CN203128597U - Efficient blast furnace slag-washing water waste heat recycling system adopting mintel process - Google Patents

Abstract

The utility model relates to an efficient blast furnace slag-washing water waste heat recycling system adopting a mintel process. The efficient blast furnace slag-washing water waste heat recycling system adopting the mintel process comprises a graining tower, a water slag stirring cage machine, a filter, a sedimentation tank, a hot water tank and circulating pumps, which are connected in sequence; the efficient blast furnace slag-washing water waste heat recycling system further comprises a cooling tower, an absorption type refrigerating unit and a heating device, which are connected in parallel; the input ends of the cooling tower, the absorption type refrigerating unit and the heating device connected in parallel are connected with the circulating pump; and the output ends of the cooling tower, the absorption type refrigerating unit and the heating device connected in parallel are connected with the graining box. The efficient blast furnace slag-washing water waste heat recycling system adopting the mintel process can be used for solving the seasonal problem of blast furnace slag-washing water waste heat recycling adopting the mintel process, improving the slag-washing water waste heat recovery rate, realizing the sufficient recovery of the slag-washing water waste heat and achieving the purpose of saving energy and reducing emission.

Description

A kind of Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system

Technical field

The utility model relates to the waste heat recovery field of metallurgy industry, more particularly, relates to a kind of Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system.

Background technology

Steel industry is the energy consumption rich and influential family, and can produce a large amount of waste heats in consumes energy, takes full advantage of the new opportunity that this part waste heat will become the steel industry development.Along with the progress of science and technology, the middle high-temperature residual heat of Steel Plant has progressively obtained effective recycling, and the utilization ratio of low temperature exhaust heat is very low, and to 2011, Steel Plant's low temperature exhaust heat utilization ratio only had an appointment 1%.

In blast furnace smelting process, every production 1t molten iron produces the blast furnace slag of about 0.3t, the heat that blast furnace slag is taken away accounts for 16% of blast furnace total energy consumption, these heats substantially all enter flushing cinder water, and along with the circulation of flushing cinder water is discharged into the atmosphere, water resource waste and thermal pollution have also been caused in the time of energy dissipation.

Steel Plant are on the basis of first-generation slag treatment technology (end filter method etc.) and s-generation slag treatment technology (Ying Bafa etc.) at present, use a kind of Ming Tefa flushing cinder technology, full-automatic mode is carried out in grain slag processing and separation, simultaneously, the loss of flushing cinder hydro-thermal is low, the flushing cinder water of separating is cleaner, can directly recycle.This technology is directly delivered to the granulation tower with the high-temperature liquid state slag; the high velocity flow shrend cooling that in the granulation tower, is ejected; form the particulate state grain slag; slag-water slurry is transported to grain slag flood dragon machine inner filtration and goes out the macrobead slag; carrying out further pulp water by strainer then separates; slag after the separation is transported by the grain slag belt; and remaining flushing cinder water temp generally can reach about 90 ℃; the flushing cinder water of high temperature enters settling tank by sluice; be delivered to cooling tower cooling back cycling and reutilization behind preliminary sedimentation, this part heat all is dissipated in the process of circulation.At present, though the idea of many this part waste heats of recovery is also arranged, such as with flushing cinder water and outside cold water heat exchange, problem such as cold water obtains being used for heating etc. behind the heat, and it is low all to be difficult to solve efficient, and System production time is lacked, and rate of return on investment is low can't be applied.

In the most of area of China, the summer weather sweltering heat, humidity is very big, and blast furnace blowing engine is increased dehumidifying device has unusual effect to aspects such as blast furnace stable yields, Jie Jiao and reduction gas blower energy consumptions, and the blast furnace dehumidifying air blast also becomes the energy-saving and emission-reduction project of country's 12 iron and steel enterprise's keypoint recommendations.At present, dehumidifying Blast Technology on BF substantially all adopts electric power or steam driven, the running cost height, and rate of return on investment is low, so cause this technology to be difficult to popularize.In addition, China's most of area cold in winter, the sweltering heat in summer, plant area of steel mill and near residential quarter need be expended lot of energy and be used for winter heating and summer cooling gas.

The utility model content

The technical problems to be solved in the utility model is, a kind of Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system is provided.

The technical scheme that its technical problem that solves the utility model adopts is: construct a kind of Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system, comprise the granulation tower, grain slag processing machine, strainer, settling tank, hot tub and the recycle pump that connect successively, also comprise the cooling tower, absorption refrigeration unit, the heating plant that are connected in parallel; Input terminus after described cooling tower, absorption refrigeration unit, the heating plant parallel connection is connected with described recycle pump, and output terminal is connected with described granulation tower.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, be provided with filtration unit between described settling tank and the hot tub.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, described granulation tower is connected with described grain slag processing machine by sluice.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, described system also comprises the cold user, and described cold user is connected with described absorption refrigeration unit, and described cold user is air blow for removing moisture device or interchanger.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, the branch road at described cooling tower, absorption refrigeration unit and heating plant place is provided with trip valve.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, the input terminus of described absorption refrigeration unit and heating plant parallel branch is provided with chemicals dosing plant.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, the branch road at described absorption refrigeration unit and heating plant place is provided with sampling unit.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, described absorption refrigeration unit is lithiumbromide-water refrigerating machine group.

