CN209322916U - Blast furnace grain slag filtering pond waste heat refrigeration utilization system - Google Patents

Abstract

The utility model discloses a blast furnace grain slag filtering ponds waste heat refrigeration utilizes system, including high altitude chimney (1), filtering ponds (28), water pump room (29), cooling tower (30) and tank (31), filtering ponds (28) are equipped with first waste heat refrigerating unit (3) outward, the upper portion of filtering ponds (28) is equipped with the steam discharge hole, this steam discharge hole exhaust high temperature steam can get into doing work in first waste heat refrigerating unit (3), the lower part of filtering ponds (28) is equipped with the high temperature drainage export, this high temperature drainage export exhaust high temperature drainage can get into doing work in this second waste heat refrigerating unit (19). The blast furnace granulated slag filter tank waste heat refrigeration utilization system can fully utilize waste heat of slag flushing water and steam in the filter tank, simultaneously reduce the workload of the cooling tower, and also can reduce the emission of sulfur-containing steam in the filter tank, thereby really realizing energy conservation, emission reduction and effective cyclic utilization of energy.

Description

A kind of blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration utilizes system

Technical field

The utility model relates to metallurgical thermal energy recycling fields, and particularly a kind of blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration utilizes System.

Background technique

It can be generated when blast furnace process high-temperature liquid state slag (1350 DEG C~1500 DEG C), domestic annual 700000000 tons of molten iron of production produces Raw 2.5 hundred million tons of high-temperature liquid state slag.The correlative study of many years has been carried out both at home and abroad, it is desirable to blast furnace cinder heat is made full use of, Realize heat recovery.

Although the recoverable method of blast furnace grain slag system filtering ponds heat has been provided in the prior art, in different journeys It is to be solved that degree and different aspect have various defects to have, it is necessary to study new blast furnace grain slag system filtering ponds thermal energy recycling side Method realizes that the Efficient Cycle of the energy utilizes and reduces air pollution.

Utility model content

In order to recycle the thermal energy in blast furnace grain slag system filtering ponds.The utility model provides a kind of blast furnace granulated slag mistake Filter tank utilizing waste heat for refrigeration utilizes system, which can make full use of flushing cinder in filtering ponds using system The waste heat of water and steam, while reducing the workload of cooling tower, the discharge of filtering ponds sulfur-bearing steam can also be reduced, it is really real The Efficient Cycle of existing energy-saving and emission-reduction and the energy utilizes.

The utility model solves that technical application used by its technical problem is novel to be: a kind of blast furnace granulated slag filtering ponds waste heat Refrigeration utilizes system, including high-altitude chimney, filtering ponds, pump house, cooling tower and tank, filtering ponds to be externally provided with the first waste heat system Cold unit, the top of filtering ponds are equipped with steam discharge hole, the second utilizing waste heat for refrigeration unit are equipped in pump house, and the steam discharge hole is logical It crosses high temperature steam pipeline to connect with the first utilizing waste heat for refrigeration unit, the high-temperature steam of steam discharge hole discharge is able to enter the It does work in one utilizing waste heat for refrigeration unit, the lower part of filtering ponds is equipped with high temperature filtration water out, which passes through high temperature Drainage feed-line is crossed to connect with the second utilizing waste heat for refrigeration unit, the high temperature filtration water energy of high temperature filtration water out discharge it is enough into Enter and does work in the second utilizing waste heat for refrigeration unit.

The blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration using system further include first to refrigerant intake pipeline, first to Refrigerant export pipeline, slag-water slurry discharge-channel and condensed water feed-line, first in refrigerant intake pipeline Be able to enter in the first utilizing waste heat for refrigeration unit to refrigerant freezed and from first to refrigerant export pipeline be discharged, The high-temperature steam of steam discharge hole discharge is able to enter acting in the first utilizing waste heat for refrigeration unit and arranges from condensed water feed-line Out, the both ends of slag-water slurry discharge-channel are connect with high-altitude chimney and filtering ponds respectively, and slag-water slurry discharge-channel can The condensed water that condensed water feed-line is discharged is sent into filtering ponds.

The blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration further includes air-conditioner set using system, and condensed water feed-line passes through steaming Vapour discharge pipe line is connect with high-altitude chimney, and first connects to the normal-temperature water outlet of refrigerant intake pipeline and air-conditioner set, the One connects to the chilled water inlet of refrigerant export pipeline and air-conditioner set, and first is equipped with electricity to refrigerant export pipeline Dynamic butterfly valve and Hand-operated butterfly valve.

An at least engine exhaust-powered refrigerator is equipped in the first utilizing waste heat for refrigeration unit.

High-temperature steam feed-line is equipped with air-introduced machine.

The blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration using system further include second to refrigerant intake pipeline, second to Refrigerant export pipeline and filter at low temperature water feed-line, second in refrigerant intake pipeline can to refrigerant Into freezed in the second utilizing waste heat for refrigeration unit and from second to refrigerant export pipeline be discharged, high temperature filtration water delivery pipe High temperature filtration water in line is able to enter acting in the second utilizing waste heat for refrigeration unit and is discharged from filter at low temperature water feed-line.

The blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration further includes air-conditioner set using system, and second to refrigerant input pipe The connection of the normal-temperature water outlet of line and air-conditioner set, second connects to the chilled water inlet of refrigerant export pipeline and air-conditioner set It connects, filter at low temperature water feed-line is connect with cooling tower, and cooling tower is located at the top of tank.

It is equipped with an at least engine exhaust-powered refrigerator in the second utilizing waste heat for refrigeration unit, is successively set on high temperature filtration water feed-line There are thermometer, flowmeter, Hand-operated butterfly valve, heat-exchanger pump, check valve, electric butterfly valve and Hand-operated butterfly valve, second exports to refrigerant Hand-operated butterfly valve, electric butterfly valve, check valve, Hand-operated butterfly valve and electric butterfly valve, filter at low temperature water feed-line are successively arranged on pipeline On be successively arranged tower pump and Hand-operated butterfly valve, tank be connected with washing slag water discharge pipe, successively set on washing slag water discharge pipe There are Hand-operated butterfly valve, slag flushing pump, check valve, electric butterfly valve and Hand-operated butterfly valve.

Filter layer is equipped in filtering ponds, the top of filtering ponds is equipped with the removable vapour hood that can close the filtering ponds.

High temperature filtration water feed-line, which is equipped with, tests and analyzes device.

The beneficial effects of the utility model are:

1, the thermal energy that can sufficiently recycle washing slag water and steam in filtering ponds realizes that the Efficient Cycle of the energy utilizes.

2, the discharge of filtering ponds sulfur-bearing steam can be reduced, air pollution is reduced.

3, crossing drainage temperature after heat exchanger is handled reduces, and can reduce the workload of cooling tower, realizes efficiently cooling.

4, using the engine exhaust-powered refrigerator of low energy consumption, have the advantages that operating cost is low, high efficiency.

5, it makes full use of original pump house to realize that the utilizing waste heat for refrigeration for crossing drainage and steam in filtering ponds utilizes, is suitable for existing The environmental protection and energy saving of blast furnace granulated slag technique are transformed.

6, the water quality for crossing drainage is tested and analyzed, while detected the temperature of drainage, flow, and all detections are tied Fruit is timely fed back to blast furnace central control system, to optimization blast furnace raw material and fuel quality and proportion, optimization blast furnace operating, promotes smooth operation of furnace It plays an important role.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.

Fig. 1 is the schematic diagram that blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration described in the utility model utilizes system.

1, high-altitude chimney；2, spray equipment；3, the first utilizing waste heat for refrigeration unit；4, electric butterfly valve；5, Hand-operated butterfly valve；6, removable Dynamic vapour hood；7, Hand-operated butterfly valve；8, electric butterfly valve；9, check valve；10, Hand-operated butterfly valve；11, electric butterfly valve；12, thermometer；13, Flowmeter；14, Hand-operated butterfly valve；15, heat-exchanger pump；16, check valve；17, electric butterfly valve；18, Hand-operated butterfly valve；19, the second waste heat system Cold unit；20, upper tower pump；21, Hand-operated butterfly valve；22, Hand-operated butterfly valve；23, slag flushing pump；24, check valve；25, electric butterfly valve；26, Hand-operated butterfly valve；27, discharge of steam pipeline；28, filtering ponds；29, pump house；30, cooling tower；31, tank；32, high-temperature steam Feed-line；33, high temperature filtration water feed-line；34, first to refrigerant intake pipeline；35, first is defeated to refrigerant Pipeline out；36, slag-water slurry discharge-channel；37, condensed water feed-line；38, air-conditioner set；39, second to refrigerant Intake pipeline；40, second to refrigerant export pipeline；41, filter at low temperature water feed-line；42, washing slag water discharge pipe； 43, filter layer.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

