporated in main distillating still 5.The origin of heat of the evaporation of main distillating still 5 is sent in source pump outlet The medium for coming, the medium enter main distillating still 5 by the first heating chamber inlet 1, are discharged by the first heating chamber outlet 2, first Heating interior is heated to stock solution, stock solution is evaporated under negative pressure state.The negative pressure is provided by the second vacuum pump 22.By The steam that first steam (vapor) outlet 4 is discharged enters secondary distillating still 8 by the second heating chamber inlet 6, is stock solution evaporation in secondary distillating still 8 Thermal source is provided.

Second steam (vapor) outlet 7 of another road of stock solution in stock solution case 21 at the top of First Heat Exchanger 10 with secondary distillating still 8 The steam of discharge carries out heat exchange, and the stock solution after intensification is entered in secondary distillating still 8, and in negative pressure shape by the second stoste outflow 9 It is evaporated under state.Evaporation thermal source therein comes from the steam that first steam (vapor) outlet 4 of main distillating still 5 is discharged.Secondary distillating still 8 Interior negative pressure is provided by the first vacuum pump 13.

The steam that second steam (vapor) outlet 7 is discharged is provided by the first vacuum pump 13 after 10 preliminary cooling of First Heat Exchanger Power is cooled down again in vapour-liquid cooler bin 17.Meanwhile, the steam that the first heating chamber outlet 25 is discharged is changed through second After the 23 preliminary cooling of hot device, power is provided by the second vacuum pump 22 and cooled down into vapour-liquid cooler bin 17 again, after cooling Clean or high-purity material is discharged by condensate outlet 173 in liquid form, is used in production.It is cold in vapour-liquid cooler bin 17 But medium sources are in the heat pump medium discharged by the first heating chamber outlet 2, this medium by pipeline, valve connection cooling blower 12 and The cooling import 14 of vapour-liquid cooler bin 17 and coolant outlet 171.

By valve, pipeline, the concentrated solution of periodic exhaustion intracavity bottom is to concentrating liquid case for main distillating still 5 and secondary distillating still 8 In 24.

Claims (10)

1. the energy-saving evaporation regenerating unit of miniaturization, including stock solution case（21）, concentration liquid case（24）And distillating still, it is characterised in that Also include source pump（11）, First Heat Exchanger（10）, the second heat exchanger（23）, cooling blower（12）With vapour-liquid cooler bin （17）；

The distillating still contains main distillating still（5）With secondary distillating still（8）, main distillating still（5）There is the first heating chamber, first former at middle part Liquid import（26）, main distillating still（5）First steam (vapor) outlet is arranged at top（4）, the first stoste outflow（26）By the second heat exchanger （23）And pipeline, valve, filter and stock solution case（21）Connection；

Vapour-liquid cooler bin（17）On have cooling medium inlet（14）, cooling medium outlet（171）, the first vapour-liquid import（15）, Two vapour-liquid imports（16）, vapour-liquid outlet（172）, condensate outlet（173）；

Source pump（11）On have inlet and outlet, have the first heating chamber inlet in the first heating chamber（1）, the first heating chamber outlet （2）, source pump（11）Outlet and the first heating chamber inlet（1）Connection, source pump（11）Entrance is gone out with the cooling medium Mouthful（171）It is connected, cooling medium inlet（14）By cooling blower（12）With the first heating chamber outlet（2）Connection；

The secondary distillating still（8）There are the second heating chamber, the second stoste outflow in middle part（9）, secondary distillating still（8）Second steam is arranged at top Outlet（7）, in the second heating chamber, have the second heating chamber inlet（6）, the second heating chamber outlet（25）, the second heating chamber inlet（6） With first steam (vapor) outlet（4）It is connected, the second heating chamber outlet（25）By the second heat exchanger（23）, the second vacuum pump（22） With the second vapour-liquid import（16）It is connected, the second vacuum pump（22）Export with the vapour-liquid（172）Connection, the second steam (vapor) outlet （7）By First Heat Exchanger（10）, the first vacuum pump（13）With the first vapour-liquid import（15）It is connected, the second stoste outflow （9）By First Heat Exchanger（10）And pipeline, valve, filter and stock solution case（21）Connection.

2. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that main distillating still（5）With secondary steaming Evaporate kettle（8）Intracavity bottom by valve and pipeline and the concentration liquid case（24）Connection.

3. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that the First Heat Exchanger （10）It is formed in parallel by two elements exchange devices.

4. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that second heat exchanger （23）It is formed in parallel by two elements exchange devices.

5. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that main distillating still（5）Top There is air valve（3）.

6. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that secondary distillating still（8）Top There is air valve（3）.

7. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that stock solution case（21）Top two There is oil slick outlet on side box wall respectively（19）And valve and medicament addition mouth（18）And valve.

8. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that the side of 21 bottom of stock solution case There is the 3rd stock solution to enter on wall（20）And valve.

9. the energy-saving evaporation regenerating unit of miniaturization according to claim 1, it is characterised in that stock solution case（21）Bottom On have precipitate outlet and valve.

10. the energy-saving evaporation regenerating unit of miniaturization according to any one of claim 1 ~ 9, it is characterised in that concentrated solution Case（24）Floss hole and valve are arranged at bottom.