CN212308896U - Coal gasification low pressure black water flash distillation heat recovery system - Google Patents

Abstract

The utility model provides a coal gasification low pressure black water flash distillation heat recovery system, including low pressure flash vessel, low pressure flash vessel top and deoxidation tank, shift stripping tower, low pressure flash condenser and vapor jet vacuum pump connection, low pressure flash vessel bottom is connected with vacuum flash vessel, low pressure flash condenser is connected with low pressure flash separator, vacuum flash vessel top is connected with vacuum flash condenser, vacuum flash condenser is connected with vacuum flash separator, vacuum flash separator top is connected with vapor jet vacuum pump and water ring vacuum pump respectively, vapor jet vacuum pump and water ring vacuum pump all are connected with vacuum pump separator; the bottom parts of the low-pressure flash separator, the vacuum flash separator and the vacuum pump separator are all connected with the grey water tank. The utility model discloses carry out make full use of with the flash distillation vapour after low pressure flash distillation system handles, reduce the heat loss, improve heat recovery efficiency, reduce production running cost.

Description

Coal gasification low pressure black water flash distillation heat recovery system

Technical Field

The utility model relates to a coal gasification low pressure black water flash distillation heat recovery system belongs to the low pressure flash distillation technical field of coal slurry gasification technology.

Background

The gasification device of the entrained flow gasification process mainly comprises a coal slurry preparation system, a gasification system, a synthesis gas primary purification system and a slag water treatment system. The coal water slurry is pressurized and fed into a gasification furnace through a high-pressure coal slurry pump to react to produce crude synthesis gas, the crude synthesis gas is preliminarily washed in a chilling chamber of the gasification furnace and then enters a mixer, a cyclone separator and a water washing tower to be finely washed, and the dust content of the washed synthesis gas with saturated steam is less than 1mg/Nm³(ii) a The gasification system and the synthesis gas washing system have a large amount of high-temperature black water slag removal water treatment systems after washing the synthesis gas, the high-temperature black water passes through the slag water treatment systems, acid gas is removed, heat recovery is carried out, and the high-temperature black water is subjected to step-by-step pressure reduction flash evaporation and cooling; and (3) carrying out sedimentation separation on solid ash residues in the black water, and returning the ash water which is processed after the solid ash residues are separated and becomes 70-80 ℃ to a system for recycling. In a typical slag water system of a coal water slurry gasification process, two-stage or three-stage flash evaporation is adopted for black water flash evaporation according to the pressure of a gasification system, namely a high-pressure flash evaporation system, a low-pressure flash evaporation system and a vacuum flash evaporation system.

Flash steam of the existing low-pressure flash evaporation system is mainly cooled and exchanged heat by circulating water through a heat exchange condenser, condensed liquid is recycled after non-condensed steam is emptied after heat exchange; the utilization rate of flash steam is not high, which is not favorable for environmental protection and causes waste of resources. The utility model provides a coal gasification low pressure black water flash distillation vapour heat recovery system, the flash distillation vapour after handling through the low pressure flash vessel obtains make full use of, reduces the heat loss, improves heat recovery efficiency and saves the production running cost.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a coal gasification low-pressure black water flash evaporation heat recovery system is provided, the technical scheme is as follows,

a coal gasification low-pressure black water flash evaporation heat recovery system comprises a low-pressure flash evaporator, wherein the top of the low-pressure flash evaporator is respectively connected with a deoxidizing tank, a shift stripping tower, a low-pressure flash evaporator and a steam jet vacuum pump through connecting pipelines; the bottom parts of the low-pressure flash separator, the vacuum flash separator and the vacuum pump separator are all connected with the grey water tank through connecting pipelines, the top part of the low-pressure flash separator is connected with an acid gas torch pipeline, the top part of the vacuum pump separator is communicated with the outside through connecting pipelines, and the bottom part of the vacuum flash separator is connected with the clarifying tank through connecting pipelines.

Preferably, the top of the vacuum flash separator is connected with a steam jet vacuum pump through a connecting pipeline provided with a first vacuum pressure regulating valve and a first manual regulating valve, the first manual regulating valve is positioned at the downstream pipe section of the first vacuum pressure regulating valve, the upstream pipe section of the first vacuum pressure regulating valve is connected with a connecting pipeline provided with a second vacuum pressure regulating valve, and the water ring vacuum pump is connected with the pipe section between the first vacuum pressure regulating valve and the first manual regulating valve through the connecting pipeline.

Preferably, a liquid level regulating valve is arranged on a connecting pipeline between the low-pressure flash evaporator and the vacuum flash evaporator.

Preferably, the low-pressure flash vessel is connected to the hot water evaporation tower via a connecting line.

Preferably, the deoxygenation tank is connected to a low pressure steam line and a desalination water line.

The utility model discloses carry out make full use of with the flash distillation vapour after low pressure flash distillation system handles, reduce the heat loss, improve heat recovery efficiency and save production running cost.

Drawings

FIG. 1 is a schematic structural diagram of a coal gasification low-pressure black water flash evaporation heat recovery system of the present invention.