A kind of blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration utilizes system, including high-altitude chimney 1, filtering ponds 28, pump house 29, cold But tower 30 and tank 31, filtering ponds 28 are externally provided with the first utilizing waste heat for refrigeration unit 3, and the upper wall of filtering ponds 28 is arranged equipped with steam Discharge hole, is equipped with the second utilizing waste heat for refrigeration unit 19 in pump house 29, which passes through high-temperature steam feed-line 32 and the The connection of one utilizing waste heat for refrigeration unit 3, the high-temperature steam of steam discharge hole discharge, which is able to enter in the first utilizing waste heat for refrigeration unit 3, to be done Function, the lower part of filtering ponds 28 are equipped with high temperature filtration water out, which passes through high temperature filtration water feed-line 33 It is connect with the second utilizing waste heat for refrigeration unit 19, the high temperature filtration water of high temperature filtration water out discharge is able to enter second waste heat It does work in refrigeration unit 19, as shown in Figure 1.

In the present embodiment, the blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration further includes first defeated to refrigerant using system Enter pipeline 34, first to refrigerant export pipeline 35, slag-water slurry discharge-channel 36 and condensed water feed-line 37, first It is made to being able to enter in the first utilizing waste heat for refrigeration unit 3 to refrigerant (such as normal-temperature water) in refrigerant intake pipeline 34 It is cold and from first to refrigerant export pipeline 35 be discharged, the steam discharge hole discharge high-temperature steam be able to enter the first waste heat In refrigeration unit 3 acting and from condensed water feed-line 37 be discharged, the both ends of slag-water slurry discharge-channel 36 respectively with high-altitude Chimney 1 and filtering ponds 28 connect, and slag-water slurry discharge-channel 36 can send the condensed water that condensed water feed-line 37 is discharged Enter filtering ponds 28.

In the present embodiment, the blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration further includes air-conditioner set 38 using system, condensation Water feed-line 37 is connect by discharge of steam pipeline 27 with high-altitude chimney 1, and first to refrigerant intake pipeline 34 and air-conditioning The normal-temperature water outlet of unit 38 connects, and first connect to refrigerant export pipeline 35 with the chilled water inlet of air-conditioner set 38, First is equipped with electric butterfly valve 4 and Hand-operated butterfly valve 5 to refrigerant export pipeline 35.

In the present embodiment, an at least engine exhaust-powered refrigerator is equipped in the first utilizing waste heat for refrigeration unit 3, such as first waste heat More suction-type lithium bromide engine exhaust-powered refrigerators of serial or parallel connection are equipped in refrigeration unit 3.It is set on high-temperature steam feed-line 32 There is air-introduced machine.

In the present embodiment, the blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration further includes second defeated to refrigerant using system Enter pipeline 39, second to refrigerant export pipeline 40 and filter at low temperature water feed-line 41, second to refrigerant input pipe Being able to enter in the second utilizing waste heat for refrigeration unit 19 in line 39 to refrigerant (such as normal-temperature water) is freezed and from second wait make Cold medium export pipeline 40 is discharged, and the high temperature filtration water in high temperature filtration water feed-line 33 is able to enter second utilizing waste heat for refrigeration It does work in unit 19 and is discharged from filter at low temperature water feed-line 41.

In the present embodiment, the blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration further includes air-conditioner set 38 using system, and second It is connect to refrigerant intake pipeline 39 with the normal-temperature water outlet of air-conditioner set 38, second to refrigerant export pipeline 40 and sky The chilled water inlet connection of unit 38 is adjusted, filter at low temperature water feed-line 41 is connect with cooling tower 30, and cooling tower 30 is located at water storage The top in pond 31.

