CN211546000U - System for utilize high temperature lime-ash to handle high salt waste water - Google Patents

Abstract

The utility model provides a system for treating high-salinity wastewater by utilizing high-temperature ash, which comprises a roller slag cooler, a slag inlet pipe, a slag outlet pipe, a high-salinity wastewater storage tank, a cooling water inlet, a cooling water outlet and a slag inlet temperature measuring point, wherein the cooling water inlet and the cooling water outlet arranged on the roller slag cooler are respectively connected with the wastewater outlet and the wastewater inlet on the high-salinity wastewater storage tank to form a cooling water circulation loop; a feed inlet arranged on the roller slag cooler is connected with a slag inlet pipe, and the slag inlet pipe is connected with a wastewater outlet on a high-salinity wastewater storage tank; a slag discharging hole arranged on the roller slag cooler is connected with a slag discharging pipe; the utility model discloses the waste heat of sediment at the bottom of make full use of high temperature handles partial high salt waste water (the handling capacity is relevant with the row's sediment volume) under the condition that does not influence boiler efficiency and boiler operation, is the beneficial replenishment of traditional zero release technology, has advantages such as evaporation effect is good, equipment advantage rate is high, investment and operation maintenance cost are low.

Description

System for utilize high temperature lime-ash to handle high salt waste water

Technical Field

The utility model relates to a water treatment field of thermal power plant, concretely relates to utilize system of high temperature lime-ash processing high salt waste water.

Background

In recent years, the government of China has more and more strict regulations on the wastewater discharge of industrial enterprises. The 'Water Ten items' issued in 2015 clearly indicates that 'comprehensive control of pollutant emission' is implemented, and water environment protection is raised to the national strategic level. Relevant regulations of wastewater standard discharge and zero discharge are continuously provided for each province and city, and partial thermal power plants begin to carry out whole-plant wastewater zero discharge transformation.

The waste water produced by the thermal power plant mainly comprises reverse osmosis concentrated water, circulating water sewage, coal-containing waste water, oil-containing waste water, domestic waste water, desulfurization waste water and the like. The reverse osmosis concentrated water, the circulating water sewage and the desulfurization wastewater belong to high-salinity wastewater, and are characterized in that the indexes such as salt content, COD (chemical oxygen demand) and the like are very high, and particularly, the content of soluble salt in the desulfurization wastewater exceeds 35000 mg/L. Therefore, the high-salinity wastewater is the biggest obstacle of the thermal power plant to realize the zero discharge of the wastewater of the whole plant.

At present, two processes are mainly used for zero discharge treatment of high-salinity wastewater: (1) concentration and evaporative crystallization, wherein the concentration generally adopts a reverse osmosis membrane (or DTRO membrane) or a high-temperature flue gas concentration process, the high-salinity wastewater is concentrated into a small amount of high-concentration wastewater, and then evaporation equipment is used for evaporating the concentrated water to dryness. Commonly used evaporation equipment includes multi-effect evaporative crystallization (MED), vapor mechanical compressive crystallization (MVR), and natural evaporative crystallization (NED). (2) Concentration and flue evaporation, wherein the concentration process is the same as the first method, and the flue evaporation process is divided into flue direct evaporation and flue bypass evaporation. The direct flue evaporation is to directly spray concentrated water into a high-temperature flue, wherein the spraying point is generally at the horizontal flue at the outlet of a hearth, and high-temperature flue gas is used for quickly evaporating wastewater; the flue bypass evaporation is to take flue gas (about 300 ℃) before the air preheater, and introduce the flue gas into an evaporation tower to evaporate waste water to dryness. The two processes are applied in domestic engineering, the evaporative crystallization process has no influence on the operation of a boiler, but the investment and the operation and maintenance cost are high; the flue evaporation process may slightly reduce boiler efficiency and may also have an impact on boiler operation, with the advantage of lower investment and operating costs.

The roller slag cooler is an important auxiliary machine of a Circulating Fluidized Bed (CFB) boiler and is used for cooling high-temperature slag blocks discharged from a hearth and conveying the high-temperature slag blocks to a slag bin through a bucket chain machine. The roller slag cooler can be used for treating high-salinity wastewater mainly based on the following steps: (1) the slag inlet temperature in the roller slag cooler is about 900 ℃, and the high-salinity wastewater can be quickly evaporated to dryness; (2) the crystal salt separated out after the high-salt wastewater is evaporated to dryness is discharged along with the bottom slag, so that the pollution risk is avoided; (3) the waste water is evaporated by fully utilizing the waste heat of the bottom slag, and the boiler efficiency and the boiler operation are not influenced.

Disclosure of Invention

An object of the utility model is to provide an utilize system of high temperature lime-ash processing high salt waste water, solved the defect with high costs, the inefficiency that current high salt waste water treatment exists.