In the figure: 1. a low pressure flash vessel; 2. a deoxidation tank; 3. a low pressure flash condenser; 4. a steam jet vacuum pump; 5. a vacuum flash evaporator; 6. a low pressure flash separator; 7. a vacuum flash condenser; 8. a vacuum flash separator; 9. a water-ring vacuum pump; 10. a vacuum pump separator; 11. a first vacuum pressure regulating valve; 12. a first manual regulating valve; 13. a second vacuum pressure regulating valve; 14. a liquid level regulating valve; 15. a low pressure steam line; 16. a desalted water line; 17. the second manual regulating valve.

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.

As shown in figure 1, the coal gasification low-pressure black water flash evaporation heat recovery system comprises a low-pressure flash evaporator 1, wherein the low-pressure flash evaporator 1 is connected with a hot evaporation water tower through a connecting pipeline. The top of the low-pressure flash evaporator 1 is respectively connected with a deoxygenation tank 2, a shift stripping tower, a low-pressure flash evaporator condenser 3 and a steam jet vacuum pump 4 through connecting pipelines, and the deoxygenation tank 2 is connected with a low-pressure steam pipeline 15 and a desalination water pipeline 16. The bottom of the low-pressure flash evaporator 1 is connected with the vacuum flash evaporator 5 through a connecting pipeline, and a liquid level regulating valve 14 is arranged on the connecting pipeline between the low-pressure flash evaporator 1 and the vacuum flash evaporator 5. Low pressure flash evaporator condenser 3 passes through connecting line and is connected with low pressure flash separator 6, vacuum flash evaporator 5's top is passed through connecting line and is connected with vacuum flash evaporator 7, vacuum flash evaporator 7 passes through connecting line and is connected with vacuum flash separator 8, vacuum flash separator 8's top is passed through connecting line and is connected with vapor injection vacuum pump 4 and water ring vacuum pump 9 respectively, vapor injection vacuum pump 4 and water ring vacuum pump 9 all are connected with vacuum pump separator 10. The bottom of the low-pressure flash separator 6, the bottom of the vacuum flash separator 8 and the bottom of the vacuum pump separator 10 are connected with a grey water tank through connecting pipelines, the top of the low-pressure flash separator 6 is connected with an acid gas torch through a connecting pipeline, the top of the vacuum pump separator 10 is communicated with the outside through a connecting pipeline, and the bottom of the vacuum flash separator 5 is connected with a clarifying tank through a connecting pipeline.

The top of vacuum flash separator is connected with steam jet vacuum pump through the connecting line that is equipped with first vacuum pressure regulating valve and first manual regulation valve, first manual regulation valve is located the low reaches pipeline section of first vacuum pressure regulating valve, the connecting line that is equipped with second vacuum pressure regulating valve is connected to the upper reaches pipeline section of first vacuum pressure regulating valve, water ring vacuum pump passes through the connecting line and is connected on the pipeline section between first vacuum pressure regulating valve and the first manual regulation valve.

The utility model discloses a concrete work flow as follows:

the black water of the gasification and synthesis gas primary purification system is regulated, controlled and decompressed and then is sent into an evaporation chamber of an evaporation hot water tower. The black water primarily concentrated at the bottom of the evaporation hot water tower is controlled by a liquid level regulating valve to be sent into a low-pressure flash evaporator 1.

The black water entering the low-pressure flash evaporator 1 is subjected to flash evaporation in a pressure reduction state, and flash evaporation steam after flash evaporation is recycled in four ways:

the first path is as follows: the flash steam of the low-pressure flash evaporator 1 is mainly used for replacing the low-pressure steam by a shift stripping tower.

And a second path: before a gasification device system is started, introducing low-pressure steam and desalted water into the deoxygenation tank 2 through a low-pressure steam pipeline 15 and a desalted water pipeline 16 under the conditions that the temperature of the deoxygenation tank 2 is about 101 ℃ and the pressure is 0.015MPa, heating the desalted water by using the low-pressure steam, and conveying the desalted water without oxygen into a high-pressure flash evaporation system through a pump; when the system is normally started, the flash steam of the low-pressure flash evaporator 1 is normal, namely the pressure is 0.15-0.2MPa, and the low-pressure flash steam is used for replacing the low-pressure steam by the deoxidation tank 2 through controlling the flow by the second manual regulating valve 17.

And a third path: and removing a small amount of low-pressure flash steam to remove steam to jet a vacuum pump 4. In the early stage of starting the gasification device system, the black water flash evaporation system is unstable, in order to maintain the normal operation of the vacuum flash evaporator 5, the temperature is maintained at 70-80 ℃, the pressure is-0.056 MPa, the water ring vacuum pump 9 is used for pumping negative pressure in the early stage of operation, at the moment, the first vacuum pressure regulating valve 11 is opened, the water ring vacuum pump 9 works, so that the vacuum flash evaporator 5, the vacuum flash evaporation condenser 7 and the vacuum flash evaporation separator 8 are kept at negative pressure, and the pressure of the vacuum flash evaporator 5 is controlled to be maintained at-0.056 MPa through the cooperation of the second vacuum pressure regulating valve 13; when the flash steam of the low-pressure flash evaporator 1 is normal, the low-pressure flash steam is connected through the first manual regulating valve 12 to start the steam jet vacuum pump 4, the water ring vacuum pump 9 is stopped, and the second vacuum pressure regulating valve 13 is closed at the same time. The first vacuum pressure regulating valve 11 and the second vacuum pressure regulating valve 13 can be adjusted in a matching manner through a PLC controller.