In the present embodiment, in the second utilizing waste heat for refrigeration unit 19 be equipped with an at least engine exhaust-powered refrigerator, as this more than second More suction-type lithium bromide engine exhaust-powered refrigerators of serial or parallel connection are equipped in refrigeration heat unit 19.High temperature filtration water feed-line 33 On be successively arranged thermometer 12, flowmeter 13, Hand-operated butterfly valve 14, heat-exchanger pump 15, check valve 16, electric butterfly valve 17 and Hand-operated butterfly valve 18, second to be successively arranged Hand-operated butterfly valve 7, electric butterfly valve 8, check valve 9,10 and of Hand-operated butterfly valve on refrigerant export pipeline 40 Electric butterfly valve 11, tower pump 20 is successively arranged on filter at low temperature water feed-line 41 and Hand-operated butterfly valve 21, tank 31 are connected with Washing slag water discharge pipe 42 is successively arranged Hand-operated butterfly valve 22, slag flushing pump 23, check valve 24, electronic on washing slag water discharge pipe 42 Butterfly valve 25 and Hand-operated butterfly valve 26, as shown in Figure 1.

In the present embodiment, filter layer 43 is equipped in filtering ponds 28, the top of filtering ponds 28, which is equipped with, can close the filtering The removable vapour hood 6 in pond 28.High temperature filtration water feed-line 33, which is equipped with, tests and analyzes device.

In the present invention, removable vapour hood is set at the top of filtering ponds, in filtering ponds side close to high-altitude chimney Place's setting steam waste heat refrigeration machine, is arranged one or more afterheat of hot water refrigeration machine in pump house, pumped using heat-exchanger pump, upper tower, The equipment such as slag flushing pump and steam waste heat refrigeration machine, afterheat of hot water refrigeration machine realize that filtering ponds bottom filtering and filtering pool surface steam The utilizing waste heat for refrigeration of vapour utilizes, reduces sulfur-bearing discharge of steam, realizes recycling for drainage.

In the present invention, one or more afterheat of hot water refrigeration machine, more afterheat of hot water refrigeration are set in pump house Machine connects in series or in parallel according to on-site actual situations.Removable vapour hood is set at the top of filtering ponds, and when flushing cinder can Moving steam cover is realized filtering ponds and is sealed, and sulfur-bearing steam is avoided to put idle discharge；Flushing cinder is removed vapour hood after stopping convenient for grabbing Slag particle in filtering ponds is cleared up in slag operation.

In the present invention, high-altitude chimney has enough height, is capable of forming enough negative pressure in filtering pool surface, Under the action of in high-altitude, chimney negative-pressure sucking and vapour hood are sealed, the steam for filtering pool surface is pulled out filtering ponds and enters more than steam Refrigerating machine.Air-introduced machine can be set between filtering ponds and high-altitude chimney, steam is entered after the steam on filter tank surface is detached Engine exhaust-powered refrigerator.Spray equipment is set in the chimney of high-altitude, and spray equipment sprays atomized water and steam collides and to form drop and fall into height Empty chimney bottom.

In the present invention, when blast furnace slag flushing, slag-water slurry carries steam and enters filtering ponds, and setting can on filtering ponds Moving steam cover respectively draws the high temperature filtration water of steam and filtering bottom of pond portion that pool surface is filtered when flushing cinder, through waste heat system The heat exchange action of cold realizes that the utilizing waste heat for refrigeration of filtering ponds utilizes, steam is avoided to put idle discharge.Blast furnace stops flushing cinder, needs When clearing up slag particle in filtering ponds, vapour hood is removed convenient for grabbing slag operation.

In the present invention, high temperature filtration water successively passes through one or more utilizing waste heat for refrigeration after filtering bottom of pond portion outflow Machine completes the refrigeration for treating refrigerant (normal-temperature water or other media) in heat exchanging process, and normal-temperature water is through pump house hot water Become low-temperature cold water after utilizing waste heat for refrigeration mechanism cold.High temperature filtration water temperature under the action of engine exhaust-powered refrigerator, which reduces, becomes low temperature mistake Drainage, filter at low temperature water enter after cooling tower further cools down as low temperature washing slag water, realize recycling for drainage.