In the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system described in the utility model, described settling tank and the hot tub outside are provided with insulation cover plate and insulation shell.

Implement the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system of the present utility model, have following beneficial effect:

Flushing cinder water obtains after filtering through grain slag processing machine, strainer and settling tank stage trapping is stored in hot water high purity in the hot tub, reduces bad phenomenon such as Corrosion of Pipeline and fouling, and hot water is sustainable to be recycled.Hot water in the hot tub by recycle pump with delivery to cooling tower, absorption refrigeration unit or heating plant, realized refrigeration in summer, dehumidification and winter heating.Also be provided with cooling tower in the system, improved the stability of system, when absorption refrigeration unit and heating plant do not need work or maintenance, also do not influence the works better that blast furnace slag is handled.The utility model has solved the seasonal problem that blast furnace Ming Tefa using exhaust heat of slag flushing water reclaims, and has improved the using exhaust heat of slag flushing water rate of recovery, has realized the abundant recovery of using exhaust heat of slag flushing water, reaches the purpose of energy-saving and emission-reduction.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the utility model structural representation of blast furnace Ming Tefa using exhaust heat of slag flushing water recovery system efficiently.

Embodiment

Understand for technical characterictic of the present utility model, purpose and effect being had more clearly, now contrast accompanying drawing and describe embodiment of the present utility model in detail.

As shown in Figure 1, the utility model efficiently blast furnace Ming Tefa using exhaust heat of slag flushing water recovery system comprise granulation tower 1, grain slag processing machine 2, strainer 3, settling tank 4, hot tub 5, recycle pump 6, cooling tower 7, absorption refrigeration unit 9 and heating plant 10.Wherein, granulation tower 1, grain slag processing machine 2, strainer 3, settling tank 4, hot tub 5 and recycle pump 6 are connected successively, and cooling tower 7, absorption refrigeration unit 9 and heating plant 10 are connected in parallel.Input terminus after cooling tower 7, absorption refrigeration unit 9, heating plant 10 parallel connections is connected with recycle pump 6, and output terminal is connected with granulation tower 1.Absorption refrigeration unit 9 can be tried one's best and be arranged near hot tub 5, also can reduce the cost of system with the thermosteresis that reduces system.

Flushing cinder water contacts with the blast furnace slag of high-temperature fusion in granulation tower 1, produces a large amount of steam and high temperature flushing cinder water.Granulation tower 1 is connected with grain slag processing machine 2 by sluice 27.Slag-water slurry is delivered to grain slag processing machine 2 and strainer 3 from granulation tower 1 through sluice 27, realizes separating of slag and water, and slag is transported to the grain slag stockyard by belt, and water then enters settling tank 4.Residual most of solid impurity particle is deposited on settling tank 4 bottoms in the flushing cinder water, and the hot water high purity in the hot tub 5 can be avoided corrosive pipeline or fouling.

Hot water in the hot tub 5 by recycle pump 6 with delivery to cooling tower 7, absorption refrigeration unit 9 or heating plant 10, can realize summer refrigeration and winter heating.Be provided with cooling tower 7 in the system, improved the stability of system, when absorption refrigeration unit 9 and heating plant 10 do not need work or maintenance, also do not influence the works better that blast furnace slag is handled.

Further, system of the present utility model also comprises cold user 11, and cold user 11 can be devices such as air blow for removing moisture device or interchanger.Cold user 11 is connected with absorption refrigeration unit 9, and absorption refrigeration unit 9 can be cold user 11 cold is provided.The air blow for removing moisture device can be the blast furnace blowing engine dehumidification, can be the room cooling by interchanger.

Further, the master loop at recycle pump 6 places is provided with trip valve 13, the branch road at cooling tower 7 places is provided with trip valve 15, the branch road at absorption refrigeration unit 9 places is provided with trip valve 16, the branch road at heating plant 10 places is provided with trip valve 17, and the input terminus of absorption refrigeration unit 9 and heating plant 10 parallel branches is provided with trip valve 14.