The black water at the bottom of the low-pressure flash evaporator 1 is sent into a vacuum flash evaporator 5 through a liquid level regulating valve 14. Because the steam jet vacuum pump 4 works, the black water entering the vacuum flash evaporator 5 is subjected to flash evaporation in a negative pressure state, the gas after flash evaporation is subjected to heat exchange and temperature reduction through the vacuum flash evaporator condenser 7, the condensate entering the vacuum flash separator 8 enters the ash water tank, the gas phase forms the negative pressure of the vacuum flash evaporator 5 under the action of the steam jet vacuum pump 4, the condensate of the steam jet vacuum pump 4 enters the vacuum pump separator 10 and enters the ash water tank, and trace non-condensed steam is discharged at a high-altitude safe position. And mixing the black water at the bottom of the vacuum flash evaporator 5 by a flocculating agent in a static mixer, then feeding the mixed black water into a clarifying tank for solid-liquid separation, and overflowing the clarified grey water in the clarifying tank to a grey water tank and conveying the grey water to a system by a pump for recycling.

And a fourth path: when the gasification device system is started and stopped, when each device in the flash evaporation system does not need steam or the operating pressure of the low-pressure flash evaporator 1 needs to be adjusted slightly, the low-pressure flash evaporation steam is controlled by the pressure regulating valve to enter the low-pressure flash evaporation condenser 3 for heat exchange and temperature reduction, the condensate enters the low-pressure flash evaporation separator 6 and then enters the ash water tank, and a small amount of acid gas torch is removed without condensing steam.

Considering whether the flash steam quantity described above can meet the requirement of four-way gas supply, the general gasification devices are in a plurality of series, which is enough for the demand of four-way flash steam, and ensures the full utilization of low-pressure flash steam. The utility model discloses a heat recovery and the effective utilization of low pressure flash distillation system steam after step-by-step decompression flash distillation, general flash distillation vapour mainly utilizes circulating water cooling heat transfer through the heat exchanger, and the not condensed steam evacuation after the heat transfer, flash distillation vapour utilization ratio are not high, and are unfavorable to the environmental protection to cause the waste of resource, flash distillation vapour after handling through low pressure flash distillation system can obtain make full use of, reduces the heat loss, improves heat recovery efficiency and saves the production running cost.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides a coal gasification low pressure black water flash distillation heat recovery system which characterized in that: the device comprises a low-pressure flash evaporator, wherein the top of the low-pressure flash evaporator is respectively connected with a deoxidizing tank, a shift stripping tower, a low-pressure flash evaporator condenser and a steam jet vacuum pump through connecting pipelines, the bottom of the low-pressure flash evaporator is connected with a vacuum flash evaporator through a connecting pipeline, the low-pressure flash evaporator is connected with a low-pressure flash separator through a connecting pipeline, the top of the vacuum flash evaporator is connected with a vacuum flash evaporator through a connecting pipeline, the vacuum flash evaporator is connected with a vacuum flash separator through a connecting pipeline, the top of the vacuum flash separator is respectively connected with the steam jet vacuum pump and a water ring vacuum pump through connecting pipelines, and the steam jet vacuum pump and the water ring vacuum pump are both connected with a vacuum pump separator; the bottoms of the low-pressure flash separator, the vacuum flash separator and the vacuum pump separator are connected with a grey water tank through connecting pipelines, and the top of the low-pressure flash separator is connected with an acid gas torch through a connecting pipeline; the top of the vacuum pump separator is communicated with the outside through a connecting pipeline, and the bottom of the vacuum flash evaporator is connected with the clarifying tank through a connecting pipeline.

2. The coal gasification low pressure black water flash heat recovery system according to claim 1, wherein: the top of vacuum flash separator is connected with steam jet vacuum pump through the connecting line that is equipped with first vacuum pressure regulating valve and first manual regulation valve, first manual regulation valve is located the low reaches pipeline section of first vacuum pressure regulating valve, the connecting line that is equipped with second vacuum pressure regulating valve is connected to the upper reaches pipeline section of first vacuum pressure regulating valve, water ring vacuum pump passes through the connecting line and is connected on the pipeline section between first vacuum pressure regulating valve and the first manual regulation valve.

3. The coal gasification low pressure black water flash heat recovery system according to claim 1, wherein: and a liquid level regulating valve is arranged on a connecting pipeline between the low-pressure flash evaporator and the vacuum flash evaporator.

4. The coal gasification low pressure black water flash heat recovery system according to claim 1, wherein: the low-pressure flash evaporator is connected with the evaporation hot water tower through a connecting pipeline.

5. The coal gasification low pressure black water flash heat recovery system according to claim 1, wherein: the deoxygenation tank is connected to a low pressure steam line and a desalination water line.

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