In the present invention, in filtering ponds side, the steam of filtering ponds is drawn in aperture at the chimney of high-altitude, is drawn and is steamed The pipeline of vapour tilts upward, and steam condensate (SC) is avoided to accumulate corrosion pipeline in pipeline.The steam of extraction is most of in waste heat system Enter filtering ponds together with slag-water slurry after condensing into water droplet under the action of cold, fraction steam is not condensed into high-altitude Chimney.

In the present invention, become drop pendant under the action of spray equipment into the steam of high-altitude chimney and fall behind in height Empty chimney bottom enters filtering ponds through slag-water slurry channel.At filtering ponds outlet at bottom, the water quality for crossing drainage is examined Analysis is surveyed, while detecting the temperature of drainage, flow, and all testing results are timely fed back to blast furnace central control system, is optimized Blast furnace raw material and fuel quality and proportion, promote smooth operation of furnace at optimization blast furnace operating.

Blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration described in the utility model can be using system in Chinese patent CN 101265039 A (2008 publication dates September 17th, disclosed " a kind of environment-friendly type bottom filter process blast furnace slag treatment device and place Reason method ") on the basis of improve, make full use of original chimney and pump house, do not increase additional floor, utilize heat exchanger Complete the recycling of blast furnace grain slag system filtering ponds thermal energy.

Suction-type lithium bromide engine exhaust-powered refrigerator is set in pump house, high temperature filtration water (about 70 DEG C~90 DEG C) is from filtering ponds bottom Successively through excessive platform suction-type lithium bromide engine exhaust-powered refrigerator after portion's outflow, complete to treat refrigerant in heat exchanging process (often Warm water or other media) refrigeration.

Normal-temperature water (about 25 DEG C~35 DEG C) becomes (about 5 DEG C of low-temperature cold water after suction-type lithium bromide utilizing waste heat for refrigeration mechanism cold ~15 DEG C), enter user's pipe network by check valve, electric butterfly valve and Hand-operated butterfly valve.High temperature filtration water is through heat-exchanger pump 15, check valve 16, enter suction-type lithium bromide engine exhaust-powered refrigerator after electric butterfly valve 17 and Hand-operated butterfly valve 18, in suction-type lithium bromide utilizing waste heat for refrigeration Temperature, which reduces, under the action of machine becomes filter at low temperature water (about 50 DEG C~60 DEG C), and filter at low temperature water is through upper tower pump 20 and Hand-operated butterfly valve 21 enter cooling tower, store for future use as cooling water (about 40 DEG C~45 DEG C) into tank after completing cooling.When needing flushing cinder, Cooling water is drawn from water storage bottom of pond portion, power is promoted through slag flushing pump 23, then as low temperature washing slag water through check valve 24, electronic butterfly Valve 25 and Hand-operated butterfly valve 26 guide flushing cinder point into, realize recycling for drainage.

Removable vapour hood 6 is set at the top of filtering ponds, the steam of filtering pool surface is sealed；Flushing cinder is removable after stopping Dynamic vapour hood is removed to grab slag.

Draw the steam of filtering pool surface close to the position aperture at top at high-altitude chimney 1 in filtering ponds side wall.It is high Empty chimney 1 requires enough height (about 70 meters), can filtering pool surface formed enough negative pressure (about 500~ 1000Pa).If original chimney height is insufficient, it may be considered that increase chimney height up to meet demand or in filtering ponds side wall Air-introduced machine is set outside aperture.

Under the action of the negative pressure and removable vapour hood 6 of chimney 1 or air-introduced machine seal in high-altitude, the steam of pool surface is filtered It is pulled out filtering ponds and enters suction-type lithium bromide engine exhaust-powered refrigerator.

Normal-temperature water (about 25 DEG C~35 DEG C) becomes (about 5 DEG C of low-temperature cold water after suction-type lithium bromide utilizing waste heat for refrigeration mechanism cold ~15 DEG C), most of steam condenses into water droplet under the action of suction-type lithium bromide engine exhaust-powered refrigerator, together with slag-water slurry Into filtering ponds, fraction steam is not condensed into high-altitude chimney 1, becomes water droplet under the action of spray equipment 2 in chimney, The bottom for falling into high-altitude chimney 1 enters filtering ponds through slag-water slurry channel.