In summer, trip valve 13, trip valve 14 and trip valve 16 are opened, trip valve 15 and trip valve 17 are all closed, the hot water that comes out from recycle pump 6 is sent into the producer of absorption refrigeration unit 9 by pipeline 18, pipeline 19 and pipeline 20, realizes heat exchange by vaporizer and the condenser of absorption refrigeration unit 9.Absorption refrigeration unit 9 in the present embodiment is lithiumbromide-water refrigerating machine group.9 work are freezed thereby hot water drives the absorptionmachine group, and the cold of generation is delivered to the air blow for removing moisture device or provides cold by interchanger to the user by the refrigerant medium.Directly return granulation tower 1 from the water at low temperature that producer flows out by pipeline 22, pipeline 24 and pipeline 26, the using exhaust heat of slag flushing water that forms a sealing drives refrigeration system.

In the winter time, close trip valve 15 and trip valve 16, open trip valve 13, trip valve 14 and trip valve 17 hot water and send into heating plant 10 by pipeline and pipeline, hot water and the external world carry out heat exchange, provide heat to the user.Then directly return granulation tower 1 through piping 23, pipeline 24 and pipeline 26 from the water at low temperature that heating plant 10 flows out, form the warm recycle system of flushing cinder hydromining of another sealing.

In some month in spring, autumn; when perhaps unit cooler 9 and heating system need be overhauled; unit cooler 9 and heating plant 10 may not need operation; trip valve 14, trip valve 16 and trip valve 17 are all closed; trip valve 13 and trip valve 15 are opened; hot water all entered cooling tower 7 by pipeline 25 and cooled off this moment, returned granulation tower 1 then, guaranteed the works better of blast furnace slag treatment system.

Further, filtration units such as filtering net can be set between settling tank 4 and hot tub 5, the pulp water that liquidates filters, and improves the cleanliness factor of hot water.

Further, the input terminus of absorption refrigeration unit 9 and heating plant 10 parallel branches is provided with chemicals dosing plant 8, can regulate the pH value, hardness, calcium, magnesium ion concentration of hot water etc., improves water quality, thereby reduces bad phenomenon such as Corrosion of Pipeline and fouling.

Further, the branch road at absorption refrigeration unit 9 and heating plant 10 places is provided with sampling unit 12, and water quality is detected in the sampling back, can control the dose that adds of chemicals dosing plant 8 according to detected result.

Further, recycle pump 6 has two at least, and two or more recycle pump 6 parallel connections guarantee the normal conveying of hydraulic pressure and hot water.

Further, in order to reduce the thermosteresis of system, improve the flushing cinder water application efficiency, the transport pipe of hot tub 5, settling tank 4 and total system all needs to be incubated and moistureproof the processing.Settling tank 4 in the present embodiment and hot tub 5 outsides are provided with insulation cover plate and insulation shell.

The utility model can switch to different flushing cinder water treatment modes according to the difference in season and the needs of production.The blast furnace slag quenching water of high temperature is directly used in and drives unit cooler 9 or be used for heating, thermo-efficiency height.In addition, be summer during refrigeration, and be winter during heating that the two mutually combines, and has solved the seasonal problem that blast furnace Ming Tefa using exhaust heat of slag flushing water reclaims, and has improved the using exhaust heat of slag flushing water rate of recovery.The utility model can utilize by the high-temperature residual heat that blast furnace slag quenching water is contained more fully, reaches energy-conservation and purpose environmental protection.

By reference to the accompanying drawings embodiment of the present utility model is described above; but the utility model is not limited to above-mentioned embodiment; above-mentioned embodiment only is schematic; rather than it is restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that the utility model aim and claim protect, also can make a lot of forms, these all belong within the protection of the present utility model.

Claims (9)

1. blast furnace Ming Tefa using exhaust heat of slag flushing water recovery system efficiently, it is characterized in that, comprise the granulation tower, grain slag processing machine, strainer, settling tank, hot tub and the recycle pump that connect successively, also comprise the cooling tower, absorption refrigeration unit, the heating plant that are connected in parallel; Input terminus after described cooling tower, absorption refrigeration unit, the heating plant parallel connection is connected with described recycle pump, and output terminal is connected with described granulation tower.

2. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that, is provided with filtration unit between described settling tank and the hot tub.

3. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that described granulation tower is connected with described grain slag processing machine by sluice.

4. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1, it is characterized in that, described system also comprises the cold user, and described cold user is connected with described absorption refrigeration unit, and described cold user is air blow for removing moisture device or interchanger.

5. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that the branch road at described cooling tower, absorption refrigeration unit and heating plant place is provided with trip valve.

6. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that the input terminus of described absorption refrigeration unit and heating plant parallel branch is provided with chemicals dosing plant.

7. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that the branch road at described absorption refrigeration unit and heating plant place is provided with sampling unit.

8. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that described absorption refrigeration unit is lithiumbromide-water refrigerating machine group.

9. the Ming Tefa of blast furnace efficiently using exhaust heat of slag flushing water recovery system according to claim 1 is characterized in that, described settling tank and the hot tub outside are provided with insulation cover plate and insulation shell.

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