In order to achieve the above purpose, the utility model discloses a technical scheme is:

the utility model provides a system for treating high-salinity wastewater by utilizing high-temperature ash, which comprises a roller slag cooler, a slag inlet pipe, a slag outlet pipe, a high-salinity wastewater storage tank, a cooling water inlet, a cooling water outlet and a slag inlet temperature measuring point, wherein the cooling water inlet and the cooling water outlet arranged on the roller slag cooler are respectively connected with the wastewater outlet and the wastewater inlet on the high-salinity wastewater storage tank to form a cooling water circulation loop; a feed inlet arranged on the roller slag cooler is connected with a slag inlet pipe, and the slag inlet pipe is connected with a wastewater outlet on a high-salinity wastewater storage tank; and a slag discharging hole arranged on the roller slag cooler is connected with a slag discharging pipe.

Preferably, a slag inlet temperature measuring point, a slag outlet temperature measuring point and a cooling water return temperature measuring point are respectively arranged on the slag inlet pipe, the slag outlet pipe and the cooling water return pipeline.

Preferably, a first flow regulating valve and a second flow regulating valve are respectively arranged on a connecting pipeline between a cooling water outlet on the high-salinity wastewater storage tank and the slag inlet pipe and between the cooling water outlet and the roller slag cooler.

Preferably, a booster pump is arranged at a cooling water outlet on the high-salinity wastewater storage tank.

Preferably, the roller slag cooler is further provided with a front dust extraction pipe and a rear dust extraction pipe, and the front dust extraction pipe is arranged on one side of the slag inlet; the rear dust extraction pipe is arranged on one side of the slag outlet.

Preferably, the top of the roller slag cooler is also provided with a safety valve.

Preferably, the roller slag cooler is fixed and limited through an equipment support.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a system for utilize high temperature lime-ash to handle high salt waste water, to Circulating Fluidized Bed (CFB) boiler, utilize existing cylinder cold sediment ware as indirect heating equipment, high temperature end sediment is as the high temperature heat source, spouts the high salt waste water after the concentration in cold sediment ware, carries out direct heat transfer with high temperature end sediment, reaches the purpose of rapid evaporation to dryness high salt waste water; the utility model fully utilizes the waste heat of the high-temperature bottom slag, treats part of high-salinity wastewater (the treatment capacity is related to the slag discharge capacity) under the condition of not influencing the boiler efficiency and the boiler operation, is beneficial supplement of the traditional zero-emission process, and has the advantages of good evaporation effect, high equipment utilization rate, low investment and operation maintenance cost and the like;

further, high salt waste water can regard as the recirculated cooling water of cold sediment ware of cylinder, preheats before spouting into cold sediment ware, comes the temperature of control high salt waste water through adjusting cooling water flow, and the advantage of design like this is: (1) the high-salinity wastewater is preheated to about 95 ℃, and can be evaporated more quickly after being sprayed; (2) the cooling water consumption is saved.

Drawings

Fig. 1 is a schematic diagram of a system structure related to the present invention;

the device comprises a roller slag cooler 1, a roller slag cooler 2, an equipment support 3, a slag inlet pipe 4, a slag outlet pipe 5, a high-salinity wastewater storage tank 6, a booster pump 7, a first flow regulating gate 8, a second flow regulating gate 9, a cooling water inlet 10, a cooling water outlet 11, a safety valve 12, a front dust extraction pipe 13, a rear dust extraction pipe 14, a slag inlet temperature measuring point 15, a slag outlet temperature measuring point 16 and a cooling water return temperature measuring point.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the utility model provides a method and system for treating high salinity wastewater by using high temperature ash, including roller slag cooler 1, equipment support 2, slag inlet pipe 3, slag outlet pipe 4, high salinity wastewater storage tank 5, booster pump 6, first flow control valve 7, second flow control valve 8, cooling water inlet 9, cooling water outlet 10, safety valve 11, front dust extraction pipe 12, rear dust extraction pipe 13, slag inlet temperature measuring point 14, slag outlet temperature measuring point 15 and cooling water return temperature measuring point 16, cooling water inlet 9 and cooling water outlet 10 arranged on roller slag cooler 1 are respectively connected with wastewater outlet and wastewater inlet on high salinity wastewater storage tank 5, forming a circulation loop of cooling water.

And a feed inlet arranged on the roller slag cooler 1 is connected with a slag inlet pipe 3.

And a slag discharging hole arranged on the roller slag cooler 1 is connected with a slag discharging pipe 4.

And a slag inlet temperature measuring point 14, a slag outlet temperature measuring point 15 and a cooling water return temperature measuring point 16 are respectively arranged on the slag inlet pipe 3, the slag outlet pipe 4 and the cooling water return pipeline.

And a cooling water outlet on the high-salinity wastewater storage tank 5 is also communicated with the slag inlet pipe 3 and is used for preliminarily cooling ash slag in the slag inlet pipe 3.

And a first flow regulating valve 7 and a second flow regulating valve 8 are respectively arranged on a cooling water outlet on the high-salinity wastewater storage tank 5 and a connecting pipeline between the slag inlet pipe 3 and the roller slag cooler 1.

And a booster pump 6 is arranged at a cooling water outlet on the high-salinity wastewater storage tank 5.

The roller slag cooler 1 is also provided with a safety valve 11, a front dust extraction pipe 12 and a rear dust extraction pipe 13.