The variation of blast furnace raw material and fuel quality and proportion will lead to the composition transfer of blast furnace cinder, and then change the water of drainage Matter.At filtering ponds outlet at bottom, the water quality for crossing drainage flowed out after filter layer filtering is tested and analyzed, while temperature being installed Degree meter 12 and flowmeter 14 detected temperature, the flow of drainage, and all testing results are timely fed back to control in blast furnace and are System to optimization blast furnace raw material and fuel quality and proportion, optimization blast furnace operating, promotes smooth operation of furnace to play an important role.

The low-temperature cold water (about 5 DEG C~15 DEG C) obtained through suction-type lithium bromide engine exhaust-powered refrigerator is widely used, can be used as Air conditioning water is sent to air-conditioner set, can also be used as production technology and with chilled water is sent to the corresponding system of blast furnace (such as furnace body is cold But system).The waste heat of washing slag water and steam is utilized effectively in filtering ponds, and reduces putting to idle discharge for sulfur-bearing steam, It is of great significance for energy-saving and emission-reduction.

The utility model utilizes the original chimney of environment-friendly type bottom filter process blast furnace slag processing system and pump house, is not increasing Under the premise of additional floor, the waste heat of washing slag water and steam in filtering ponds can be made full use of, while reducing the work of cooling tower Load is realized efficiently cooling, can also reduce the discharge of filtering ponds sulfur-bearing steam, really realizes the effective of energy-saving and emission-reduction and the energy It recycles.

The utility model has the advantage that the waste heat for making full use of washing slag water and steam in filtering ponds, realizes the energy Efficient Cycle utilizes；The discharge of filtering ponds sulfur-bearing steam is reduced, air pollution is reduced；It is warm after engine exhaust-powered refrigerator is handled to cross drainage Degree reduces, and can reduce the workload of cooling tower, realizes efficiently cooling；Using the suction-type lithium bromide utilizing waste heat for refrigeration of low energy consumption Machine, the electrical equipment in refrigeration cycle is mainly solution pump (circulating pump), and power only has 5kW~10kW, has operating cost The advantages of low, high efficiency.

The utility model realizes the utilizing waste heat for refrigeration that drainage and steam are crossed in filtering ponds under the premise of not increasing additional floor It utilizes, the environmental protection and energy saving suitable for existing blast furnace granulated slag technique are transformed.

The utility model tests and analyzes the water quality for crossing drainage, while detecting the temperature of drainage, flow, and institute There is testing result to be timely fed back to blast furnace central control system, to optimization blast furnace raw material and fuel quality and proportion, optimization blast furnace operating, promotes Smooth operation of furnace plays an important role.

The above, only specific embodiment of the utility model cannot limit the range that utility model is implemented, institute with it With the displacement of its equivalent assemblies, or according to equivalent variations made by the utility model patent protection scope and modification, should all still fall within The scope that this patent is covered.In addition, between technical characteristic and technical characteristic in the utility model, technical characteristic and technical application Between novel, technical application it is novel it is novel with technical application between use can be freely combined.

Claims (10)

1. a kind of blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration utilizes system, which is characterized in that the blast furnace granulated slag filtering ponds waste heat system Cold utilization system includes high-altitude chimney (1), filtering ponds (28), pump house (29), cooling tower (30) and tank (31), filtering ponds (28) it is externally provided with the first utilizing waste heat for refrigeration unit (3), the top of filtering ponds (28) is equipped with steam discharge hole, is equipped in pump house (29) Second utilizing waste heat for refrigeration unit (19), the steam discharge hole pass through high-temperature steam feed-line (32) and the first utilizing waste heat for refrigeration unit (3) it connects, the high-temperature steam of steam discharge hole discharge is able to enter acting, filtering ponds in the first utilizing waste heat for refrigeration unit (3) (28) lower part is equipped with high temperature filtration water out, the high temperature filtration water out by high temperature filtration water feed-line (33) and this The high temperature filtration water of the connection of two utilizing waste heat for refrigeration units (19), high temperature filtration water out discharge is able to enter second utilizing waste heat for refrigeration Acting in unit (19).

2. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 1 utilizes system, which is characterized in that the blast furnace water Slag filtering ponds utilizing waste heat for refrigeration using system further include first to refrigerant intake pipeline (34), first to refrigerant efferent duct Line (35), slag-water slurry discharge-channel (36) and condensed water feed-line (37), first to refrigerant intake pipeline (34) In be able to enter in the first utilizing waste heat for refrigeration unit (3) and freezed and from first to refrigerant export pipeline to refrigerant (35) it is discharged, the high-temperature steam of steam discharge hole discharge is able to enter in the first utilizing waste heat for refrigeration unit (3) acting and from condensation Water feed-line (37) discharge, the both ends of slag-water slurry discharge-channel (36) respectively with high-altitude chimney (1) and filtering ponds (28) Connection, the condensed water that condensed water feed-line (37) can be discharged for slag-water slurry discharge-channel (36) are sent into filtering ponds (28)。

3. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 2 utilizes system, which is characterized in that the blast furnace water Slag filtering ponds utilizing waste heat for refrigeration further includes air-conditioner set (38) using system, and condensed water feed-line (37) passes through discharge of steam pipeline (27) it is connect with high-altitude chimney (1), the first normal-temperature water outlet company to refrigerant intake pipeline (34) and air-conditioner set (38) It connects, first connect to refrigerant export pipeline (35) with the chilled water inlet of air-conditioner set (38), and first is defeated to refrigerant Pipeline (35) is equipped with electric butterfly valve (4) and Hand-operated butterfly valve (5) out.

4. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 2 utilizes system, which is characterized in that first waste heat An at least engine exhaust-powered refrigerator is equipped in refrigeration unit (3).

5. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 1 utilizes system, which is characterized in that high-temperature steam is defeated Pipeline (32) are sent to be equipped with air-introduced machine.

6. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 1 utilizes system, which is characterized in that the blast furnace water Slag filtering ponds utilizing waste heat for refrigeration using system further include second to refrigerant intake pipeline (39), second to refrigerant efferent duct Line (40) and filter at low temperature water feed-line (41), second to can be into refrigerant in refrigerant intake pipeline (39) Enter and is freezed in the second utilizing waste heat for refrigeration unit (19) and be discharged from second to refrigerant export pipeline (40), high temperature filtration water High temperature filtration water in feed-line (33) is able to enter in the second utilizing waste heat for refrigeration unit (19) acting and from filter at low temperature water Feed-line (41) discharge.

7. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 6 utilizes system, which is characterized in that the blast furnace water Slag filtering ponds utilizing waste heat for refrigeration further includes air-conditioner set (38) using system, and second to refrigerant intake pipeline (39) and air conditioner The normal-temperature water outlet of group (38) connects, the second chilled water inlet company to refrigerant export pipeline (40) and air-conditioner set (38) It connects, filter at low temperature water feed-line (41) is connect with cooling tower (30), and cooling tower (30) is located at the top of tank (31).

8. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 7 utilizes system, which is characterized in that second waste heat It is equipped with an at least engine exhaust-powered refrigerator in refrigeration unit (19), is successively arranged thermometer on high temperature filtration water feed-line (33) (12), flowmeter (13), Hand-operated butterfly valve (14), heat-exchanger pump (15), check valve (16), electric butterfly valve (17) and Hand-operated butterfly valve (18), second to be successively arranged Hand-operated butterfly valve (7), electric butterfly valve (8), check valve (9), hand on refrigerant export pipeline (40) Butterfly valve (10) and electric butterfly valve (11) are moved, tower pump (20) and Hand-operated butterfly valve are successively arranged on filter at low temperature water feed-line (41) (21), tank (31) is connected with washing slag water discharge pipe (42), and washing slag water discharge pipe is successively arranged Hand-operated butterfly valve on (42) (22), slag flushing pump (23), check valve (24), electric butterfly valve (25) and Hand-operated butterfly valve (26).

9. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 1 utilizes system, which is characterized in that filtering ponds (28) Interior to be equipped with filter layer (43), the top of filtering ponds (28) is equipped with the removable vapour hood (6) that can close the filtering ponds (28).

10. blast furnace granulated slag filtering ponds utilizing waste heat for refrigeration according to claim 1 utilizes system, which is characterized in that high temperature filtration Water feed-line (33), which is equipped with, tests and analyzes device.