The front dust extraction pipe 12 is arranged on one side of the slag inlet; the rear dust extraction pipe 13 is arranged on one side of the slag outlet; the safety valve 11 is arranged on the top of the roller slag cooler 1.

The roller slag cooler 1 is fixed and limited through the equipment support 2.

The utility model discloses a theory of operation is:

the utility model provides a system for treating high-salinity wastewater by utilizing high-temperature ash, which sprays the concentrated high-salinity wastewater into a roller slag cooler 1, and quickly evaporates the high-salinity wastewater by utilizing the heat of the high-temperature ash;

the utility model discloses a nuclear core point is:

(1) the best evaporation effect is achieved by controlling the amount of waste water sprayed into the slag cooler, and the waste heat of ash slag is fully utilized;

(2) the high-salinity wastewater is used as cooling water of the slag cooler, the preheated wastewater is easier to evaporate, and the effect of saving water is achieved.

The utility model discloses a work flow is:

under the condition that the roller slag cooler 1 normally operates, the booster pump 6 is started, and the first flow regulating valve 7 and the second flow regulating valve 8 are regulated to proper opening degrees, so that the slag discharging temperature measuring point 15 is kept in the range of 110-120 ℃ after the system stably operates, and the cooling water return water temperature measuring point 16 is kept at 95 ℃.

The function of the slag tapping temperature measuring point 15 is to monitor the slag tapping temperature, and if the slag tapping temperature is lower than 100 ℃, the waste water in the slag cooler is not completely evaporated.

The function of the cooling water return temperature measuring point 16 is to monitor the temperature of the preheated wastewater, and if the temperature of the wastewater is too high, the wastewater can be gasified in a pipeline, so that danger is caused.

When the slag discharging temperature is lower than 110 ℃, the opening degree of the first flow regulating valve 7 is reduced, and the amount of the injected waste water is reduced until the slag discharging temperature is restored to the normal range.

When the slag discharging temperature is higher than 120 ℃, the opening degree of the first flow regulating valve 7 is slowly increased until the slag discharging temperature is restored to the normal range.

When the return water temperature of the cooling water is higher than 95 ℃, the high-salinity wastewater is fully preheated, at the moment, the opening degree of the second flow regulating valve 8 is reduced, and meanwhile, the original amount of the cooling water is increased until the return water temperature of the cooling water is recovered to be normal.

The safety valve 11 can automatically exhaust gas when the pressure in the slag cooler is too high, so that accidents of the slag cooler are avoided.

Compared with the prior evaporative crystallization technology, the utility model has the advantages that:

1. the roller slag cooler is fully used, the high-salt wastewater is evaporated by using the waste heat of the high-temperature bottom slag, the evaporation efficiency is high, and the investment is very low.

2. Inorganic salt crystals precipitated after the evaporation of the wastewater are discharged together with the bottom slag without separate treatment.

The operation efficiency and the operation state of the boiler are not influenced.

Claims (7)

1. The system for treating high-salinity wastewater by using high-temperature ash is characterized by comprising a roller slag cooler (1), a slag inlet pipe (3), a slag outlet pipe (4), a high-salinity wastewater storage tank (5), a cooling water inlet (9) and a cooling water outlet (10), wherein the cooling water inlet (9) and the cooling water outlet (10) arranged on the roller slag cooler (1) are respectively connected with the wastewater outlet and the wastewater inlet on the high-salinity wastewater storage tank (5) to form a cooling water circulation loop; a feed inlet arranged on the roller slag cooler (1) is connected with a slag inlet pipe (3), and the slag inlet pipe (3) is connected with a wastewater outlet on a high-salinity wastewater storage tank (5); the slag discharging hole arranged on the roller slag cooler (1) is connected with a slag discharging pipe (4).

2. The system for treating high-salinity wastewater by using high-temperature ash according to claim 1, wherein the slag inlet pipe (3), the slag outlet pipe (4) and the cooling water return pipeline are respectively provided with a slag inlet temperature measuring point (14), a slag outlet temperature measuring point (15) and a cooling water return temperature measuring point (16).

3. The system for treating high-salinity wastewater by using high-temperature ash according to claim 1, characterized in that a first flow control valve (7) and a second flow control valve (8) are respectively arranged on a cooling water outlet on the high-salinity wastewater storage tank (5) and a connecting pipeline between the slag inlet pipe (3) and the roller slag cooler (1).

4. The system for treating high-salinity wastewater by using high-temperature ash according to claim 1, characterized in that a booster pump (6) is arranged at a cooling water outlet of the high-salinity wastewater storage tank (5).

5. The system for treating high-salinity wastewater with high-temperature ash according to claim 1, characterized in that the roller slag cooler (1) is further provided with a front dust extraction pipe (12) and a rear dust extraction pipe (13), the front dust extraction pipe (12) is arranged at one side of the slag inlet; the rear dust extraction pipe (13) is arranged on one side of the slag outlet.

6. The system for treating high salinity wastewater with high-temperature ash according to claim 1, characterized in that the top of the roller slag cooler (1) is further provided with a safety valve (11).

7. The system for treating high salinity wastewater with high temperature ash according to claim 1, characterized in that, the roller slag cooler (1) is fixed and limited by the equipment support (2).

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